/usr/include/gecode/int/cumulative/basic.hpp is in libgecode-dev 4.2.1-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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/*
* Main authors:
* Christian Schulte <schulte@gecode.org>
* Guido Tack <tack@gecode.org>
*
* Copyright:
* Christian Schulte, 2010
* Guido Tack, 2010
*
* Last modified:
* $Date: 2012-09-07 17:31:22 +0200 (Fri, 07 Sep 2012) $ by $Author: schulte $
* $Revision: 13068 $
*
* 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.
*
*/
namespace Gecode { namespace Int { namespace Cumulative {
/// Event for task
class Event {
public:
/// Event type for task with order in which they are processed
enum Type {
LRT = 0, ///< Latest required time of task
LCT = 1, ///< Latest completion time of task
EST = 2, ///< Earliest start time of task
ZRO = 3, ///< Zero-length task start time
ERT = 4, ///< Earliest required time of task
END = 5 ///< End marker
};
Type e; ///< Type of event
int t; ///< Time of event
int i; ///< Number of task
/// Initialize event
void init(Type e, int t, int i);
/// Order among events
bool operator <(const Event& e) const;
};
/// Sort order for tasks by decreasing capacity
template<class Task>
class TaskByDecCap {
public:
/// Sort order
bool operator ()(const Task& t1, const Task& t2) const;
};
forceinline void
Event::init(Event::Type e0, int t0, int i0) {
e=e0; t=t0; i=i0;
}
forceinline bool
Event::operator <(const Event& e) const {
if (this->t == e.t)
return this->e < e.e;
return this->t < e.t;
}
template<class Task>
forceinline bool
TaskByDecCap<Task>::operator ()(const Task& t1, const Task& t2) const {
return t1.c() > t2.c();
}
// Basic propagation
template<class Task, class Cap>
ExecStatus
basic(Space& home, bool& subsumed, Cap c, TaskArray<Task>& t) {
subsumed = false;
int ccur = c.max();
int cmax = ccur;
int cmin = ccur;
// Sort tasks by decreasing capacity
TaskByDecCap<Task> tbdc;
Support::quicksort(&t[0], t.size(), tbdc);
Region r(home);
Event* e = r.alloc<Event>(4*t.size()+1);
// Initialize events
bool assigned=true;
{
bool required=false;
int n=0;
for (int i=t.size(); i--; )
if (t[i].assigned()) {
// Only add required part
if (t[i].pmin() > 0) {
required = true;
e[n++].init(Event::ERT,t[i].lst(),i);
e[n++].init(Event::LRT,t[i].ect(),i);
} else if (t[i].pmax() == 0) {
required = true;
e[n++].init(Event::ZRO,t[i].lst(),i);
}
} else {
assigned = false;
e[n++].init(Event::EST,t[i].est(),i);
e[n++].init(Event::LCT,t[i].lct(),i);
// Check whether task has required part
if (t[i].lst() < t[i].ect()) {
required = true;
e[n++].init(Event::ERT,t[i].lst(),i);
e[n++].init(Event::LRT,t[i].ect(),i);
}
}
// Check whether no task has a required part
if (!required) {
subsumed = assigned;
return ES_FIX;
}
// Write end marker
e[n++].init(Event::END,Int::Limits::infinity,-1);
// Sort events
Support::quicksort(e, n);
}
// Set of current but not required tasks
Support::BitSet<Region> tasks(r,static_cast<unsigned int>(t.size()));
// Process events, use ccur as the capacity that is still free
while (e->e != Event::END) {
// Current time
int time = e->t;
// Process events for completion of required part
for ( ; (e->t == time) && (e->e == Event::LRT); e++)
if (t[e->i].mandatory()) {
tasks.set(static_cast<unsigned int>(e->i)); ccur += t[e->i].c();
}
// Process events for completion of task
for ( ; (e->t == time) && (e->e == Event::LCT); e++)
tasks.clear(static_cast<unsigned int>(e->i));
// Process events for start of task
for ( ; (e->t == time) && (e->e == Event::EST); e++)
tasks.set(static_cast<unsigned int>(e->i));
// Process events for zero-length task
for ( ; (e->t == time) && (e->e == Event::ZRO); e++) {
ccur -= t[e->i].c();
if (ccur < cmin) cmin=ccur;
if (ccur < 0)
return ES_FAILED;
ccur += t[e->i].c();
}
// norun start time for 0-length tasks
int zltime = time;
// Process events for start of required part
for ( ; (e->t == time) && (e->e == Event::ERT); e++)
if (t[e->i].mandatory()) {
tasks.clear(static_cast<unsigned int>(e->i));
ccur -= t[e->i].c();
if (ccur < cmin) cmin=ccur;
zltime = time+1;
if (ccur < 0)
return ES_FAILED;
} else if (t[e->i].optional() && (t[e->i].c() > ccur)) {
GECODE_ME_CHECK(t[e->i].excluded(home));
}
// Exploit that tasks are sorted according to capacity
for (Iter::Values::BitSet<Support::BitSet<Region> > j(tasks);
j() && (t[j.val()].c() > ccur); ++j)
// Task j cannot run from time to next time - 1
if (t[j.val()].mandatory()) {
if (t[j.val()].pmin() > 0) {
GECODE_ME_CHECK(t[j.val()].norun(home, time, e->t - 1));
} else {
GECODE_ME_CHECK(t[j.val()].norun(home, zltime, e->t - 1));
}
}
}
GECODE_ME_CHECK(c.gq(home,cmax-cmin));
subsumed = assigned;
return ES_NOFIX;
}
}}}
// STATISTICS: int-prop
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