Mercurial > hg4j
view src/org/tmatesoft/hg/repo/HgParentChildMap.java @ 485:cdd53e5884ae
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author | Artem Tikhomirov <tikhomirov.artem@gmail.com> |
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date | Thu, 09 Aug 2012 15:45:18 +0200 |
parents | be697c3e951e |
children | 6526d8adbc0f |
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/* * Copyright (c) 2011-2012 TMate Software Ltd * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * For information on how to redistribute this software under * the terms of a license other than GNU General Public License * contact TMate Software at support@hg4j.com */ package org.tmatesoft.hg.repo; import static org.tmatesoft.hg.repo.HgRepository.TIP; import java.util.Arrays; import java.util.Collection; import java.util.HashSet; import java.util.LinkedList; import java.util.List; import org.tmatesoft.hg.core.Nodeid; import org.tmatesoft.hg.repo.Revlog.ParentInspector; /** * Helper class to deal with parent-child relationship between revisions <i>en masse</i>. * Works in terms of {@link Nodeid nodeids}, there's no need to deal with revision indexes. * For a given revision, answers questions like "who's my parent and what are my immediate children". * * <p>Comes handy when multiple revisions are analyzed and distinct {@link Revlog#parents(int, int[], byte[], byte[])} * queries are ineffective. * * <p>Next code snippet shows typical use: * <pre> * HgChangelog clog = repo.getChangelog(); * ParentWalker<HgChangelog> pw = new ParentWalker<HgChangelog>(clog); * pw.init(); * * Nodeid me = Nodeid.fromAscii("..."); * List<Nodei> immediateChildren = pw.directChildren(me); * </pre> * * * <p> Perhaps, later may add alternative way to access (and reuse) map instance, Revlog#getParentWalker(), * that instantiates and initializes ParentWalker, and keep SoftReference to allow its reuse. * * @see HgRevisionMap * * @author Artem Tikhomirov * @author TMate Software Ltd. */ public final class HgParentChildMap<T extends Revlog> implements ParentInspector { private Nodeid[] sequential; // natural repository order, childrenOf rely on ordering private Nodeid[] sorted; // for binary search private int[] sorted2natural; private Nodeid[] firstParent; private Nodeid[] secondParent; private final T revlog; // Nodeid instances shall be shared between all arrays public HgParentChildMap(T owner) { revlog = owner; } public HgRepository getRepo() { return revlog.getRepo(); } public void next(int revisionNumber, Nodeid revision, int parent1Revision, int parent2Revision, Nodeid nidParent1, Nodeid nidParent2) { if (parent1Revision >= revisionNumber || parent2Revision >= revisionNumber) { throw new IllegalStateException(); // sanity, revisions are sequential } int ix = revisionNumber; sequential[ix] = sorted[ix] = revision; if (parent1Revision != -1) { firstParent[ix] = sequential[parent1Revision]; } if (parent2Revision != -1) { // revlog of DataAccess.java has p2 set when p1 is -1 secondParent[ix] = sequential[parent2Revision]; } } public void init() throws HgInvalidControlFileException { final int revisionCount = revlog.getRevisionCount(); firstParent = new Nodeid[revisionCount]; // TODO [post 1.0] Branches/merges are less frequent, and most of secondParent would be -1/null, hence // IntMap might be better alternative here, but need to carefully analyze (test) whether this brings // real improvement (IntMap has 2n capacity, and element lookup is log(n) instead of array's constant) secondParent = new Nodeid[revisionCount]; // sequential = new Nodeid[revisionCount]; sorted = new Nodeid[revisionCount]; revlog.indexWalk(0, TIP, this); Arrays.sort(sorted); sorted2natural = new int[revisionCount]; for (int i = 0; i < revisionCount; i++) { Nodeid n = sequential[i]; int x = Arrays.binarySearch(sorted, n); assertSortedIndex(x); sorted2natural[x] = i; } } private void assertSortedIndex(int x) { if (x < 0) { throw new HgInvalidStateException(String.format("Bad index", x)); } } /** * Tells whether supplied revision is from the walker's associated revlog. * Note, {@link Nodeid#NULL}, although implicitly present as parent of a first revision, is not recognized as known. * @param nid revision to check, not <code>null</code> * @return <code>true</code> if revision matches any revision in this revlog */ public boolean knownNode(Nodeid nid) { return Arrays.binarySearch(sorted, nid) >= 0; } /** * null if none. only known nodes (as per #knownNode) are accepted as arguments */ public Nodeid firstParent(Nodeid nid) { int x = Arrays.binarySearch(sorted, nid); assertSortedIndex(x); int i = sorted2natural[x]; return firstParent[i]; } // never null, Nodeid.NULL if none known public Nodeid safeFirstParent(Nodeid nid) { Nodeid rv = firstParent(nid); return rv == null ? Nodeid.NULL : rv; } public Nodeid secondParent(Nodeid nid) { int x = Arrays.binarySearch(sorted, nid); assertSortedIndex(x); int i = sorted2natural[x]; return secondParent[i]; } public Nodeid safeSecondParent(Nodeid nid) { Nodeid rv = secondParent(nid); return rv == null ? Nodeid.NULL : rv; } public boolean appendParentsOf(Nodeid nid, Collection<Nodeid> c) { int x = Arrays.binarySearch(sorted, nid); assertSortedIndex(x); int i = sorted2natural[x]; Nodeid p1 = firstParent[i]; boolean modified = false; if (p1 != null) { modified = c.add(p1); } Nodeid p2 = secondParent[i]; if (p2 != null) { modified = c.add(p2) || modified; } return modified; } // XXX alternative (and perhaps more reliable) approach would be to make a copy of allNodes and remove // nodes, their parents and so on. // @return ordered collection of all children rooted at supplied nodes. Nodes shall not be descendants of each other! // Nodeids shall belong to this revlog public List<Nodeid> childrenOf(List<Nodeid> roots) { HashSet<Nodeid> parents = new HashSet<Nodeid>(); LinkedList<Nodeid> result = new LinkedList<Nodeid>(); int earliestRevision = Integer.MAX_VALUE; assert sequential.length == firstParent.length && firstParent.length == secondParent.length; // first, find earliest index of roots in question, as there's no sense // to check children among nodes prior to branch's root node for (Nodeid r : roots) { int x = Arrays.binarySearch(sorted, r); assertSortedIndex(x); int i = sorted2natural[x]; if (i < earliestRevision) { earliestRevision = i; } parents.add(sequential[i]); // add canonical instance in hope equals() is bit faster when can do a == } for (int i = earliestRevision + 1; i < sequential.length; i++) { if (parents.contains(firstParent[i]) || parents.contains(secondParent[i])) { parents.add(sequential[i]); // to find next child result.add(sequential[i]); } } return result; } /** * @return revisions that have supplied revision as their immediate parent */ public List<Nodeid> directChildren(Nodeid nid) { LinkedList<Nodeid> result = new LinkedList<Nodeid>(); int x = Arrays.binarySearch(sorted, nid); assertSortedIndex(x); nid = sorted[x]; // canonical instance int start = sorted2natural[x]; for (int i = start + 1; i < sequential.length; i++) { if (nid == firstParent[i] || nid == secondParent[i]) { result.add(sequential[i]); } } return result; } /** * @param nid possibly parent node, shall be {@link #knownNode(Nodeid) known} in this revlog. * @return <code>true</code> if there's any node in this revlog that has specified node as one of its parents. */ public boolean hasChildren(Nodeid nid) { int x = Arrays.binarySearch(sorted, nid); assertSortedIndex(x); int i = sorted2natural[x]; assert firstParent.length == secondParent.length; // just in case later I implement sparse array for secondParent assert firstParent.length == sequential.length; // to use == instead of equals, take the same Nodeid instance we used to fill all the arrays. final Nodeid canonicalNode = sequential[i]; i++; // no need to check node itself. child nodes may appear in sequential only after revision in question for (; i < sequential.length; i++) { // TODO [post 1.0] likely, not very effective. // May want to optimize it with another (Tree|Hash)Set, created on demand on first use, // however, need to be careful with memory usage if (firstParent[i] == canonicalNode || secondParent[i] == canonicalNode) { return true; } } return false; } }