Originally, this answer neglected the fact that a TreeSet
does its comparisons based on compareTo()
, rather than equals()
. Edits have been made to address this.
You need to define equals()
, hashCode()
and compareTo()
for your Player
object correctly. (Since it's a TreeSet
and not a HashSet
, implementing hashCode()
isn't so important - but it's good practice.)
Equals and hashCode need to take into account all of the fields. Eclipse can auto-generate one for you that will look similar to this (Source > Generate hashcode and equals).
If you already have a natural sort order that doesn't use all of the fields, then you could supply a custom comparator to your TreeSet
. However, even if you really only want to sort by a subset of the fields, there's nothing stopping you sorting by all fields (with the uninteresting fields only playing a part of the interesting parts are identical). The important thing to note here is that a TreeSet
determines equality not by the equals()
method, but by compareTo() == 0
.
Here's an example equals():
@Override
public boolean equals(Object obj)
{
if (this == obj) {
return true;
}
if (obj == null) {
return false;
}
if (getClass() != obj.getClass()) {
return false;
}
Player that = (Player) obj;
return this.age == that.age &&
this.height == that.height &&
this.weight == that.weight &&
this.games == that.games &&
this.runs == that.runs &&
this.dismisses == that.dismisses &&
this.given.equals(that.given) &&
this.family.equals(that.family);
}
And here's hashcode:
@Override
public int hashCode() {
final int prime = 31;
int result = 1;
result = prime * result + this.age;
result = prime * result + this.dismisses;
result = prime * result + this.family.hashCode());
result = prime * result + this.games;
result = prime * result + this.given.hashCode());
result = prime * result + this.height;
result = prime * result + this.runs;
result = prime * result + this.weight;
return result;
}
Finally, here's a compareTo:
public int compareTo(Player that)
{
int result;
result = this.family.compareTo(that.family);
if (result != 0) // is the family name different?
{
return result; // yes ... use it to discriminate
}
result = this.given.compareTo(that.given);
if (result != 0) // is the given name different?
{
return result; // yes ... use it to discriminate
}
result = this.age - that.age; // is the age different?
if (result != 0)
{
return result; // yes ... use it to discriminate
}
... (and so on) ...
... with the final one ...
return this.dismisses - that.dismisses; // only thing left to discriminate by
}