Mercurial > hg4j
view src/org/tmatesoft/hg/internal/RevlogStream.java @ 587:a52f4cc56f9c
Minimize vectors re-allocating when merging patches
author | Artem Tikhomirov <tikhomirov.artem@gmail.com> |
---|---|
date | Fri, 26 Apr 2013 20:04:17 +0200 |
parents | b47ef0d2777b |
children | 9619301a7bb9 |
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/* * Copyright (c) 2010-2013 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.internal; import static org.tmatesoft.hg.repo.HgRepository.BAD_REVISION; import static org.tmatesoft.hg.repo.HgRepository.TIP; import static org.tmatesoft.hg.internal.Internals.REVLOGV1_RECORD_SIZE; import java.io.File; import java.io.IOException; import java.util.zip.Inflater; import org.tmatesoft.hg.core.Nodeid; import org.tmatesoft.hg.repo.HgInternals; import org.tmatesoft.hg.repo.HgInvalidControlFileException; import org.tmatesoft.hg.repo.HgInvalidRevisionException; import org.tmatesoft.hg.repo.HgInvalidStateException; import org.tmatesoft.hg.repo.HgRepository; import org.tmatesoft.hg.util.Adaptable; /** * ? Single RevlogStream per file per repository with accessor to record access session (e.g. with back/forward operations), * or numerous RevlogStream with separate representation of the underlying data (cached, lazy ChunkStream)? * * @see http://mercurial.selenic.com/wiki/Revlog * @see http://mercurial.selenic.com/wiki/RevlogNG * * @author Artem Tikhomirov * @author TMate Software Ltd. */ public class RevlogStream { /* * makes sense for index with inline data only - actual offset of the record in the .i file (record entry + revision * record size)) * * long[] in fact (there are 8-bytes field in the revlog) * However, (a) DataAccess currently doesn't operate with long seek/length * and, of greater significance, (b) files with inlined data are designated for smaller files, * guess, about 130 Kb, and offset there won't ever break int capacity */ private int[] indexRecordOffset; private int[] baseRevisions; private boolean inline = false; private final File indexFile; private File dataFile; private final DataAccessProvider dataAccess; // if we need anything else from HgRepo, might replace DAP parameter with HgRepo and query it for DAP. public RevlogStream(DataAccessProvider dap, File indexFile) { this.dataAccess = dap; this.indexFile = indexFile; } /*package*/ DataAccess getIndexStream() { // FIXME [1.1] must supply a hint that I'll need really few bytes of data (perhaps, at some offset) // to avoid mmap files when only few bytes are to be read (i.e. #dataLength()) return dataAccess.createReader(indexFile); } /*package*/ DataAccess getDataStream() { return dataAccess.createReader(getDataFile()); } /*package*/ DataSerializer getIndexStreamWriter() { return dataAccess.createWriter(indexFile, true); } /*package*/ DataSerializer getDataStreamWriter() { return dataAccess.createWriter(getDataFile(), true); } /** * Constructs file object that corresponds to .d revlog counterpart. * Note, it's caller responsibility to ensure this file makes any sense (i.e. check {@link #inline} attribute) */ private File getDataFile() { if (dataFile == null) { final String indexName = indexFile.getName(); dataFile = new File(indexFile.getParentFile(), indexName.substring(0, indexName.length() - 1) + "d"); } return dataFile; } // initialize exception with the file where revlog structure information comes from public HgInvalidControlFileException initWithIndexFile(HgInvalidControlFileException ex) { return ex.setFile(indexFile); } // initialize exception with the file where revlog data comes from public HgInvalidControlFileException initWithDataFile(HgInvalidControlFileException ex) { // exceptions are usually raised after read attepmt, hence inline shall be initialized // although honest approach is to call #initOutline() first return ex.setFile(inline ? indexFile : getDataFile()); } /*package-private*/String getDataFileName() { // XXX a temporary solution to provide more info to fill in exceptions other than // HgInvalidControlFileException (those benefit from initWith* methods above) // // Besides, since RevlogStream represents both revlogs with user data (those with WC representative and // system data under store/data) and system-only revlogs (like changelog and manifest), there's no // easy way to supply human-friendly name of the active file (independent from whether it's index of data) return inline ? indexFile.getPath() : getDataFile().getPath(); } public boolean isInlineData() { initOutline(); return inline; } public int revisionCount() { initOutline(); return baseRevisions.length; } /** * @throws HgInvalidControlFileException if attempt to read index file failed * @throws HgInvalidRevisionException if revisionIndex argument doesn't represent a valid record in the revlog */ public int dataLength(int revisionIndex) throws HgInvalidControlFileException, HgInvalidRevisionException { // XXX in fact, use of iterate() instead of this implementation may be quite reasonable. // revisionIndex = checkRevisionIndex(revisionIndex); DataAccess daIndex = getIndexStream(); try { int recordOffset = getIndexOffsetInt(revisionIndex); daIndex.seek(recordOffset + 12); // 6+2+4 int actualLen = daIndex.readInt(); return actualLen; } catch (IOException ex) { throw new HgInvalidControlFileException(null, ex, indexFile).setRevisionIndex(revisionIndex); } finally { daIndex.done(); } } /** * Read nodeid at given index * * @throws HgInvalidControlFileException if attempt to read index file failed * @throws HgInvalidRevisionException if revisionIndex argument doesn't represent a valid record in the revlog */ public byte[] nodeid(int revisionIndex) throws HgInvalidControlFileException, HgInvalidRevisionException { revisionIndex = checkRevisionIndex(revisionIndex); DataAccess daIndex = getIndexStream(); try { int recordOffset = getIndexOffsetInt(revisionIndex); daIndex.seek(recordOffset + 32); byte[] rv = new byte[20]; daIndex.readBytes(rv, 0, 20); return rv; } catch (IOException ex) { throw new HgInvalidControlFileException("Revision lookup failed", ex, indexFile).setRevisionIndex(revisionIndex); } finally { daIndex.done(); } } /** * Get link field from the index record. * * @throws HgInvalidControlFileException if attempt to read index file failed * @throws HgInvalidRevisionException if revisionIndex argument doesn't represent a valid record in the revlog */ public int linkRevision(int revisionIndex) throws HgInvalidControlFileException, HgInvalidRevisionException { revisionIndex = checkRevisionIndex(revisionIndex); DataAccess daIndex = getIndexStream(); try { int recordOffset = getIndexOffsetInt(revisionIndex); daIndex.seek(recordOffset + 20); int linkRev = daIndex.readInt(); return linkRev; } catch (IOException ex) { throw new HgInvalidControlFileException("Linked revision lookup failed", ex, indexFile).setRevisionIndex(revisionIndex); } finally { daIndex.done(); } } /** * Extract base revision field from the revlog * * @throws HgInvalidControlFileException if attempt to read index file failed * @throws HgInvalidRevisionException if revisionIndex argument doesn't represent a valid record in the revlog */ public int baseRevision(int revisionIndex) throws HgInvalidControlFileException, HgInvalidRevisionException { initOutline(); revisionIndex = checkRevisionIndex(revisionIndex); return getBaseRevision(revisionIndex); } // Perhaps, RevlogStream should be limited to use of plain int revisions for access, // while Nodeids should be kept on the level up, in Revlog. Guess, Revlog better keep // map of nodeids, and once this comes true, we may get rid of this method. // Unlike its counterpart, {@link Revlog#getLocalRevisionNumber()}, doesn't fail with exception if node not found, /** * @return integer in [0..revisionCount()) or {@link HgRepository#BAD_REVISION} if not found * @throws HgInvalidControlFileException if attempt to read index file failed */ public int findRevisionIndex(Nodeid nodeid) throws HgInvalidControlFileException { // XXX this one may be implemented with iterate() once there's mechanism to stop iterations final int indexSize = revisionCount(); DataAccess daIndex = getIndexStream(); try { byte[] nodeidBuf = new byte[20]; for (int i = 0; i < indexSize; i++) { daIndex.skip(8); int compressedLen = daIndex.readInt(); daIndex.skip(20); daIndex.readBytes(nodeidBuf, 0, 20); if (nodeid.equalsTo(nodeidBuf)) { return i; } daIndex.skip(inline ? 12 + compressedLen : 12); } } catch (IOException ex) { throw new HgInvalidControlFileException("Revision lookup failed", ex, indexFile).setRevision(nodeid); } finally { daIndex.done(); } return BAD_REVISION; } /** * @return value suitable for the corresponding field in the new revision's header, not physical offset in the file * (which is different in case of inline revlogs) */ public long newEntryOffset() { if (revisionCount() == 0) { return 0; } DataAccess daIndex = getIndexStream(); int lastRev = revisionCount() - 1; try { int recordOffset = getIndexOffsetInt(lastRev); daIndex.seek(recordOffset); long value = daIndex.readLong(); value = value >>> 16; int compressedLen = daIndex.readInt(); return lastRev == 0 ? compressedLen : value + compressedLen; } catch (IOException ex) { throw new HgInvalidControlFileException("Linked revision lookup failed", ex, indexFile).setRevisionIndex(lastRev); } finally { daIndex.done(); } } // should be possible to use TIP, ALL, or -1, -2, -n notation of Hg // ? boolean needsNodeid public void iterate(int start, int end, boolean needData, Inspector inspector) throws HgInvalidRevisionException, HgInvalidControlFileException { initOutline(); final int indexSize = revisionCount(); if (indexSize == 0) { return; } if (end == TIP) { end = indexSize - 1; } if (start == TIP) { start = indexSize - 1; } HgInternals.checkRevlogRange(start, end, indexSize-1); // XXX may cache [start .. end] from index with a single read (pre-read) ReaderN1 r = new ReaderN1(needData, inspector, dataAccess.shallMergePatches()); try { r.start(end - start + 1); r.range(start, end); } catch (IOException ex) { throw new HgInvalidControlFileException(String.format("Failed reading [%d..%d]", start, end), ex, indexFile); } catch (HgInvalidControlFileException ex) { throw ex; } finally { r.finish(); } } /** * Effective alternative to {@link #iterate(int, int, boolean, Inspector) batch read}, when only few selected * revisions are of interest. * @param sortedRevisions revisions to walk, in ascending order. * @param needData whether inspector needs access to header only * @param inspector callback to process entries */ public void iterate(int[] sortedRevisions, boolean needData, Inspector inspector) throws HgInvalidRevisionException, HgInvalidControlFileException /*REVISIT - too general exception*/ { final int indexSize = revisionCount(); if (indexSize == 0 || sortedRevisions.length == 0) { return; } if (sortedRevisions[0] > indexSize) { throw new HgInvalidRevisionException(String.format("Can't iterate [%d, %d] in range [0..%d]", sortedRevisions[0], sortedRevisions[sortedRevisions.length - 1], indexSize), null, sortedRevisions[0]); } if (sortedRevisions[sortedRevisions.length - 1] > indexSize) { throw new HgInvalidRevisionException(String.format("Can't iterate [%d, %d] in range [0..%d]", sortedRevisions[0], sortedRevisions[sortedRevisions.length - 1], indexSize), null, sortedRevisions[sortedRevisions.length - 1]); } ReaderN1 r = new ReaderN1(needData, inspector, dataAccess.shallMergePatches()); try { r.start(sortedRevisions.length); for (int i = 0; i < sortedRevisions.length; ) { int x = i; i++; while (i < sortedRevisions.length) { if (sortedRevisions[i] == sortedRevisions[i-1] + 1) { i++; } else { break; } } // commitRevisions[x..i-1] are sequential if (!r.range(sortedRevisions[x], sortedRevisions[i-1])) { return; } } } catch (IOException ex) { final int c = sortedRevisions.length; throw new HgInvalidControlFileException(String.format("Failed reading %d revisions in [%d; %d]",c, sortedRevisions[0], sortedRevisions[c-1]), ex, indexFile); } catch (HgInvalidControlFileException ex) { // TODO post-1.0 fill HgRuntimeException with appropriate file (either index or data, depending on error source) throw ex; } finally { r.finish(); } } void revisionAdded(int revisionIndex, Nodeid revision, int baseRevisionIndex, long revisionOffset) throws HgInvalidControlFileException { if (!outlineCached()) { return; } if (baseRevisions.length != revisionIndex) { throw new HgInvalidControlFileException(String.format("New entry's index shall be %d, not %d", baseRevisions.length, revisionIndex), null, indexFile); } if (baseRevisionIndex < 0 || baseRevisionIndex > baseRevisions.length) { // baseRevisionIndex MAY be == to baseRevisions.length, it's when new revision is based on itself throw new HgInvalidControlFileException(String.format("Base revision index %d doesn't fit [0..%d] range", baseRevisionIndex, baseRevisions.length), null, indexFile); } assert revision != null; assert !revision.isNull(); int[] baseRevisionsCopy = new int[baseRevisions.length + 1]; System.arraycopy(baseRevisions, 0, baseRevisionsCopy, 0, baseRevisions.length); baseRevisionsCopy[baseRevisions.length] = baseRevisionIndex; baseRevisions = baseRevisionsCopy; if (inline && indexRecordOffset != null) { assert indexRecordOffset.length == revisionIndex; int[] indexRecordOffsetCopy = new int[indexRecordOffset.length + 1]; System.arraycopy(indexRecordOffset, 0, indexRecordOffsetCopy, 0, indexRecordOffset.length); indexRecordOffsetCopy[indexRecordOffset.length] = offsetFieldToInlineFileOffset(revisionOffset, revisionIndex); indexRecordOffset = indexRecordOffsetCopy; } } private int getBaseRevision(int revision) { return baseRevisions[revision]; } /** * @param revisionIndex shall be valid index, [0..baseRevisions.length-1]. * It's advised to use {@link #checkRevisionIndex(int)} to ensure argument is correct. * @return offset of the revision's record in the index (.i) stream */ private int getIndexOffsetInt(int revisionIndex) { return inline ? indexRecordOffset[revisionIndex] : revisionIndex * REVLOGV1_RECORD_SIZE; } private int checkRevisionIndex(int revisionIndex) throws HgInvalidRevisionException { final int last = revisionCount() - 1; if (revisionIndex == TIP) { revisionIndex = last; } if (revisionIndex < 0 || revisionIndex > last) { throw new HgInvalidRevisionException(revisionIndex).setRevisionIndex(revisionIndex, 0, last); } return revisionIndex; } private boolean outlineCached() { return baseRevisions != null && baseRevisions.length > 0; } // translate 6-byte offset field value to physical file offset for inline revlogs // DOESN'T MAKE SENSE if revlog with data is separate private static int offsetFieldToInlineFileOffset(long offset, int recordIndex) throws HgInvalidStateException { int o = Internals.ltoi(offset); if (o != offset) { // just in case, can't happen, ever, unless HG (or some other bad tool) produces index file // with inlined data of size greater than 2 Gb. throw new HgInvalidStateException("Data too big, offset didn't fit to sizeof(int)"); } return o + REVLOGV1_RECORD_SIZE * recordIndex; } private void initOutline() throws HgInvalidControlFileException { if (outlineCached()) { return; } DataAccess da = getIndexStream(); try { if (da.isEmpty()) { // do not fail with exception if stream is empty, it's likely intentional baseRevisions = new int[0]; // empty revlog, likely to be populated, indicate we start with a single file inline = true; return; } int versionField = da.readInt(); da.readInt(); // just to skip next 4 bytes of offset + flags final int INLINEDATA = 1 << 16; inline = (versionField & INLINEDATA) != 0; IntVector resBases, resOffsets = null; int entryCountGuess = Internals.ltoi(da.longLength() / REVLOGV1_RECORD_SIZE); if (inline) { entryCountGuess >>>= 2; // pure guess, assume useful data takes 3/4 of total space resOffsets = new IntVector(entryCountGuess, 5000); } resBases = new IntVector(entryCountGuess, 5000); long offset = 0; // first offset is always 0, thus Hg uses it for other purposes while(true) { int compressedLen = da.readInt(); // 8+4 = 12 bytes total read here @SuppressWarnings("unused") int actualLen = da.readInt(); int baseRevision = da.readInt(); // 12 + 8 = 20 bytes read here // int linkRevision = di.readInt(); // int parent1Revision = di.readInt(); // int parent2Revision = di.readInt(); // byte[] nodeid = new byte[32]; resBases.add(baseRevision); if (inline) { int o = offsetFieldToInlineFileOffset(offset, resOffsets.size()); resOffsets.add(o); da.skip(3*4 + 32 + compressedLen); // Check: 44 (skip) + 20 (read) = 64 (total RevlogNG record size) } else { da.skip(3*4 + 32); } if (da.isEmpty()) { // fine, done then baseRevisions = resBases.toArray(true); if (inline) { indexRecordOffset = resOffsets.toArray(true); } break; } else { // start reading next record long l = da.readLong(); offset = l >>> 16; } } } catch (IOException ex) { throw new HgInvalidControlFileException("Failed to analyze revlog index", ex, indexFile); } finally { da.done(); } } /** * operation with single file open/close and multiple diverse reads. * XXX initOutline might need similar extraction to keep N1 format knowledge */ final class ReaderN1 { private final Inspector inspector; private final boolean needData; private final boolean mergePatches; private DataAccess daIndex = null, daData = null; private Lifecycle.BasicCallback cb = null; private Lifecycle lifecycleListener = null; private int lastRevisionRead = BAD_REVISION; private DataAccess lastUserData; // // next are transient values, for range() use only private final Inflater inflater = new Inflater(); // can share buffer between instances of InflaterDataAccess as I never read any two of them in parallel private final byte[] inflaterBuffer = new byte[10 * 1024]; // TODO consider using DAP.DEFAULT_FILE_BUFFER private final byte[] nodeidBuf = new byte[20]; // revlog record fields private long offset; @SuppressWarnings("unused") private int flags; private int compressedLen; private int actualLen; private int baseRevision; private int linkRevision; private int parent1Revision; private int parent2Revision; // next are to track two major bottlenecks - patch application and actual time spent in inspector // private long applyTime, inspectorTime; // TIMING public ReaderN1(boolean dataRequested, Inspector insp, boolean usePatchMerge) { assert insp != null; needData = dataRequested; inspector = insp; mergePatches = usePatchMerge; } public void start(int totalWork) { daIndex = getIndexStream(); if (needData && !inline) { daData = getDataStream(); } lifecycleListener = Adaptable.Factory.getAdapter(inspector, Lifecycle.class, null); if (lifecycleListener != null) { cb = new Lifecycle.BasicCallback(); lifecycleListener.start(totalWork, cb, cb); } // applyTime = inspectorTime = 0; // TIMING } // invoked only once per instance public void finish() { if (lastUserData != null) { lastUserData.done(); lastUserData = null; } if (lifecycleListener != null) { lifecycleListener.finish(cb); lifecycleListener = null; cb = null; } daIndex.done(); if (daData != null) { daData.done(); daData = null; } // System.out.printf("applyTime:%d ms, inspectorTime: %d ms\n", applyTime, inspectorTime); // TIMING } private void readHeaderRecord(int i) throws IOException { if (inline && needData) { // inspector reading data (though FilterDataAccess) may have affected index position daIndex.seek(getIndexOffsetInt(i)); } long l = daIndex.readLong(); // 0 offset = i == 0 ? 0 : (l >>> 16); flags = (int) (l & 0x0FFFF); compressedLen = daIndex.readInt(); // +8 actualLen = daIndex.readInt(); // +12 baseRevision = daIndex.readInt(); // +16 linkRevision = daIndex.readInt(); // +20 parent1Revision = daIndex.readInt(); parent2Revision = daIndex.readInt(); // Hg has 32 bytes here, uses 20 for nodeid, and keeps 12 last bytes empty daIndex.readBytes(nodeidBuf, 0, 20); // +32 daIndex.skip(12); } private boolean isPatch(int i) { return baseRevision != i; // the only way I found to tell if it's a patch } private DataAccess getStoredData(int i) throws IOException { DataAccess userDataAccess = null; DataAccess streamDataAccess; long streamOffset; if (inline) { streamOffset = getIndexOffsetInt(i) + REVLOGV1_RECORD_SIZE; streamDataAccess = daIndex; // don't need to do seek as it's actual position in the index stream, but it's safe to seek, just in case daIndex.longSeek(streamOffset); } else { streamOffset = offset; streamDataAccess = daData; daData.longSeek(streamOffset); } if (streamDataAccess.isEmpty() || compressedLen == 0) { userDataAccess = new DataAccess(); // empty } else { final byte firstByte = streamDataAccess.readByte(); if (firstByte == 0x78 /* 'x' */) { inflater.reset(); userDataAccess = new InflaterDataAccess(streamDataAccess, streamOffset, compressedLen, isPatch(i) ? -1 : actualLen, inflater, inflaterBuffer); } else if (firstByte == 0x75 /* 'u' */) { userDataAccess = new FilterDataAccess(streamDataAccess, streamOffset+1, compressedLen-1); } else { // XXX Python impl in fact throws exception when there's not 'x', 'u' or '0' but I don't see reason not to return data as is // // although firstByte is already read from the streamDataAccess, FilterDataAccess#readByte would seek to // initial offset before first attempt to read a byte userDataAccess = new FilterDataAccess(streamDataAccess, streamOffset, compressedLen); } } return userDataAccess; } // may be invoked few times per instance life public boolean range(int start, int end) throws IOException { int i; // it (i.e. replace with i >= start) if (needData && (i = getBaseRevision(start)) < start) { // if lastRevisionRead in [baseRevision(start), start) can reuse lastUserData // doesn't make sense to reuse if lastRevisionRead == start (too much to change in the cycle below). if (lastRevisionRead != BAD_REVISION && i <= lastRevisionRead && lastRevisionRead < start) { i = lastRevisionRead + 1; // start with first not-yet-read revision } else { if (lastUserData != null) { lastUserData.done(); lastUserData = null; } } } else { // don't need to clean lastUserData as it's always null when !needData i = start; } daIndex.seek(getIndexOffsetInt(i)); // // reuse instance, do not normalize it as patches from the stream are unlikely to need it final Patch patch = new Patch(false); // if (needData && mergePatches && start-i > 2) { // i+1 == start just reads lastUserData, i+2 == start applies one patch - not worth dedicated effort Patch ultimatePatch = new Patch(true); for ( ; i < start; i++) { readHeaderRecord(i); DataAccess userDataAccess = getStoredData(i); if (lastUserData == null) { assert !isPatch(i); lastUserData = userDataAccess; } else { assert isPatch(i); // i < start and i == getBaseRevision() patch.read(userDataAccess); userDataAccess.done(); // I assume empty patches are applied ok ultimatePatch = ultimatePatch.apply(patch); patch.clear(); } } lastUserData.reset(); byte[] userData = ultimatePatch.apply(lastUserData, actualLen); ultimatePatch.clear(); lastUserData.done(); lastUserData = new ByteArrayDataAccess(userData); } // for (; i <= end; i++ ) { readHeaderRecord(i); DataAccess userDataAccess = null; if (needData) { userDataAccess = getStoredData(i); // userDataAccess is revision content, either complete revision, patch of a previous content, or an empty patch if (isPatch(i)) { // this is a patch if (userDataAccess.isEmpty()) { // Issue 22, empty patch to an empty base revision // Issue 24, empty patch to non-empty base revision // empty patch modifies nothing, use content of a previous revision (shall present - it's a patch here) // assert lastUserData.length() == actualLen; // with no patch, data size shall be the same userDataAccess = lastUserData; } else { patch.read(userDataAccess); userDataAccess.done(); // // it shall be reset at the end of prev iteration, when it got assigned from userDataAccess // however, actual userDataAccess and lastUserData may share Inflater object, which needs to be reset // Alternatively, userDataAccess.done() above may be responsible to reset Inflater (if it's InflaterDataAccess) lastUserData.reset(); // final long startMeasuring = System.currentTimeMillis(); // TIMING byte[] userData = patch.apply(lastUserData, actualLen); // applyTime += (System.currentTimeMillis() - startMeasuring); // TIMING patch.clear(); // do not keep any reference, allow byte[] data to be gc'd userDataAccess = new ByteArrayDataAccess(userData); } } } else { if (inline) { daIndex.skip(compressedLen); } } if (i >= start) { // final long startMeasuring = System.currentTimeMillis(); // TIMING inspector.next(i, actualLen, baseRevision, linkRevision, parent1Revision, parent2Revision, nodeidBuf, userDataAccess); // inspectorTime += (System.currentTimeMillis() - startMeasuring); // TIMING } if (cb != null) { if (cb.isStopped()) { return false; } } if (userDataAccess != null) { userDataAccess.reset(); // not sure this is necessary here, as lastUserData would get reset anyway before next use. } if (lastUserData != null && lastUserData != userDataAccess /* empty patch case, reuse of recent data in actual revision */) { // release lastUserData only if we didn't reuse it in actual revision due to empty patch: // empty patch means we have previous revision and didn't alter it with a patch, hence use lastUserData for userDataAccess above lastUserData.done(); } lastUserData = userDataAccess; } lastRevisionRead = end; return true; } } public interface Inspector { // XXX boolean retVal to indicate whether to continue? // TODO specify nodeid and data length, and reuse policy (i.e. if revlog stream doesn't reuse nodeid[] for each call) // implementers shall not invoke DataAccess.done(), it's accomplished by #iterate at appropraite moment void next(int revisionIndex, int actualLen, int baseRevision, int linkRevision, int parent1Revision, int parent2Revision, byte[/*20*/] nodeid, DataAccess data); } }