Menu
I want to do a specific sort. I am using java's comparable interface which means the return of my compare method must return -1 +1 or 0 depending on the equality of the two compared, then I am sorting using Collections. My trouble comes from how I wish to compare.
I have a key that is made up of either of the following
[keyName]
[siteName].[keyName]
[siteName].[pageName].[keyName]
so as an example "mysite.alampshade.color"
the tricky part is the sites must be sorted first, followed by keyname, followed by pageName. but firstly by the keynames, then site name, in the order of the number of sections to the property. Sorry. its a little complicated, an example may help. here is the order they must be:
alpha
beta
charlie
sitea.alpha
sitea.charlie
sitea.pagea.beta
sitea.pageb.beta
sitea.pagea.charlie
siteb.alpha
siteb.delta
siteb.pagef.alpha
siteb.pageb.echo
siteb.pageb.golf
siteb.pagea.hotel
siteb.pageb.hotel
siteb.pagec.hotel
I have tried many different ways and have thrown away code a few times but still cant get it perfect. some pseudocode would be of great help if not some java.
EDIT: to add another possibly simplier to understand example the following is sorted how I need it
a
b
c
z
a.b
a.c
a.d
a.z
a.b.a
a.c.a
a.b.b
a.b.c
a.c.c
a.a.d
b.a
b.b
b.z
b.a.a
b.b.a
b.a.b
c.c.f
467
Another option, making it recursive you avoid the problem if there is ever more entries.
import java.util.ArrayList; import java.util.Arrays; import java.util.Comparator; import java.util.List;
public class SortTest {
public static void main(String[] args) {
String[] test = new String[]{
"a",
"b",
"b.a",
"b.a.a",
"a.a.a",
"a.b.a",
"a.a",
"a.b",
"b.a.b",
"b.b.a"
};
Arrays.sort(test, new Comparator<String>() {
int compareComplexList(List<String> a, List<String> b, List<int[]> positions, int order ) {
int minimum = a.size() < b.size() ? a.size() - 1 : b.size() - 1;
if (a.get(positions.get(minimum)[order]).compareTo(b.get(positions.get(minimum)[order])) != 0)
return a.get(positions.get(minimum)[order]).compareTo(b.get(positions.get(minimum)[order]));
else if (order < minimum - 1) return compareComplexList(a,b, positions, ++order);
else return Double.compare(a.size(),b.size());
}
public int compare(String a, String b) {
List<String> partsA = Arrays.asList(a.split("\\."));
List<String> partsB = Arrays.asList(b.split("\\."));
List<int[]> orders = new ArrayList<int[]>();
orders.add(new int[] {0});
orders.add(new int[] {0,1});
orders.add(new int[] {0,2,1});
return compareComplexList(partsA, partsB, orders,0);
}
});
System.out.println("Sorted: "+Arrays.toString(test));
}
}
Should be good now.
public int compare(String a, String b) {
String[] partsA = a.split("\\.");
String[] partsB = b.split("\\.");
// If first term is different, we exit.
if (partsA[0].compareTo(partsB[0]) != 0) return partsA[0].compareTo(partsB[0]);
// Else, first term is identical.
else {
// Same number of parts
if (partsA.length == partsB.length) {
// 2 parts, we compare the 2nd part.
if (partsA.length == 2) {
return partsA[1].compareTo(partsB[1]);
// 3 parts, we compare the 3rd part first, then the 2nd part
} else {
if (partsA[2].compareTo(partsB[2]) != 0) return partsA[2].compareTo(partsB[2]);
return partsA[1].compareTo(partsB[1]);
}
// Different number of parts
} else {
// If A has only 1 part, it's first
if (partsA.length == 1) return -1;
// If B has only 1 part, it's first
if (partsB.length == 1) return 1;
// Case 2 vs 3 parts, we compare the 3rd part with the 2nd part of the other. If it's equal, the shorter is first.
if (partsA.length == 3) {
if (partsA[2].compareTo(partsB[1]) != 0) return partsA[2].compareTo(partsB[1]);
else return 1;
} else {
if (partsA[1].compareTo(partsB[2]) != 0) return partsA[1].compareTo(partsB[2]);
else return -1;
}
}
}
}
If you love us? You can donate to us via Paypal or buy me a coffee so we can maintain and grow! Thank you!
Donate Us With
