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I needed to implement sorting on all fields of my class I wrote a comparator for each field in my class. But I had to write a individual comparator for each field. I think that it is not very correctly. How write for my class a single universal comparator which can make sorting through all fields?

My entity:

public class User {
    private long id;
    private String name;
    private int age;
 .....................

My comparators:

public class UserComparatorById implements Comparator<User> {   
    public int compare(User user1, User user2) {        
       int result = (int)(user1.getId() - user2.getId());
       if (result != 0) return (int)(result/Math.abs(result));        
       result = user1.getName().compareTo (user2.getName());
       if (result != 0) return (int)(result/Math.abs(result));
       result = user1.getAge() - user2.getAge();
       return (result != 0) ? (int)(result/Math.abs(result)) : 0;
    }
}

public class UserComparatorByName implements Comparator<User> { 
    public int compare(User user1, User user2) {            
       int result = user1.getName().compareTo (user2.getName());
       if (result != 0) return (int)(result/Math.abs(result));
       result = (int)(user1.getId() - user2.getId());
       if (result != 0) return (int)(result/Math.abs(result));  
       result = user1.getAge() - user2.getAge();
       return (result != 0) ? (int)(result/Math.abs(result)) : 0;
    }
}

public class UserComparatorByAge implements Comparator<User> {  
    public int compare(User user1, User user2) {            
       int result = user1.getAge() - user2.getAge();
       if (result != 0) return (int)(result/Math.abs(result));
       result = (int)(user1.getId() - user2.getId());
       if (result != 0) return (int)(result/Math.abs(result));   
       result = user1.getName().compareTo (user2.getName());
       return (result != 0) ? (int)(result/Math.abs(result)) : 0;
    }
}

Sorting:

List<User> users = new ArrayList<User>();

    users.add(new User(5, "Frank", 28));
    users.add(new User(1, "Jorge", 19));
    users.add(new User(6, "Bill", 34));
    users.add(new User(3, "Michel", 17));
    users.add(new User(7, "Mark", 42));

    UserComparatorByName comparatorByName = new UserComparatorByName();
    Collections.sort(users, comparatorByName);

    UserComparatorByAge comparatorByAge = new UserComparatorByAge();
    Collections.sort(users, comparatorByAge);
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1  
Are you aware that Comparator can return any value per contract, only the sign is important? Thus if (result != 0) return (int)(result/Math.abs(result)); can be replaced with if (result != 0) return result. –  Tomasz Nurkiewicz Nov 10 '11 at 22:42
    
define can make sorting through all fields –  Brian Roach Nov 10 '11 at 22:44
    
I will take note of this, thank you –  user1020934 Nov 10 '11 at 22:46

2 Answers 2

One implementation per field isn't that bad, however there is a lot of duplication in your code. You should have one comparator per exactly one field. If you want to compare based on several fields but in different order, wrap atomic comparators (Decorator pattern):

public abstract class AbstractComparator implements Comparator<User> {

    private final AbstractComparator next;

    public AbstractComparator(AbstractComparator next) {
        this.next = next;
    }

    public int compare(User user1, User user2) {
        int result = doCompare(user1, user2);
        if(result != 0)
            return result;
        else
            return next != null? next.compare(user1, user2) : 0;
    }

    public abstract int doCompare(User user1, User user2);

}

public class ById extends AbstractComparator {
    public abstract int doCompare(User user1, User user2) {
        return user1.getId() - user2.getId();
    }
}

public class ByName extends AbstractComparator {
    public abstract int doCompare(User user1, User user2) {
        return user1.getName().compareTo (user2.getName());
    }
}

public class ByAge extends AbstractComparator {
    public abstract int doCompare(User user1, User user2) {
        return user1.getAge() - user2.getAge();
    }
}

And usage:

Comparator<User> comp1 = new new ById(ByName(new ByAge(null)));
Comparator<User> comp2 = new ByAge(new ByName(new ById(null)));

comp1 first sorts by id and if it is equal, falls back to name and to age as a last resort. The API is pretty clear.

For convenience you should place all By* classes as static inner classes of User: User.ByName, User.ByAge, etc. or maybe with some factory methods: User.byName(User.byAge(null)). With a help of some static imports you can echieve pleasant:

Collections.sort(users, byName(byAge(byId(null))));

Alternatively have a look at CompareToBuilder from Commons Lang.

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Maybe the Bean Comparator and Group Comparator will help you out.

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