Sort ArrayList of custom Objects by property

Question

I read about sorting ArrayLists using a Comparator but in all of the examples people used compareTo which according to some research is a method for Strings.

I wanted to sort an ArrayList of custom objects by one of their properties: a Date object (getStartDay()). Normally I compare them by item1.getStartDate().before(item2.getStartDate()) so I was wondering whether I could write something like:

public class customComparator {
    public boolean compare(Object object1, Object object2) {
        return object1.getStartDate().before(object2.getStartDate());
    }
}

public class randomName {
    ...
    Collections.sort(Database.arrayList, new customComparator);
    ...
}

I just started with Java so please forgive my ignorance.

Answer 1

Since Date implements Comparable, it has a compareTo method just like String does.

So your custom comparator could look like this:

public class CustomComparator implements Comparator<MyObject> {
    @Override
    public int compare(MyObject o1, MyObject o2) {
        return o1.getStartDate().compareTo(o2.getStartDate());
    }
}

(The compare() method must return an int, so you couldn't directly return a boolean like you were planning to anyway.)

Your sorting code would be just about like you wrote:

Collections.sort(Database.arrayList, new CustomComparator());

 
A couple of smaller points which are not directly related to the question:

1. By convention, classes start with an upper-case letter while methods and variables start with a lower-case letter. That's why I changed the name of the comparator to CustomComparator.
2. Use the Javadocs. They will be invaluable if you keep working with Java.

Answer 2

Classes that has a natural sort order (a class Number, as an example) should implement the Comparable interface, whilst classes that has no natural sort order (a class Chair, as an example) should be provided with a Comparator (or an anonymous Comparator class).

Two examples:

public class Number implements Comparable<Number> {
    private int value;

    public Number(int value) { this.value = value; }
    public int compareTo(Number anotherInstance) {
        return this.value - anotherInstance.value;
    }
}

public class Chair {
    private int weight;
    private int height;

    public Chair(int weight, int height) {
        this.weight = weight;
        this.height = height;
    }
    /* Omitting getters and setters */
}
class ChairWeightComparator implements Comparator<Chair> {
    public int compare(Chair chair1, Chair chair2) {
        return chair1.getWeight() - chair2.getWeight();
    }
}
class ChairHeightComparator implements Comparator<Chair> {
    public int compare(Chair chair1, Chair chair2) {
        return chair1.getHeight() - chair2.getHeight();
    }
}

Usage:

List<Number> numbers = new ArrayList<Number>();
...
Collections.sort(numbers);

List<Chair> chairs = new ArrayList<Chair>();
// Sort by weight:
Collections.sort(chairs, new ChairWeightComparator());
// Sort by height:
Collections.sort(chairs, new ChairHeightComparator());

// You can also create anonymous comparators;
// Sort by color:
Collections.sort(chairs, new Comparator<Chair>() {
    public int compare(Chair chair1, Chair chair2) {
        ...
    }
});

Answer 3

Yes, you can. There are two options with comparing items, the Comparable interface, and the Comparator interface.

Both of these interfaces allow for different behavior. Comparable allows you to make the object act like you just described Strings (in fact, String implements Comparable). The second, Comparator, allows you to do what you are asking to do. You would do it like this:

Collections.sort(myArrayList, new MyComparator());

That will cause the Collections.sort method to use your comparator for it's sorting mechanism. If the objects in the ArrayList implement comparable, you can instead do something like this:

Collections.sort(myArrayList);

The Collections class contains a number of these useful, common tools.

Answer 4

For sorting an ArrayList you can use the following code snippet

Collections.sort(studList, new Comparator<Student>(){
  public int compare(Student s1, Student s2) {
    return s1.getFirstName().compareToIgnoreCase(s2.getFirstName());
  }
});

Sort ArrayList Of Object

Answer 5

You can use the Bean Comparator to sort on any property in your custom class.

Answer 6

Yes, that's possible for instance in this answer I sort by the property v of the class IndexValue

    // Sorting by property v using a custom comparator.
    Arrays.sort( array, new Comparator<IndexValue>(){
        public int compare( IndexValue a, IndexValue b ){
            return a.v - b.v;
        }
    });

If you notice here I'm creating a anonymous inner class ( which is the Java for closures ) and passing it directly to the sort method of the class Arrays

Your object may also implement Comparable ( that's what String and most of the core libraries in Java does ) but that would define the "natural sort order" of the class it self, and doesn't let you plug new ones.

Answer 7

your customComparator class must implement java.util.Comparator in order to be used. it must also overide compare() AND equals()

compare() must answer the question: Is object 1 less than, equal to or greater than object 2?

full docs: http://java.sun.com/j2se/1.5.0/docs/api/java/util/Comparator.html

Answer 8

I prefer this process:

public class SortUtil
{    
    public static <T> List<T> sort(List<T> list, String sortByProperty)
    {
            Collections.sort(list, new BeanComparator(sortByProperty));
            return list;
    }
}

List<T> sortedList = SortUtil<T>.sort(unsortedList, "startDate");

If you list of objects has a property called startDate, you call use this over and over. You can even chain them startDate.time.

This requires your object to be Comparable which means you need a compareTo, equals, and hashCode implementation.

Yes, it could be faster... But now you don't have to make a new Comparator for each type of sort. If you can save on dev time and give up on runtime, you might go with this one.

Answer 9

import java.text.ParseException;
import java.text.SimpleDateFormat;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.Date;

public class test {

public static class Person {
    public String name;
    public int id;
    public Date hireDate;

    public Person(String iname, int iid, Date ihireDate) {
        name = iname;
        id = iid;
        hireDate = ihireDate;
    }

    public String toString() {
        return name + " " + id + " " + hireDate.toString();
    }

    // Comparator
    public static class CompId implements Comparator<Person> {
        @Override
        public int compare(Person arg0, Person arg1) {
            return arg0.id - arg1.id;
        }
    }

    public static class CompDate implements Comparator<Person> {
        private int mod = 1;
        public CompDate(boolean desc) {
            if (desc) mod =-1;
        }
        @Override
        public int compare(Person arg0, Person arg1) {
            return mod*arg0.hireDate.compareTo(arg1.hireDate);
        }
    }
}

public static void main(String[] args) {
    // TODO Auto-generated method stub
    SimpleDateFormat df = new SimpleDateFormat("mm-dd-yyyy");
    ArrayList<Person> people;
    people = new ArrayList<Person>();
    try {
        people.add(new Person("Joe", 92422, df.parse("12-12-2010")));
        people.add(new Person("Joef", 24122, df.parse("1-12-2010")));
        people.add(new Person("Joee", 24922, df.parse("12-2-2010")));
    } catch (ParseException e) {
        // TODO Auto-generated catch block
        e.printStackTrace();
    }

    Collections.sort(people, new Person.CompId());
    System.out.println("BY ID");
    for (Person p : people) {
        System.out.println(p.toString());
    }

    Collections.sort(people, new Person.CompDate(false));
    System.out.println("BY Date asc");
    for (Person p : people) {
        System.out.println(p.toString());
    }
    Collections.sort(people, new Person.CompDate(true));
    System.out.println("BY Date desc");
    for (Person p : people) {
        System.out.println(p.toString());
    }

}

}

Answer 10

I found most if not all of these answers rely on the underlying class (Object) to implement comparable or to have a helper comparable interface.

Not with my solution! The following code lets you compare object's field by knowing their string name. You could easily modify it not to use the name, but then you need to expose it or construct one of the Objects you want to compare against.

Collections.sort(anArrayListOfSomeObjectPerhapsUsersOrSomething, new ReflectiveComparator(). new ListComparator("name"));

public class ReflectiveComparator {
    public class FieldComparator implements Comparator<Object> {
        private String fieldName;

        public FieldComparator(String fieldName){
            this.fieldName = fieldName;
        }

        @SuppressWarnings({ "unchecked", "rawtypes" })
        @Override
        public int compare(Object object1, Object object2) {
            try {
                Field field = object1.getClass().getDeclaredField(fieldName);
                field.setAccessible(true);

                Comparable object1FieldValue = (Comparable) field.get(object1);
                Comparable object2FieldValue = (Comparable) field.get(object2);

                return object1FieldValue.compareTo(object2FieldValue);
            }catch (Exception e){}

            return 0;
        }
    }

    public class ListComparator implements Comparator<Object> {
        private String fieldName;

        public ListComparator(String fieldName) {
            this.fieldName = fieldName;
        }

        @SuppressWarnings({ "unchecked", "rawtypes" })
        @Override
        public int compare(Object object1, Object object2) {
            try {
                Field field = object1.getClass().getDeclaredField(fieldName);
                field.setAccessible(true);
                Comparable o1FieldValue = (Comparable) field.get(object1);
                Comparable o2FieldValue = (Comparable) field.get(object2);

                if (o1FieldValue == null){ return -1;}
                if (o2FieldValue == null){ return 1;}
                return o1FieldValue.compareTo(o2FieldValue);
            } catch (NoSuchFieldException e) {
                throw new IllegalStateException("Field doesn't exist", e);
            } catch (IllegalAccessException e) {
                throw new IllegalStateException("Field inaccessible", e);
            }
        }
    }
}