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/*
 * Copyright (C) 2008-2009, Google Inc.
 * Copyright (C) 2008, Shawn O. Pearce 
 * and other copyright owners as documented in the project's IP log.
 *
 * This program and the accompanying materials are made available
 * under the terms of the Eclipse Distribution License v1.0 which
 * accompanies this distribution, is reproduced below, and is
 * available at http://www.eclipse.org/org/documents/edl-v10.php
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 * All rights reserved.
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 * without modification, are permitted provided that the following
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package org.eclipse.jgit.dircache;

import java.io.IOException;

import org.eclipse.jgit.errors.IncorrectObjectTypeException;
import org.eclipse.jgit.lib.Constants;
import org.eclipse.jgit.lib.FileMode;
import org.eclipse.jgit.lib.ObjectReader;
import org.eclipse.jgit.treewalk.AbstractTreeIterator;
import org.eclipse.jgit.treewalk.EmptyTreeIterator;

/**
 * Iterate a {@link DirCache} as part of a TreeWalk.
 * 

* This is an iterator to adapt a loaded DirCache instance (such as * read from an existing .git/index file) to the tree structure * used by a TreeWalk, making it possible for applications to walk * over any combination of tree objects already in the object database, index * files, or working directories. * * @see org.eclipse.jgit.treewalk.TreeWalk */ public class DirCacheIterator extends AbstractTreeIterator { /** The cache this iterator was created to walk. */ protected final DirCache cache; /** The tree this iterator is walking. */ private final DirCacheTree tree; /** First position in this tree. */ private final int treeStart; /** Last position in this tree. */ private final int treeEnd; /** Special buffer to hold the ObjectId of {@link #currentSubtree}. */ private final byte[] subtreeId; /** Index of entry within {@link #cache}. */ protected int ptr; /** Next subtree to consider within {@link #tree}. */ private int nextSubtreePos; /** The current file entry from {@link #cache}. */ protected DirCacheEntry currentEntry; /** The subtree containing {@link #currentEntry} if this is first entry. */ protected DirCacheTree currentSubtree; /** * Create a new iterator for an already loaded DirCache instance. *

* The iterator implementation may copy part of the cache's data during * construction, so the cache must be read in prior to creating the * iterator. * * @param dc * the cache to walk. It must be already loaded into memory. */ public DirCacheIterator(final DirCache dc) { cache = dc; tree = dc.getCacheTree(true); treeStart = 0; treeEnd = tree.getEntrySpan(); subtreeId = new byte[Constants.OBJECT_ID_LENGTH]; if (!eof()) parseEntry(); } DirCacheIterator(final DirCacheIterator p, final DirCacheTree dct) { super(p, p.path, p.pathLen + 1); cache = p.cache; tree = dct; treeStart = p.ptr; treeEnd = treeStart + tree.getEntrySpan(); subtreeId = p.subtreeId; ptr = p.ptr; parseEntry(); } @Override public AbstractTreeIterator createSubtreeIterator(final ObjectReader reader) throws IncorrectObjectTypeException, IOException { if (currentSubtree == null) throw new IncorrectObjectTypeException(getEntryObjectId(), Constants.TYPE_TREE); return new DirCacheIterator(this, currentSubtree); } @Override public EmptyTreeIterator createEmptyTreeIterator() { final byte[] n = new byte[Math.max(pathLen + 1, DEFAULT_PATH_SIZE)]; System.arraycopy(path, 0, n, 0, pathLen); n[pathLen] = '/'; return new EmptyTreeIterator(this, n, pathLen + 1); } @Override public boolean hasId() { if (currentSubtree != null) return currentSubtree.isValid(); return currentEntry != null; } @Override public byte[] idBuffer() { if (currentSubtree != null) return currentSubtree.isValid() ? subtreeId : zeroid; if (currentEntry != null) return currentEntry.idBuffer(); return zeroid; } @Override public int idOffset() { if (currentSubtree != null) return 0; if (currentEntry != null) return currentEntry.idOffset(); return 0; } @Override public void reset() { if (!first()) { ptr = treeStart; nextSubtreePos = 0; currentEntry = null; currentSubtree = null; if (!eof()) parseEntry(); } } @Override public boolean first() { return ptr == treeStart; } @Override public boolean eof() { return ptr == treeEnd; } @Override public void next(int delta) { while (--delta >= 0) { if (currentSubtree != null) ptr += currentSubtree.getEntrySpan(); else ptr++; if (eof()) break; parseEntry(); } } @Override public void back(int delta) { while (--delta >= 0) { if (currentSubtree != null) nextSubtreePos--; ptr--; parseEntry(false); if (currentSubtree != null) ptr -= currentSubtree.getEntrySpan() - 1; } } private void parseEntry() { parseEntry(true); } private void parseEntry(boolean forward) { currentEntry = cache.getEntry(ptr); final byte[] cep = currentEntry.path; if (!forward) { if (nextSubtreePos > 0) { final DirCacheTree p = tree.getChild(nextSubtreePos - 1); if (p.contains(cep, pathOffset, cep.length)) { nextSubtreePos--; currentSubtree = p; } } } if (nextSubtreePos != tree.getChildCount()) { final DirCacheTree s = tree.getChild(nextSubtreePos); if (s.contains(cep, pathOffset, cep.length)) { // The current position is the first file of this subtree. // Use the subtree instead as the current position. // currentSubtree = s; nextSubtreePos++; if (s.isValid()) s.getObjectId().copyRawTo(subtreeId, 0); mode = FileMode.TREE.getBits(); path = cep; pathLen = pathOffset + s.nameLength(); return; } } // The current position is a file/symlink/gitlink so we // do not have a subtree located here. // mode = currentEntry.getRawMode(); path = cep; pathLen = cep.length; currentSubtree = null; } /** * Get the DirCacheEntry for the current file. * * @return the current cache entry, if this iterator is positioned on a * non-tree. */ public DirCacheEntry getDirCacheEntry() { return currentSubtree == null ? currentEntry : null; } }





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