public Limitation(double[] koeffs_, double right, Type type_)
{
equaLine = new EquaLine(koeffs_, right);
type = type_;
}
public Task(EquaLine line)
{
equaLine = line;
type = SimplexMethodSolver.Type.Min;
}
public Limitation(double[] koeffs_, double right, Type type_)
{
equaLine = new EquaLine(koeffs_, right);
type = type_;
}
public Task(EquaLine line)
{
equaLine = line;
type = SimplexMethodSolver.Type.Min;
}
private void fillTableCutAndSimplexMethod(Task task)
{
dgvAllCuts.Rows.Clear();
dgvAllCuts.Columns.Clear();
dgvAllCuts.Columns.Add("det", "det");
dgvAllCuts.Columns[0].DefaultCellStyle.BackColor = Color.LightGray;
for (int i = 0; i < task.AllCuts.Count; i++)
dgvAllCuts.Columns.Add((i + 1).ToString(), (i + 1).ToString());
dgvAllCuts.Columns.Add("num", "num");
String[] str = new String[task.AllCuts.Count + 2];
str[0] = "det";
for (int i = 0; i < task.AllCuts.Count; i++)
str[i + 1] = (i + 1).ToString();
str[task.AllCuts.Count + 1] = "num";
dgvAllCuts.Rows.Add(str);
dgvAllCuts.Rows[0].DefaultCellStyle.BackColor = Color.LightGray;
List<src.SMethod.Limitation> limits = new List<src.SMethod.Limitation>();
OrderPair pair = task.order.First();
while (pair != null) {
str[0] = pair.Detail.Volume.ToString();
str[task.AllCuts.Count + 1] = pair.Num.ToString();
limits.Add(new src.SMethod.Limitation(new double[] { }, pair.Num, src.SMethod.Limitation.Type.Equal));
for (int i = 0; i < task.AllCuts.Count; i++) {
str[i + 1] = task.AllCuts[i].CountOf(pair.Detail).ToString();
limits.Last().equaLine.koeffs.Add(task.AllCuts[i].CountOf(pair.Detail));
}
dgvAllCuts.Rows.Add(str);
pair = task.GetNextOrderPair(pair);
}
String[] str2 = new String[task.AllCuts.Count + 2];
dgvAllCuts.Rows.Add(str2);
str[0] = "left";
str[task.AllCuts.Count + 1] = "";
src.SMethod.EquaLine equa = new src.SMethod.EquaLine(new double[] { }, 0.0);
for (int i = 0; i < task.AllCuts.Count; i++) {
str[i + 1] = Math.Round(task.AllCuts[i].Left, 3).ToString().Replace(',', '.');
equa.koeffs.Add(task.AllCuts[i].Left);
}
src.SMethod.Task sTask = new src.SMethod.Task(equa);
foreach (src.SMethod.Limitation limit in limits)
sTask.limitations.Add(limit);
solver = new src.SMethod.SimplexMethodSolver(sTask);
dgvAllCuts.Rows.Add(str);
solver.calculateOptimalPlan();
}
private void fillTableCutAndSimplexMethod(Task task)
{
dgvAllCuts.Rows.Clear();
dgvAllCuts.Columns.Clear();
dgvAllCuts.Columns.Add("det", "det");
dgvAllCuts.Columns[0].DefaultCellStyle.BackColor = Color.LightGray;
for (int i = 0; i < task.AllCuts.Count; i++)
{
dgvAllCuts.Columns.Add((i + 1).ToString(), (i + 1).ToString());
}
dgvAllCuts.Columns.Add("num", "num");
String[] str = new String[task.AllCuts.Count + 2];
str[0] = "det";
for (int i = 0; i < task.AllCuts.Count; i++)
{
str[i + 1] = (i + 1).ToString();
}
str[task.AllCuts.Count + 1] = "num";
dgvAllCuts.Rows.Add(str);
dgvAllCuts.Rows[0].DefaultCellStyle.BackColor = Color.LightGray;
List <src.SMethod.Limitation> limits = new List <src.SMethod.Limitation>();
OrderPair pair = task.order.First();
while (pair != null)
{
str[0] = pair.Detail.Volume.ToString();
str[task.AllCuts.Count + 1] = pair.Num.ToString();
limits.Add(new src.SMethod.Limitation(new double[] { }, pair.Num, src.SMethod.Limitation.Type.Equal));
for (int i = 0; i < task.AllCuts.Count; i++)
{
str[i + 1] = task.AllCuts[i].CountOf(pair.Detail).ToString();
limits.Last().equaLine.koeffs.Add(task.AllCuts[i].CountOf(pair.Detail));
}
dgvAllCuts.Rows.Add(str);
pair = task.GetNextOrderPair(pair);
}
String[] str2 = new String[task.AllCuts.Count + 2];
dgvAllCuts.Rows.Add(str2);
str[0] = "left";
str[task.AllCuts.Count + 1] = "";
src.SMethod.EquaLine equa = new src.SMethod.EquaLine(new double[] { }, 0.0);
for (int i = 0; i < task.AllCuts.Count; i++)
{
str[i + 1] = Math.Round(task.AllCuts[i].Left, 3).ToString().Replace(',', '.');
equa.koeffs.Add(task.AllCuts[i].Left);
}
src.SMethod.Task sTask = new src.SMethod.Task(equa);
foreach (src.SMethod.Limitation limit in limits)
{
sTask.limitations.Add(limit);
}
solver = new src.SMethod.SimplexMethodSolver(sTask);
dgvAllCuts.Rows.Add(str);
solver.calculateOptimalPlan();
}