# How to know whether there is a round has been caused by parents (A=>B=>C=>A)

I have the following structure:

``````[Employee]
ID
Manager1ID
Manager2ID
``````

Scenario:

I want to make a validation to ensure that the chosen Manager1 or Manager2 does not cause a round. In other words, I want to know whether this case exists:

The manager of A is B & the manager of B is C and the manger of C is also A // not valid

A => B => C => A

To tell the user that A is not a valid manager for C because C is already a manager of A .

The problem:

I though of checking in a while loop the managers as parents in a tree, and when I found the chosen manager in the list I know that it is not valid. (Two loops for tow lists for Manager1 and Manager2)

The problem is that every employee might have two managers and a round maybe exists in a case like this:

A => B (Manager1) => C (Manager2) => A

Which is not able to check in my suggested solution.

Any idea!

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You try to find a cycle in a directed graph.

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That's not linq, and there is no need to find cycles with tarjan or other graph algorithms, because each object has exactly one manager so it's a loop graph, there is no need to use general graph algorithms for specific problem. –  Saeed Amiri Apr 18 '11 at 10:11
He stated that each object can have two managers. –  ChrisWue Apr 18 '11 at 10:27
See his `sample A => B (Manager1) => C (Manager2) => A`, So I think Manager2 is just manager of Manager1, and because of this my first answer is for triangle check, OPs other samples, says same thing. –  Saeed Amiri Apr 18 '11 at 10:32
@Saeed: No, Manager2 is not the manager of Manager1, it might represent HR-Manager. –  Homam Apr 18 '11 at 11:02

starting from the employee in question, do a breadth first search on the set of managers and keep accumulating the list of managers you come across in a list. Each time you add an entry to the list, check if it would create a duplication. If it would, it means you have reached the condition you wanted to check for. Keep continuing this process until you either hit a duplication condition or you reach a node which does not have managers

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Use a recursive function:

``````List<Employee> lineage = new List<Employee>();
Validate(theUser, lineage);

public void Validate(Employee employee, List<Employee> lineage)
{
if (lineage.Contains(employee))
throw new InvalidOperationException("Circular graph");

if (employee.Manager != null)
Validate(employee.Manager, lineage)
}
``````
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I have provided a complete generic solution for n number of reportees which is more logical than reportees. If you like to rename reportees to managers, you can do so. You can modify the traversal to suit your needs. I have tested this with cycle and without cycle. It seems to work fine. Let me know if this works for you.

``````using System;
using System.Collections.Generic;

namespace GenericDictionary
{
class Program
{
static void Main(string[] args)
{
Employee employee = new Employee("Employee", null);
Employee manager = new Employee("Manager", employee);
Employee CEO = new Employee("CEO", manager);

// Uncomment this line to see exception in action
try
{
CEO.DisplayReportees();
}
catch (InvalidOperationException ex)
{
Console.WriteLine();
Console.WriteLine("***** Exception: " + ex.Message + " *****");
}

}

public class Employee
{
public List<Employee> Reportees { get; private set; }
public string Name { get; private set; }
public Employee(string name, Employee reportee)
{
this.Reportees = new List<Employee>();
this.Name = name;
}
{
}
int indentationCount = 0;
List<Employee> traversedNodes = new List<Employee>();
void DisplayReportees(Employee employee)
{
for (int i = 0; i < indentationCount; i++)
Console.Write(" ");
Console.WriteLine(employee.Name);
indentationCount = indentationCount + 3;

foreach (Employee reportee in employee.Reportees)
{
throw new InvalidOperationException("Circular graph at node " + reportee.Name);
if (reportee != null)
DisplayReportees(reportee);
}
indentationCount = indentationCount - 3;
traversedNodes.Remove(employee);
}

{
return traversedNodes.Contains(employee);
}

public void DisplayReportees()
{
DisplayReportees(this);
}
}
}
}
``````
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## Use the following recursive function:

``````Boolean CheckManagers(Employee emp)
{

if ((emp.Manager1ID.HasValue && emp.Manager1ID == emp.ID) ||
(emp.Manager2ID.HasValue && emp.Manager2ID == emp.ID)) return false;

return
(
(!emp.Manager1ID.HasValue || (emp.Manager1ID.HasValue && CheckManagers((Employee) emp.Manager1)) &&
(!emp.Manager2ID.HasValue || (emp.Manager2ID.HasValue && CheckManagers((Employee) emp.Manager2))
);

}
``````
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