Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Say I have a User class like this:

public class User
{
   public string Id {get; set;}
   public string Name {get; set;}
}

Each User can be either a Mentor, a Mentee or both. This is represented by a Relationship class:

public class Relationship
{
   public string MentorId {get; set;} // This is a User.Id
   public string MenteeId {get; set;} // This is another User.Id
}

Now I would like to generate a report that lists all of my Users and contains a field called Mentor Count and another field called Mentee Count. To achieve this I have created a UserReportDTO class to hold my report data.

public class UserReportDTO
{
   public string Name {get; set;}
   public string MentorCount {get; set;}
   public string MenteeCount {get; set;}
}

I then query my RavenDB to get a list of all the Users and transform this into a list of UserReportDTO instances.

UserService

public List<UserReportDTO> GetReportChunk(
    IDocumentSession db,
    int skip = 0,
    int take = 1024)
{
    return db.Query<User>()
            .OrderBy(u => u.Id)
            .Skip(skip)
            .Take(take)
            .ToList()
            .Select(user =>
                new UserReportDTO
                {
                    Name = user.Name,
                    MentorCount = // What goes here?
                    MenteeCount = // What goes here?
                })
            .ToList();
}

As you can see, I am struggling to work out the best way to retrieve the MentorCount and MenteeCount values. I have written some Map/Reduce Indexes that I think should be doing the job but I am unsure how to use them to achieve the result I want.

Question

What is the best way to include multiple aggregate fields into a single query?


EDIT 1

@Matt Johnson: I have implemented your index (see end) and now have a working Report Query which, in case anybody is interested, looks like this:

Working User Report Query

public List<UserDTO> GetReportChunk(IDocumentSession db, Claim claim, int skip = 0, int take = 1024)
{
    var results = new List<UserDTO>();
    db.Query<RavenIndexes.Users_WithRelationships.Result, RavenIndexes.Users_WithRelationships>()
        .Include(o => o.UserId)
        .Where(x => x.Claims.Any(c => c == claim.ToString()))
        .OrderBy(x => x.UserId)
        .Skip(skip)
        .Take(take)
        .ToList()
        .ForEach(p =>
            {
                var user = db.Load<User>(p.UserId);
                results.Add(new UserDTO
                {
                        UserName = user.UserName,
                        Email = user.Email,
                        // Lots of other User properties
                        MentorCount = p.MentorCount.ToString(),
                        MenteeCount = p.MenteeCount.ToString()
                });
            });

    return results;
}

MultiMap Index

public class Users_WithRelationships :
        AbstractMultiMapIndexCreationTask<Users_WithRelationships.Result>
{
    public class Result
    {
        public string UserId { get; set; }
        public string[] Claims { get; set; }
        public int MentorCount { get; set; }
        public int MenteeCount { get; set; }
    }

    public Users_WithRelationships()
    {
        AddMap<User>(users => users.Select(user => new
        {
                UserId = user.Id,
                user.Claims,
                MentorCount = 0,
                MenteeCount = 0
        }));

        AddMap<Relationship>(relationships => relationships.Select(relationship => new
        {
                UserId = relationship.MentorId,
                Claims = (string[]) null,
                MentorCount = 0,
                MenteeCount = 1
        }));

        AddMap<Relationship>(relationships => relationships.Select(relationship => new
        {
                UserId = relationship.MenteeId,
                Claims = (string[]) null,
                MentorCount = 1,
                MenteeCount = 0
        }));

        Reduce = results => results.GroupBy(result => result.UserId).Select(g => new
        {
                UserId = g.Key,
                Claims = g.Select(x => x.Claims).FirstOrDefault(x => x != null),
                MentorCount = g.Sum(x => x.MentorCount),
                MenteeCount = g.Sum(x => x.MenteeCount)
        });
    }
}
share|improve this question

1 Answer 1

up vote 2 down vote accepted

You might be better served with a model that already has your relationship data kept with the user. This might look something like:

public class User
{
  public string Id { get; set; }
  public string Name { get; set; }
  public string[] MentorUserIds { get; set; }
  public string[] MenteeUserIds { get; set; }
}

However, if you want to stick with the model you described, the solution is to get rid of the multiple separate indexes and create a single multi-map index that has the data you need.

public class Users_WithRelationships
           : AbstractMultiMapIndexCreationTask<Users_WithRelationships.Result>
{
  public class Result
  {
    public string UserId { get; set; }
    public string Name { get; set; }
    public int MentorCount { get; set; }
    public int MenteeCount { get; set; }
  }

  public Users_WithRelationships()
  {
    AddMap<User>(users => from user in users
                          select new
                          {
                            UserId = user.Id,
                            Name = user.Name,
                            MentorCount = 0,
                            MenteeCount = 0
                          });

    AddMap<Relationship>(relationships => from relationship in relationships
                                          select new
                                          {
                                            UserId = relationship.MentorId,
                                            Name = (string)null,
                                            MentorCount = 1,
                                            MenteeCount = 0
                                          });

    AddMap<Relationship>(relationships => from relationship in relationships
                                          select new
                                          {
                                            UserId = relationship.MenteeId,
                                            Name = (string)null,
                                            MentorCount = 0,
                                            MenteeCount = 1
                                          });

    Reduce = results => 
                from result in results
                group result by result.UserId
                into g
                select new
                {
                  UserId = g.Key,
                  Name = g.Select(x => x.Name).FirstOrDefault(x => x != null),
                  MentorCount = g.Sum(x => x.MentorCount),
                  MenteeCount = g.Sum(x => x.MenteeCount)
                };
  }
}

Then you can update your GetReportChunk method to query against the one index if you still want to project a custom DTO.

return db.Query<Users_WithRelationships.Result, Users_WithRelationships>()
                 .OrderBy(x => x.UserId)
                 .Skip(skip)
                 .Take(take)
                 .Select(x =>
                         new UserReportDTO
                         {
                             Name = x.Name,
                             MentorCount = x.MentorCount,
                             MenteeCount = x.MenteeCount,
                         })
                 .ToList();
share|improve this answer
    
Beat me to it. Was writing exactly the same code. –  Felipe Leusin Nov 23 '12 at 18:47
    
You'll beat me to the next one. :) –  Matt Johnson Nov 23 '12 at 20:45
    
@Matt Johnson - Thanks. Please see Edit 1 in the question. –  biofractal Nov 23 '12 at 22:54
    
You're expecting too much to be done at time of reporting. If .GetRegistrationWorkflow() requires other fields from user, then you should run through this logic earlier in your workflow and persist the results so it can be easier queried upon. If it's solely based on the input claim, then you don't need a full user materialized, do you. –  Matt Johnson Nov 24 '12 at 0:48
    
OK, its all sorted now. Your AbstractMultiMapIndexCreationTask was the key. For the sake of completeness I put up the working query and projection into Edit 1 above. –  biofractal Nov 24 '12 at 16:22

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.