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package org.eclipse.jgit.blame;

import java.io.IOException;

import org.eclipse.jgit.blame.ReverseWalk.ReverseCommit;
import org.eclipse.jgit.diff.Edit;
import org.eclipse.jgit.diff.EditList;
import org.eclipse.jgit.diff.RawText;
import org.eclipse.jgit.lib.Constants;
import org.eclipse.jgit.lib.ObjectId;
import org.eclipse.jgit.lib.ObjectLoader;
import org.eclipse.jgit.lib.ObjectReader;
import org.eclipse.jgit.lib.PersonIdent;
import org.eclipse.jgit.revwalk.RevCommit;
import org.eclipse.jgit.revwalk.RevFlag;
import org.eclipse.jgit.treewalk.filter.PathFilter;

/**
 * A source that may have supplied some (or all) of the result file.
 * 

* Candidates are kept in a queue by BlameGenerator, allowing the generator to * perform a parallel search down the parents of any merges that are discovered * during the history traversal. Each candidate retains a {@link #regionList} * describing sections of the result file the candidate has taken responsibility * for either directly or indirectly through its history. Actual blame from this * region list will be assigned to the candidate when its ancestor commit(s) are * themselves converted into Candidate objects and the ancestor's candidate uses * {@link #takeBlame(EditList, Candidate)} to accept responsibility for sections * of the result. */ class Candidate { /** Next candidate in the candidate queue. */ Candidate queueNext; /** Commit being considered (or blamed, depending on state). */ RevCommit sourceCommit; /** Path of the candidate file in {@link #sourceCommit}. */ PathFilter sourcePath; /** Unique name of the candidate blob in {@link #sourceCommit}. */ ObjectId sourceBlob; /** Complete contents of the file in {@link #sourceCommit}. */ RawText sourceText; /** * Chain of regions this candidate may be blamed for. *

* This list is always kept sorted by resultStart order, making it simple to * merge-join with the sorted EditList during blame assignment. */ Region regionList; /** * Score assigned to the rename to this candidate. *

* Consider the history "A<-B<-C". If the result file S in C was renamed to * R in B, the rename score for this rename will be held in this field by * the candidate object for B. By storing the score with B, the application * can see what the rename score was as it makes the transition from C/S to * B/R. This may seem backwards since it was C that performed the rename, * but the application doesn't learn about path R until B. */ int renameScore; Candidate(RevCommit commit, PathFilter path) { sourceCommit = commit; sourcePath = path; } int getParentCount() { return sourceCommit.getParentCount(); } RevCommit getParent(int idx) { return sourceCommit.getParent(idx); } Candidate getNextCandidate(@SuppressWarnings("unused") int idx) { return null; } void add(RevFlag flag) { sourceCommit.add(flag); } int getTime() { return sourceCommit.getCommitTime(); } PersonIdent getAuthor() { return sourceCommit.getAuthorIdent(); } Candidate create(RevCommit commit, PathFilter path) { return new Candidate(commit, path); } Candidate copy(RevCommit commit) { Candidate r = create(commit, sourcePath); r.sourceBlob = sourceBlob; r.sourceText = sourceText; r.regionList = regionList; r.renameScore = renameScore; return r; } void loadText(ObjectReader reader) throws IOException { ObjectLoader ldr = reader.open(sourceBlob, Constants.OBJ_BLOB); sourceText = new RawText(ldr.getCachedBytes(Integer.MAX_VALUE)); } void takeBlame(EditList editList, Candidate child) { blame(editList, this, child); } private static void blame(EditList editList, Candidate a, Candidate b) { Region r = b.clearRegionList(); Region aTail = null; Region bTail = null; for (int eIdx = 0; eIdx < editList.size();) { // If there are no more regions left, neither side has any // more responsibility for the result. Remaining edits can // be safely ignored. if (r == null) return; Edit e = editList.get(eIdx); // Edit ends before the next candidate region. Skip the edit. if (e.getEndB() <= r.sourceStart) { eIdx++; continue; } // Next candidate region starts before the edit. Assign some // of the blame onto A, but possibly split and also on B. if (r.sourceStart < e.getBeginB()) { int d = e.getBeginB() - r.sourceStart; if (r.length <= d) { // Pass the blame for this region onto A. Region next = r.next; r.sourceStart = e.getBeginA() - d; aTail = add(aTail, a, r); r = next; continue; } // Split the region and assign some to A, some to B. aTail = add(aTail, a, r.splitFirst(e.getBeginA() - d, d)); r.slideAndShrink(d); } // At this point e.getBeginB() <= r.sourceStart. // An empty edit on the B side isn't relevant to this split, // as it does not overlap any candidate region. if (e.getLengthB() == 0) { eIdx++; continue; } // If the region ends before the edit, blame on B. int rEnd = r.sourceStart + r.length; if (rEnd <= e.getEndB()) { Region next = r.next; bTail = add(bTail, b, r); r = next; if (rEnd == e.getEndB()) eIdx++; continue; } // This region extends beyond the edit. Blame the first // half of the region on B, and process the rest after. int len = e.getEndB() - r.sourceStart; bTail = add(bTail, b, r.splitFirst(r.sourceStart, len)); r.slideAndShrink(len); eIdx++; } if (r == null) return; // For any remaining region, pass the blame onto A after shifting // the source start to account for the difference between the two. Edit e = editList.get(editList.size() - 1); int endB = e.getEndB(); int d = endB - e.getEndA(); if (aTail == null) a.regionList = r; else aTail.next = r; do { if (endB <= r.sourceStart) r.sourceStart -= d; r = r.next; } while (r != null); } private static Region add(Region aTail, Candidate a, Region n) { // If there is no region on the list, use only this one. if (aTail == null) { a.regionList = n; n.next = null; return n; } // If the prior region ends exactly where the new region begins // in both the result and the source, combine these together into // one contiguous region. This occurs when intermediate commits // have inserted and deleted lines in the middle of a region. Try // to report this region as a single region to the application, // rather than in fragments. if (aTail.resultStart + aTail.length == n.resultStart && aTail.sourceStart + aTail.length == n.sourceStart) { aTail.length += n.length; return aTail; } // Append the region onto the end of the list. aTail.next = n; n.next = null; return n; } private Region clearRegionList() { Region r = regionList; regionList = null; return r; } @SuppressWarnings("nls") @Override public String toString() { StringBuilder r = new StringBuilder(); r.append("Candidate["); r.append(sourcePath.getPath()); if (sourceCommit != null) r.append(" @ ").append(sourceCommit.abbreviate(6).name()); if (regionList != null) r.append(" regions:").append(regionList); r.append("]"); return r.toString(); } /** * Special candidate type used for reverse blame. *

* Reverse blame inverts the commit history graph to follow from a commit to * its descendant children, rather than the normal history direction of * child to parent. These types require a {@link ReverseCommit} which keeps * children pointers, allowing reverse navigation of history. */ static final class ReverseCandidate extends Candidate { ReverseCandidate(ReverseCommit commit, PathFilter path) { super(commit, path); } @Override int getParentCount() { return ((ReverseCommit) sourceCommit).getChildCount(); } @Override RevCommit getParent(int idx) { return ((ReverseCommit) sourceCommit).getChild(idx); } @Override int getTime() { // Invert the timestamp so newer dates sort older. return -sourceCommit.getCommitTime(); } @Override Candidate create(RevCommit commit, PathFilter path) { return new ReverseCandidate((ReverseCommit) commit, path); } @Override public String toString() { return "Reverse" + super.toString(); //$NON-NLS-1$ } } /** * Candidate loaded from a file source, and not a commit. *

* The {@link Candidate#sourceCommit} field is always null on this type of * candidate. Instead history traversal follows the single {@link #parent} * field to discover the next Candidate. Often this is a normal Candidate * type that has a valid sourceCommit. */ static final class BlobCandidate extends Candidate { /** * Next candidate to pass blame onto. *

* When computing the differences that this candidate introduced to the * file content, the parent's sourceText is used as the base. */ Candidate parent; /** Author name to refer to this blob with. */ String description; BlobCandidate(String name, PathFilter path) { super(null, path); description = name; } @Override int getParentCount() { return parent != null ? 1 : 0; } @Override RevCommit getParent(int idx) { return null; } @Override Candidate getNextCandidate(int idx) { return parent; } @Override void add(RevFlag flag) { // Do nothing, sourceCommit is null. } @Override int getTime() { return Integer.MAX_VALUE; } @Override PersonIdent getAuthor() { return new PersonIdent(description, ""); //$NON-NLS-1$ } } }





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