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variable_intervals_sat.cc
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variable_intervals_sat.cc
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#include "ortools/sat/cp_model.h"
#include "ortools/sat/sat_parameters.pb.h"
#include "ortools/util/time_limit.h"
namespace operations_research {
namespace sat {
void Solve() {
CpModelBuilder cp_model;
const IntVar start_ins = cp_model.NewIntVar(Domain(660, 755));
const IntVar duration_ins = cp_model.NewConstant(25);
const IntVar end_ins = cp_model.NewIntVar(Domain(685, 780));
const IntervalVar ins =
cp_model.NewIntervalVar(start_ins, duration_ins, end_ins);
const IntVar start_p1 = cp_model.NewIntVar(Domain(500, 800));
const IntVar duration_p1 = cp_model.NewIntVar(Domain(1, 360));
const IntVar end_p1 = cp_model.NewIntVar(Domain(500, 1000));
const IntervalVar p1 = cp_model.NewIntervalVar(start_p1, duration_p1, end_p1);
const IntVar start_p2 = cp_model.NewIntVar(Domain(500, 800));
const IntVar duration_p2 = cp_model.NewIntVar(Domain(1, 360));
const IntVar end_p2 = cp_model.NewIntVar(Domain(500, 1000));
const IntervalVar p2 = cp_model.NewIntervalVar(start_p2, duration_p2, end_p2);
cp_model.AddEquality(LinearExpr::Sum({duration_p1, duration_p2}), 360);
cp_model.AddLessOrEqual(end_p1, start_p2);
cp_model.AddNoOverlap({ins, p1, p2});
Model model;
// Tell the solver to enumerate all solutions.
SatParameters parameters;
parameters.set_enumerate_all_solutions(true);
model.Add(NewSatParameters(parameters));
// Create an atomic Boolean that will be periodically checked by the limit.
std::atomic<bool> stopped(false);
model.GetOrCreate<TimeLimit>()->RegisterExternalBooleanAsLimit(&stopped);
const int kSolutionLimit = 100;
int num_solutions = 0;
model.Add(NewFeasibleSolutionObserver([&](const CpSolverResponse& r) {
LOG(INFO) << "Solution " << num_solutions;
LOG(INFO) << " start_p1 = " << SolutionIntegerValue(r, start_p1);
LOG(INFO) << " duration_p1 = " << SolutionIntegerValue(r, duration_p1);
LOG(INFO) << " start_p2 = " << SolutionIntegerValue(r, start_p2);
LOG(INFO) << " duration_p2 = " << SolutionIntegerValue(r, duration_p2);
LOG(INFO) << " start_ins = " << SolutionIntegerValue(r, start_ins);
num_solutions++;
if (num_solutions >= kSolutionLimit) {
stopped = true;
LOG(INFO) << "Stop search after " << kSolutionLimit << " solutions.";
}
}));
SolveCpModel(cp_model.Build(), &model);
LOG(INFO) << "Number of solutions found: " << num_solutions;
}
} // namespace sat
} // namespace operations_research
int main() {
operations_research::sat::Solve();
return EXIT_SUCCESS;
}