/usr/include/gecode/int/element/view.hpp is in libgecode-dev 5.1.0-2build1.
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/*
* Main authors:
* Christian Schulte <schulte@gecode.org>
*
* Contributing authors:
* Guido Tack <tack@gecode.org>
*
* Copyright:
* Christian Schulte, 2004
* Guido Tack, 2004
*
* Last modified:
* $Date: 2016-06-29 17:28:17 +0200 (Wed, 29 Jun 2016) $ by $Author: schulte $
* $Revision: 15137 $
*
* 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 <algorithm>
namespace Gecode { namespace Int { namespace Element {
/**
* \brief Class for bounds-equality test
*
*/
template<class VA, class VC>
class RelTestBnd {
public:
RelTest operator ()(VA,VC);
};
/**
* \brief Class for bounds-equality test (specialized)
*
*/
template<class VA>
class RelTestBnd<VA,ConstIntView> {
public:
RelTest operator ()(VA,ConstIntView);
};
/**
* \brief Class for domain-equality test
*
*/
template<class VA, class VC>
class RelTestDom {
public:
RelTest operator ()(VA,VC);
};
/**
* \brief Class for domain-equality test (specialized)
*
*/
template<class VA>
class RelTestDom<VA,ConstIntView> {
public:
RelTest operator ()(VA,ConstIntView);
};
template<class VA, class VC>
forceinline RelTest
RelTestBnd<VA,VC>::operator ()(VA x, VC y) {
return rtest_eq_bnd(x,y);
}
template<class VA>
forceinline RelTest
RelTestBnd<VA,ConstIntView>::operator ()(VA x, ConstIntView y) {
return rtest_eq_bnd(x,y.val());
}
template<class VA, class VC>
forceinline RelTest
RelTestDom<VA,VC>::operator ()(VA x, VC y) {
return rtest_eq_dom(x,y);
}
template<class VA>
forceinline RelTest
RelTestDom<VA,ConstIntView>::operator ()(VA x, ConstIntView y) {
return rtest_eq_dom(x,y.val());
}
/*
* Base class
*
*/
template<class VA, class VB, class VC, PropCond pc_ac>
View<VA,VB,VC,pc_ac>::View(Home home, IdxViewArray<VA>& iv0,
VB y0, VC y1)
: Propagator(home), iv(iv0), x0(y0), x1(y1) {
x0.subscribe(home,*this,PC_INT_DOM);
x1.subscribe(home,*this,pc_ac);
iv.subscribe(home,*this,pc_ac);
}
template<class VA, class VB, class VC, PropCond pc_ac>
forceinline
View<VA,VB,VC,pc_ac>::View(Space& home, bool share, View& p)
: Propagator(home,share,p) {
x0.update(home,share,p.x0);
x1.update(home,share,p.x1);
iv.update(home,share,p.iv);
}
template<class VA, class VB, class VC, PropCond pc_ac>
PropCost
View<VA,VB,VC,pc_ac>::cost(const Space&, const ModEventDelta&) const {
// This is required for subscribing to variables in the
// above constructor, but this is then the only time this
// virtual function is ever used!
return PropCost::linear(PropCost::LO,iv.size()+2);
}
template<class VA, class VB, class VC, PropCond pc_ac>
void
View<VA,VB,VC,pc_ac>::reschedule(Space& home) {
x0.reschedule(home,*this,PC_INT_DOM);
x1.reschedule(home,*this,pc_ac);
iv.reschedule(home,*this,pc_ac);
}
template<class VA, class VB, class VC, PropCond pc_ac>
forceinline size_t
View<VA,VB,VC,pc_ac>::dispose(Space& home) {
x0.cancel(home,*this,PC_INT_DOM);
x1.cancel(home,*this,pc_ac);
iv.cancel(home,*this,pc_ac);
(void) Propagator::dispose(home);
return sizeof(*this);
}
/**
* \brief Value iterator for indices in index-view map
*
*/
template<class View>
class IterIdxView {
private:
const IdxView<View> *cur, *end;
public:
IterIdxView(void);
IterIdxView(const IdxView<View>*, const IdxView<View>*);
void init(const IdxView<View>*, const IdxView<View>*);
bool operator ()(void) const;
void operator ++(void);
int val(void) const;
};
template<class View>
forceinline
IterIdxView<View>::IterIdxView(void) {}
template<class View>
forceinline
IterIdxView<View>::IterIdxView(const IdxView<View>* b,
const IdxView<View>* e)
: cur(b), end(e) {}
template<class View>
forceinline void
IterIdxView<View>::init(const IdxView<View>* b,
const IdxView<View>* e) {
cur=b; end=e;
}
template<class View>
forceinline bool
IterIdxView<View>::operator ()(void) const {
return cur < end;
}
template<class View>
forceinline void
IterIdxView<View>::operator ++(void) {
cur++;
}
template<class View>
forceinline int
IterIdxView<View>::val(void) const {
return cur->idx;
}
/*
* Generic scanning: does all but computing new domain for result
* (which is specific to bounds/domain version)
*
*/
template<class VA, class VB, class VC, PropCond pc_ac, class RelTest>
ExecStatus
scan(Space& home, IdxViewArray<VA>& iv,
VB x0, VC x1, Propagator& p, RelTest rt) {
assert(iv.size() > 1);
/*
* Prunes pairs of index, variable
* - checks for idx value removed
* - checks for disequal variables
*
*/
ViewValues<VB> vx0(x0);
int i = 0;
int j = 0;
while (vx0() && (i < iv.size())) {
if (iv[i].idx < vx0.val()) {
iv[i].view.cancel(home,p,pc_ac);
++i;
} else if (iv[i].idx > vx0.val()) {
++vx0;
} else {
assert(iv[i].idx == vx0.val());
switch (rt(iv[i].view,x1)) {
case RT_FALSE:
iv[i].view.cancel(home,p,pc_ac);
break;
case RT_TRUE:
case RT_MAYBE:
iv[j++] = iv[i];
break;
default: GECODE_NEVER;
}
++vx0; ++i;
}
}
while (i < iv.size())
iv[i++].view.cancel(home,p,pc_ac);
bool adjust = (j<iv.size());
iv.size(j);
if (iv.size() == 0)
return ES_FAILED;
if (iv.size() == 1) {
GECODE_ME_CHECK(x0.eq(home,iv[0].idx));
} else if (adjust) {
IterIdxView<VA> v(&iv[0],&iv[0]+iv.size());
GECODE_ME_CHECK(x0.narrow_v(home,v,false));
assert(x0.size() == static_cast<unsigned int>(iv.size()));
}
return ES_OK;
}
/*
* Bounds consistent propagator
*
*/
template<class VA, class VB, class VC>
forceinline
ViewBnd<VA,VB,VC>::ViewBnd(Home home,
IdxViewArray<VA>& iv, VB x0, VC x1)
: View<VA,VB,VC,PC_INT_BND>(home,iv,x0,x1) {}
template<class VA, class VB, class VC>
ExecStatus
ViewBnd<VA,VB,VC>::post(Home home,
IdxViewArray<VA>& iv, VB x0, VC x1) {
GECODE_ME_CHECK(x0.gq(home,0));
GECODE_ME_CHECK(x0.le(home,iv.size()));
if (x0.assigned()) {
(void) new (home) Rel::EqBnd<VA,VC>(home,iv[x0.val()].view,x1);
return ES_OK;
} else {
assert(iv.size()>1);
(void) new (home) ViewBnd<VA,VB,VC>(home,iv,x0,x1);
}
return ES_OK;
}
template<class VA, class VB, class VC>
forceinline
ViewBnd<VA,VB,VC>::ViewBnd(Space& home, bool share, ViewBnd& p)
: View<VA,VB,VC,PC_INT_BND>(home,share,p) {}
template<class VA, class VB, class VC>
Actor*
ViewBnd<VA,VB,VC>::copy(Space& home, bool share) {
return new (home) ViewBnd<VA,VB,VC>(home,share,*this);
}
template<class VA, class VB, class VC>
ExecStatus
ViewBnd<VA,VB,VC>::propagate(Space& home, const ModEventDelta&) {
assert(iv.size() > 1);
RelTestBnd<VA,VC> rt;
GECODE_ES_CHECK((scan<VA,VB,VC,PC_INT_BND,RelTestBnd<VA,VC> >
(home,iv,x0,x1,*this,rt)));
if (iv.size() == 1) {
ExecStatus es = home.ES_SUBSUMED(*this);
(void) new (home) Rel::EqBnd<VA,VC>(home(*this),iv[0].view,x1);
return es;
}
assert(iv.size() > 1);
// Compute new result
int min = iv[iv.size()-1].view.min();
int max = iv[iv.size()-1].view.max();
for (int i=iv.size()-1; i--; ) {
min = std::min(iv[i].view.min(),min);
max = std::max(iv[i].view.max(),max);
}
ExecStatus es = shared(x0,x1) ? ES_NOFIX : ES_FIX;
{
ModEvent me = x1.lq(home,max);
if (me_failed(me))
return ES_FAILED;
if (me_modified(me) && (x1.max() != max))
es = ES_NOFIX;
}
{
ModEvent me = x1.gq(home,min);
if (me_failed(me))
return ES_FAILED;
if (me_modified(me) && (x1.min() != min))
es = ES_NOFIX;
}
return (x1.assigned() && (min == max)) ?
home.ES_SUBSUMED(*this) : es;
}
/*
* Domain consistent propagator
*
*/
template<class VA, class VB, class VC>
forceinline
ViewDom<VA,VB,VC>::ViewDom(Home home,
IdxViewArray<VA>& iv, VB x0, VC x1)
: View<VA,VB,VC,PC_INT_DOM>(home,iv,x0,x1) {}
template<class VA, class VB, class VC>
ExecStatus
ViewDom<VA,VB,VC>::post(Home home,
IdxViewArray<VA>& iv, VB x0, VC x1){
GECODE_ME_CHECK(x0.gq(home,0));
GECODE_ME_CHECK(x0.le(home,iv.size()));
if (x0.assigned()) {
(void) new (home) Rel::EqDom<VA,VC>(home,iv[x0.val()].view,x1);
return ES_OK;
} else {
assert(iv.size()>1);
(void) new (home) ViewDom<VA,VB,VC>(home,iv,x0,x1);
}
return ES_OK;
}
template<class VA, class VB, class VC>
forceinline
ViewDom<VA,VB,VC>::ViewDom(Space& home, bool share, ViewDom& p)
: View<VA,VB,VC,PC_INT_DOM>(home,share,p) {}
template<class VA, class VB, class VC>
Actor*
ViewDom<VA,VB,VC>::copy(Space& home, bool share) {
return new (home) ViewDom<VA,VB,VC>(home,share,*this);
}
template<class VA, class VB, class VC>
PropCost
ViewDom<VA,VB,VC>::cost(const Space&, const ModEventDelta& med) const {
return PropCost::linear((VA::me(med) != ME_INT_DOM) ?
PropCost::LO : PropCost::HI, iv.size()+2);
}
template<class VA, class VB, class VC>
ExecStatus
ViewDom<VA,VB,VC>::propagate(Space& home, const ModEventDelta& med) {
assert(iv.size() > 1);
if (VA::me(med) != ME_INT_DOM) {
RelTestBnd<VA,VC> rt;
GECODE_ES_CHECK((scan<VA,VB,VC,PC_INT_DOM,RelTestBnd<VA,VC> >
(home,iv,x0,x1,*this,rt)));
if (iv.size() == 1) {
ExecStatus es = home.ES_SUBSUMED(*this);
(void) new (home) Rel::EqDom<VA,VC>(home(*this),iv[0].view,x1);
return es;
}
// Compute new result
int min = iv[iv.size()-1].view.min();
int max = iv[iv.size()-1].view.max();
for (int i=iv.size()-1; i--; ) {
min = std::min(iv[i].view.min(),min);
max = std::max(iv[i].view.max(),max);
}
GECODE_ME_CHECK(x1.lq(home,max));
GECODE_ME_CHECK(x1.gq(home,min));
return (x1.assigned() && (min == max)) ?
home.ES_SUBSUMED(*this) :
home.ES_NOFIX_PARTIAL(*this,VA::med(ME_INT_DOM));
}
RelTestDom<VA,VC> rt;
GECODE_ES_CHECK((scan<VA,VB,VC,PC_INT_DOM,RelTestDom<VA,VC> >
(home,iv,x0,x1,*this,rt)));
if (iv.size() == 1) {
ExecStatus es = home.ES_SUBSUMED(*this);
(void) new (home) Rel::EqDom<VA,VC>(home(*this),iv[0].view,x1);
return es;
}
assert(iv.size() > 1);
if (x1.assigned()) {
for (int i = iv.size(); i--; )
if (iv[i].view.in(x1.val()))
return shared(x0,x1) ? ES_NOFIX : ES_FIX;
return ES_FAILED;
} else {
Region r(home);
ViewRanges<VA>* i_view = r.alloc<ViewRanges<VA> >(iv.size());
for (int i = iv.size(); i--; )
i_view[i].init(iv[i].view);
Iter::Ranges::NaryUnion i_val(r, i_view, iv.size());
ModEvent me = x1.inter_r(home,i_val);
r.free<ViewRanges<VA> >(i_view,iv.size());
GECODE_ME_CHECK(me);
return (shared(x0,x1) || me_modified(me)) ? ES_NOFIX : ES_FIX;
}
}
}}}
// STATISTICS: int-prop
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