int chooseVar6(const Problem<type,type2>& P,type epsilon){
type2 max=std::numeric_limits<type2>::min();
int j=-1;
int i=0;
while (i<P.nbTask){
if (P.A[i].Fi(P.bmax(i))*(P.d(i)-P.r(i))-P.W(i)>=max && P.smax(i) - P.r(i)>epsilon) {
j=i;
max=P.A[i].Fi(P.bmax(i))*(P.d(i)-P.r(i))-P.W(i);
}
if (P.A[i].Fi(P.bmax(i))*(P.d(i)-P.r(i))-P.W(i)>max && P.d(i)-P.emin(i)>epsilon){
j=i+P.nbTask;
max=P.A[i].Fi(P.bmax(i))*(P.d(i)-P.r(i))-P.W(i);
}
++i;
}
return j;
}
int createConstraintMinDur(const Problem<double>& P, IloModel& model, IloNumVarArray& t, IloNumVarMatrix& x, IloNumVarMatrix& y){
const int E=2*P.nbTask;
for (int i=0;i<P.nbTask;i++){
for (int e=1;e<E-1;e++) {
for (int f=e;f<E;f++)
model.add(t[f] >= t[e] + x[i][e] * (P.A[i].emin-P.A[i].ri) - (1-y[i][f])*(P.W(i)/P.A[i].Fi(P.bmax(i))));
}
}
return 0;
}
int createConstraintEnergy(const Problem<double>& P, IloEnv& env, IloModel& model, IloNumVarArray& t, IloNumVarMatrix& b, IloNumVarMatrix& w){
for (int i=0;i<P.nbTask;++i){
IloExpr expr(env);
for (int e=0;e<2*P.nbTask-1;++e){
for (int q=0;q<P.A[i].Fi.nbPiece;++q)
model.add(P.A[i].Fi.F[q].f.a*b[i][e]+
P.A[i].Fi.F[q].f.c*(t[e+1]-t[e])>=w[i][e]);
expr+=w[i][e];
}
model.add(expr == P.W(i));
expr.end();
}
return 0;
}
int createConstraintNulEnergy(const Problem<double>& P, IloEnv& env,IloModel& model, IloNumVarMatrix& x, IloNumVarMatrix& y, IloNumVarMatrix& w){
for (int i=0;i<P.nbTask;i++){
for (int e=0;e<2*P.nbTask-1;e++){
IloExpr expr(env);
for (int f=0; f<= e;f++){
expr+= x[i][f];
expr-= y[i][f];
}
expr*=P.W(i);
model.add(expr >= w[i][e]);
expr.end();
}
}
/* for (int i=0;i<P.nbTask;++i){
for (int e=0;e<2*P.nbTask-1;++e){
model.add(w[i][e] <= z[i][e] * P.W(i));
}
}*/
return 0;
}