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/**
 * Copyright (C) 2015, 2016 Dirk Lemmermann Software & Consulting (dlsc.com)
 * 

* This file is part of CalendarFX. */ // Copyright (C) 2006 Google Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package com.google.ical.iter; import com.google.ical.values.DateValue; import java.util.Collection; import java.util.Comparator; import java.util.NoSuchElementException; import java.util.PriorityQueue; /** * a recurrence iterator that combines others. Some may be inclusions, and * some may be exclusions. * * @author [email protected] (Mike Samuel) */ final class CompoundIteratorImpl implements RecurrenceIterator { /** a queue that keeps the earliest dates at the head */ private PriorityQueue queue; private HeapElement pending; /** * the number of inclusions on queue. We keep track of this so that we * don't have to drain the exclusions to conclude that the series is * exhausted. */ private int nInclusionsRemaining; /** * A generator that will generate only dates that are generated by inclusions * and will not generate any dates that are generated by exclusions -- i.e. * exclusions trump inclusions. * @param inclusions iterators whose elements should be included unless * explicitly excluded. non null without null elements. * @param exclusions iterators whose elements should not be included. * non null without null elements. */ CompoundIteratorImpl( Collection inclusions, Collection exclusions) { queue = new PriorityQueue( inclusions.size() + exclusions.size(), HeapElement.CMP); for (RecurrenceIterator it : inclusions) { HeapElement el = new HeapElement(true, it); if (el.shift()) { queue.add(el); ++nInclusionsRemaining; } } for (RecurrenceIterator it : exclusions) { HeapElement el = new HeapElement(false, it); if (el.shift()) { queue.add(el); } } } public boolean hasNext() { requirePending(); return null != pending; } public DateValue next() { requirePending(); if (null == pending) { throw new NoSuchElementException(); } DateValue head = pending.head(); reattach(pending); pending = null; return head; } public void remove() { throw new UnsupportedOperationException(); } public void advanceTo(DateValue newStart) { long newStartCmp = DateValueComparison.comparable(newStart); if (null != pending) { if (pending.comparable() >= newStartCmp) { return; } pending.advanceTo(newStart); reattach(pending); pending = null; } // Pull each element off the stack in turn, and advance it. // Once we reach one we don't need to advance, we're done while (0 != nInclusionsRemaining && !queue.isEmpty() && queue.peek().comparable() < newStartCmp) { HeapElement el = queue.poll(); el.advanceTo(newStart); reattach(el); } } /** * if the given element's iterator has more data, then push back onto the * heap. */ private void reattach(HeapElement el) { if (el.shift()) { queue.add(el); } else if (el.inclusion) { // if we have no live inclusions, then the rest are exclusions which we // can safely discard. if (0 == --nInclusionsRemaining) { queue.clear(); } } } /** * make sure that pending contains the next inclusive HeapElement that doesn't * match any exclusion, and remove any dupes of it. */ private void requirePending() { if (null != pending) { return; } long exclusionComparable = Long.MIN_VALUE; while (0 != nInclusionsRemaining && !queue.isEmpty()) { // find a candidate that is not excluded HeapElement inclusion = null; do { HeapElement candidate = queue.poll(); if (candidate.inclusion) { if (exclusionComparable != candidate.comparable()) { inclusion = candidate; break; } } else { exclusionComparable = candidate.comparable(); } reattach(candidate); if (0 == nInclusionsRemaining) { return; } } while (!queue.isEmpty()); if (inclusion == null) { return; } long inclusionComparable = inclusion.comparable(); // Check for any following exclusions and for duplicates. // We could change the sort order so that exclusions always preceded // inclusions, but that would be less efficient and would make the // ordering different than the comparable value. boolean excluded = exclusionComparable == inclusionComparable; while (!queue.isEmpty() && queue.peek().comparable() == inclusionComparable) { HeapElement match = queue.poll(); excluded |= !match.inclusion; reattach(match); if (0 == nInclusionsRemaining) { return; } } if (!excluded) { pending = inclusion; return; } else { reattach(inclusion); } } } } final class HeapElement { /** * should iterators items be included in the series or should they * nullify any matched items included by other series. */ final boolean inclusion; /** the {@link DateValueComparison#comparable} for {@link #head}. */ private long comparable; /** the last value removed from it. In utc. */ private DateValue head; private RecurrenceIterator it; HeapElement(boolean inclusion, RecurrenceIterator it) { this.inclusion = inclusion; this.it = it; } /** the last value removed from the iterator. */ DateValue head() { return head; } /** * A given HeapElement may be compared to many others as it bubbles towards * the heap's root, so we cache this for each HeapElement. */ long comparable() { return comparable; } /** * discard the current, and return true iff there is another head to * replace it. */ boolean shift() { if (!it.hasNext()) { return false; } head = it.next(); comparable = DateValueComparison.comparable(head); return true; } /** * advance the underlying iterator to the given date value a la * {@link RecurrenceIterator#advanceTo}. */ void advanceTo(DateValue dvUtc) { it.advanceTo(dvUtc); } @Override public String toString() { return "[" + head.toString() + (inclusion ? ", inclusion]" : ", exclusion]"); } /** compares to heap elements by comparing their heads. */ static Comparator CMP = new Comparator() { public int compare(HeapElement a, HeapElement b) { long ac = a.comparable(), bc = b.comparable(); return ac < bc ? -1 : ac == bc ? 0 : 1; } }; }





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