I am looking for a datastructure in Java sorted by insertion which can quickly find and remove a specific element and count the number of elements added after this element.
LinkedHashSet theoretically fulfills this requirement, but the interface does not give any methods to for example create an Iterator starting at a specified element. I would always have to iterate through the whole set.
Thanks for any suggestion.
edit: OK, my simplistic implementation of (not really) LinkedHashSet for exactly my and only my use case currently is the following, just in case anyone is interested. This could be changed to include the possibility of actually iterating through the elements and not just to be able to count the amount of elements. Might need some refactoring, too...
public class DoublyLinkedHashSet<T> {
private final Map<T, Entry> map;
private Entry youngestEntry;
public DoublyLinkedHashSet() {
this.map = new HashMap<T, Entry>();
}
public int size() {
return map.size();
}
public boolean contains(final T element) {
return map.containsKey(element);
}
public void add(final T element) {
final Entry newEntry = new Entry();
final Entry entryForElement = map.put(element, newEntry);
boolean entryWasNotAlreadyInSet = entryForElement == null;
if (entryWasNotAlreadyInSet) {
newEntry.previousEntry = youngestEntry;
if (youngestEntry != null) {
youngestEntry.hasNext = true;
youngestEntry.nextEntry = newEntry;
}
}
youngestEntry = newEntry;
}
public void remove(final T element) {
removeEntry(element);
}
public int removeAndGetAmountOfEntriesAfter(final T element) {
Entry startEntry = removeEntry(element);
if (startEntry == null) {
return 0;
}
return countAllNextEntries(startEntry);
}
private int countAllNextEntries(final Entry startEntry) {
int amount = 0;
Entry currentEntry = startEntry;
while (currentEntry.hasNext) {
amount++;
currentEntry = currentEntry.nextEntry;
}
return amount;
}
private Entry removeEntry(final T element) {
final Entry removedEntry = map.remove(element);
if (removedEntry == null) {
return null;
}
if (hasPreviousAndNextEntry(removedEntry)) {
final Entry previousEntry = removedEntry.previousEntry;
final Entry nextEntry = removedEntry.previousEntry;
connect(previousEntry, nextEntry);
} else if (isEndOfList(removedEntry)) {
final Entry previousEntry = removedEntry.previousEntry;
resetEndTo(previousEntry);
} else if (isHead(removedEntry)) {
final Entry nextEntry = removedEntry.nextEntry;
resetHeadTo(nextEntry);
}
return removedEntry;
}
private boolean hasPreviousAndNextEntry(final Entry entry) {
return entry.hasPrevious && entry.hasNext;
}
private void connect(final Entry previousEntry, final Entry nextEntry) {
previousEntry.nextEntry = nextEntry;
}
private boolean isHead(final Entry entry) {
return !entry.hasPrevious && entry.hasNext;
}
private void resetHeadTo(final Entry entry) {
entry.previousEntry = null;
entry.hasPrevious = false;
}
private boolean isEndOfList(final Entry removedEntry) {
return removedEntry.hasPrevious && !removedEntry.hasNext;
}
private void resetEndTo(final Entry entry) {
entry.nextEntry = null;
entry.hasNext = false;
youngestEntry = entry;
}
private static final class Entry {
private boolean hasNext;
private boolean hasPrevious;
private Entry nextEntry;
private Entry previousEntry;
}
}