2

I have a class named studentdetails and a property named students which is the list of studentdetails.

public class studentdetails 
{
    public int SubjectId  {get ; set; }
    public int studentId  { get; set; } 
    public int ClassId  { get; set; }     
}

List<studentdetails> students = new List<studentdetails>()
{ 
    new studentdetails() { studentId = 1, SubjectId = 1, ClassId = 1 },
    new studentdetails() { studentId = 2, SubjectId = 2, ClassId = 1 },
    new studentdetails() { studentId = 3, SubjectId = 1, ClassId = 2 },
    new studentdetails() { studentId = 1, SubjectId = 3, ClassId = 2 },
    new studentdetails() { studentId = 1, SubjectId = 3, ClassId = 1 }
};

I have to create a list of class which contains list of student(which contains a list of sbject as property ) as a property without repeating class,student and subject if its already exist.

example:

public class Class
{
    public int ClassId  { get; set; }
    public Lits<student> students  { get; set; }
}
public class student
{
    public int StudentId  { get; set; }
    public Lits<Subject> subjects  { get; set; }
}
public class Subject 
{
    public int SubjectId   { get; set; }
}

For Example: With refer to above studentdetails

class(1) -student(1) -subject(1)
                     -subject(3)
         -student(2) -subject(2)

class(2) -student(3) -subject(1)
         -student(1) -subject(3)
0
2

The next approach can be used to solve the problem:

List<Class> classes = students
    // This GroupBy creates groups by ClassId:
    // (ClassId) -> (List of Students).
    .GroupBy(s => s.ClassId)
    .Select(c => new Class
    {
       ClassId = c.Key,
       Students = c
          // This GroupBy for given Class creates groups by StudentId:
          // (StudentId) -> (List of Subjects).
          .GroupBy(s => s.StudentId)
          .Select(s => new Student
          {
             StudentId = s.Key,
             Subjects = s
                // This GroupBy for given Class and Student removes
                // duplicate values of SubjectId. If you can guarantee
                // that for given Class and Student will not be duplicate
                // values of SubjectId then you can remove this GroupBy.
                // If you remove this GroupBy then you need to change 
                // expression inside Select to the following:
                // new Subject { SubjectId = t.SubjectId }.
                .GroupBy(t => t.SubjectId)
                .Select(t => new Subject { SubjectId = t.Key })
                .ToList()
          }).ToList()
    }).ToList();

Here is complete sample that shows this approach.


@Thaks asked in the comment:

If there is class name, student name and aсtivity name along with ids. Then how can I map accordingly to the instance?

If you need additionally to map properties other then id then you should use the next overload of GroupBy method: GroupBy(keySelector, comparer). Using this method we can use instances of StudentDetails class as keys and specify comparer for them.

At first we should create comparer, a class that implements interface IEqualityComparer. In our sample we can use a single comparer class to perform all three GroupBy operations, because all our GroupBy operations are performed using int Id property. Typically each GroupBy operation uses its own comparer class because most of the time different GroupBy operations are performed using different keys (different data types, different number of groupping properties). Here is how we can implement our comparer:

// For demo I simplified implementation of the Equals and GetHashCode
// methods by excluding null checks. In the documentation of 
// IEqualityComparer you can find implementation with null checks.
public class ComparerById<T> : IEqualityComparer<T>
{
    private readonly Func<T, int> _keySelector;

    public ComparerById(Func<T, int> keySelector) => _keySelector = keySelector;

    public bool Equals(T x, T y) => _keySelector(x) == _keySelector(y);

    public int GetHashCode(T obj) => _keySelector(obj);
}

And then using this comparer we can perform required GroupBy:

List<Class> classes = students
    // Now key of each group has type StudentDetails, therefore later we
    // will be able to use properties of StudentDetails such as ClassName.
    // Here to compare keys of type StudentDetails we use comparer:
    // new ComparerById<StudentDetails>(s => s.ClassId);
    // It means that we create groups by ClassId.
    .GroupBy(s => s, new ComparerById<StudentDetails>(s => s.ClassId))
    .Select(c => new Class
    {
        ClassId = c.Key.ClassId,
        ClassName = c.Key.ClassName,
        Students = c
            // Here we create groups by StudentId.
            .GroupBy(s => s, new ComparerById<StudentDetails>(s => s.StudentId))
            .Select(s => new Student
            {
                StudentId = s.Key.StudentId,
                StudentName = s.Key.StudentName,
                Subjects = s
                    // Here we create groups by SubjectId.
                    .GroupBy(t => t, new ComparerById<StudentDetails>(t => t.SubjectId))
                    .Select(t => new Subject {SubjectId = t.Key.SubjectId, SubjectName = t.Key.SubjectName})
                    .ToList()
            }).ToList()
    }).ToList();

Here is complete sample that shows this approach.

3
  • if there is class name ,student name and ativity name along with ids .Then how can i map accordingly to the instance ? – Thaks Apr 27 '20 at 14:41
  • 1
    @Thaks I updated my answer to include approach that can be used to map additional properties (class name, student name and etc.). Please, check it. – Iliar Turdushev Apr 28 '20 at 11:36
  • @lliar it is a good method. we can also get additional properties by directly using find method in the list with the key.. – Thaks May 1 '20 at 10:52

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