Mercurial > jhg
diff src/org/tmatesoft/hg/internal/Patch.java @ 330:9747a786a34d
Patch merging algorithm complete trial
author | Artem Tikhomirov <tikhomirov.artem@gmail.com> |
---|---|
date | Tue, 25 Oct 2011 03:30:02 +0200 |
parents | 694ebabb5cb3 |
children | 7f136a3fa671 |
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--- a/src/org/tmatesoft/hg/internal/Patch.java Thu Oct 13 03:30:50 2011 +0200 +++ b/src/org/tmatesoft/hg/internal/Patch.java Tue Oct 25 03:30:02 2011 +0200 @@ -18,6 +18,7 @@ import java.io.IOException; import java.util.ArrayList; +import java.util.Formatter; /** * @see http://mercurial.selenic.com/wiki/BundleFormat, in Changelog group description @@ -31,13 +32,54 @@ public final class Patch { private final IntVector starts, ends; private final ArrayList<byte[]> data; - + + private static byte[] generate(int c) { + byte[] rv = new byte[c]; + for (int i = 0; i < c; i++) { + byte x = (byte) ('a' + i); + rv[i] = x; + } + return rv; + } + + public static void main(String[] args) { + Patch p1 = new Patch(), p2 = new Patch(); + // simple cases (one element in either patch) + // III: (1,10 20) & (5,15,15) p2End from [p1End..p1AppliedEnd] (i.e. within p1 range but index is past p2 end index) + // II: (1,10,7) & (3,15,15) insideP2 = true and no more p1 entries + // II: (1,1,10) & (3,11,15) + // independent: (1,10,10) & (15,25,10); (15, 25, 10) & (1, 10, 10) + // I: (15, 25, 10) & (10, 20, 10). result: [10, 20, 10] [20, 25, 5] + // IV: (15, 25, 10) & (10, 30, 20) + // + // cycle with insideP2 + // + // cycle with insideP1 + // + // multiple elements in patches (offsets) + p1.add(15, 25, generate(10)); + p2.add(10, 30, generate(20)); + System.out.println("p1: " + p1); + System.out.println("p2: " + p2); + Patch r = p1.apply(p2); + System.out.println("r: " + r); + } + public Patch() { starts = new IntVector(); ends = new IntVector(); data = new ArrayList<byte[]>(); } + public String toString() { + StringBuilder sb = new StringBuilder(); + Formatter f = new Formatter(sb); + for (int i = 0; i < count(); i++) { + f.format("[%d, %d, %d] ", starts.get(i), ends.get(i), data.get(i).length); + } + return sb.toString(); + } + public int count() { return data.size(); } @@ -112,49 +154,212 @@ data.add(src); } -/* - private void add(Patch another, int index) { - starts.add(another.starts.get(index)); - ends.add(another.ends.get(index)); - data.add(another.data.get(index)); + private void add(Patch p, int i) { + add(p.starts.get(i), p.ends.get(i), p.data.get(i)); + } + + private void add(int start, int end, byte[] d) { + starts.add(start); + ends.add(end); + data.add(d); + } + + private static byte[] subarray(byte[] d, int start, int end) { + byte[] r = new byte[end-start+1]; + System.arraycopy(d, start, r, 0, r.length); + return r; } /** * Modify this patch with subsequent patch - * / - public void apply(Patch another) { + */ + private /*SHALL BE PUBLIC ONCE TESTING ENDS*/ Patch apply(Patch another) { Patch r = new Patch(); - int p1AppliedPos = 0; - int p1PrevEnd = 0; - for (int i = 0, j = 0, iMax = another.count(), jMax = this.count(); i < iMax; i++) { - int newerPatchEntryStart = another.starts.get(i); - int olderPatchEntryEnd; + int p1TotalAppliedDelta = 0; // value to add to start and end indexes of the older patch to get their values as if + // in the patched text, iow, directly comparable with respective indexes from the newer patch. + int p1EntryStart = 0, p1EntryEnd = 0, p1EntryLen = 0; + byte[] p1Data = null; + boolean insideP1entry = false; + int p2 = 0, p1 = 0; + final int p2Max = another.count(), p1Max = this.count(); +L0: for (; p2 < p2Max; p2++) { + int p2EntryStart = another.starts.get(p2); + int p2EntryEnd = another.ends.get(p2); + final int p2EntryRange = p2EntryEnd - p2EntryStart; + final byte[] p2Data = another.data.get(p2); + boolean insideP2entry = false; + int p2EntryStartOffset = -1; + /// + p1EntryStart = p1EntryEnd = p1EntryLen = 0; + p1Data = null; - while (j < jMax) { - if (starts.get(j) < newerPatchEntryStart) { - if (starts.get(j)+data.get(j).length <= newerPatchEntryStart) { - r.add(this, j); +L1: while (p1 < p1Max) { + if (!insideP1entry) { + p1EntryStart = starts.get(p1); + p1EntryEnd = ends.get(p1); + p1Data = data.get(p1); + p1EntryLen = p1Data.length; + }// else keep values + + final int p1EntryDelta = p1EntryLen - (p1EntryEnd - p1EntryStart); // number of actually inserted(+) or deleted(-) chars + final int p1EntryAppliedStart = p1TotalAppliedDelta + p1EntryStart; + final int p1EntryAppliedEnd = p1EntryAppliedStart + p1EntryLen; // end of j'th patch entry in the text which is source for p2 + + if (insideP2entry) { + if (p2EntryEnd < p1EntryAppliedStart) { + r.add(p2EntryStart - p2EntryStartOffset, p2EntryEnd - p1TotalAppliedDelta, p2Data); + insideP2entry = false; + continue L0; + } + if (p2EntryEnd >= p1EntryAppliedEnd) { + // when p2EntryEnd == p1EntryAppliedEnd, I assume p1TotalAppliedDelta can't be used for p2EntryEnd to get it to p1 range, but rather shall be + // augmented with current p1 entry and at the next p1 entry (likely to hit p1EntryAppliedStart > p2EntryEnd above) would do the rest + insideP1entry = false; + p1++; + p1TotalAppliedDelta += p1EntryDelta; + continue L1; + } + // p1EntryAppliedStart <= p2EntryEnd < p1EntryAppliedEnd + r.add(p2EntryStart - p2EntryStartOffset, p2EntryEnd - p1TotalAppliedDelta, p2Data); + p1EntryStart = p2EntryEnd - p1TotalAppliedDelta; + final int p1DataPartShift = p2EntryEnd - p1EntryAppliedStart + 1; + if (p1DataPartShift >= p1EntryLen) { + p1EntryLen = 0; + p1Data = new byte[0]; } else { - int newLen = newerPatchEntryStart - starts.get(j); - int newEnd = ends.get(j) <= newerPatchEntryStart ? ends.get(j) : newerPatchEntryStart; - r.add(starts.get(j), newEnd, data.get(j), newLen); - break; + p1EntryLen -= p1DataPartShift; + p1Data = subarray(p1Data, p1DataPartShift, p1Data.length); + } + insideP1entry = true; + insideP2entry = false; + continue L0; + } + + if (p1EntryAppliedStart < p2EntryStart) { + if (p1EntryAppliedEnd <= p2EntryStart) { // p1EntryAppliedEnd in fact index of the first char *after* patch + // completely independent, copy and continue + r.add(p1EntryStart, p1EntryEnd, p1Data); + insideP1entry = false; + p1++; + // fall-through to get p1TotalAppliedDelta incremented + } else { // SKETCH: II or III + // remember, p1EntryDelta may be negative + // shall break j'th entry into few + // fix p1's end/length + // p1EntryAppliedStart < p2EntryStart < p1EntryAppliedEnd + int s = p2EntryStart - p1TotalAppliedDelta; // p2EntryStart in p1 scale. Is within p1 range + if (s > p1EntryEnd) { + s = p1EntryEnd; + } + int p1DataPartEnd = p2EntryStart - p1EntryAppliedStart; // index, not count. <= (p1EntryEnd-p1EntryStart). + // add what left from p1 + if (p1DataPartEnd < p1EntryLen) { + r.add(p1EntryStart, s, subarray(p1Data, 0, p1DataPartEnd)); + } else { + p1DataPartEnd = p1EntryLen-1; // record factual number of p1 bytes we consumed. + r.add(p1EntryStart, s, p1Data); + } + p1TotalAppliedDelta += p1DataPartEnd - (s - p1EntryStart); // (s2 - (s1+delta)) - (s2 - delta - s1) = s2-s1-delta-s2+delta+s1 = 0, unless p1DataPartEnd >= p1Data.length + p1EntryLen -= (p1DataPartEnd+1); + if (p2EntryEnd < p1EntryAppliedEnd) { + // SKETCH: III + insideP1entry = true; + // p2 completely fits into changes of p1 + int e = p2EntryEnd - p1TotalAppliedDelta; // p2EntryEnd in p1 scale + if (e > p1EntryEnd) { + // any index past p1 end shall be calculated with respect to p1 end, thus it's unsafe to go past p1 end (there may be more p1 entries there) + e = p1EntryEnd; + } + r.add(s, e, p2Data); // add p2 + // modify p1 leftover + p1EntryStart = e; + if (p2EntryRange >= p1EntryLen) { + p1EntryLen = 0; + p1Data = new byte[0]; + } else { + p1Data = subarray(p1Data, p1DataPartEnd + p2EntryRange, p1Data.length-1 /*up to the last one*/); + p1EntryLen -= p2EntryRange; + } + // p2 is handled, but there are leftovers of p1 + continue L0; + } else { // p2EntryEnd >= p1EntryAppliedEnd + // SKETCH: II + insideP1entry = false; + p1++; + if (p1EntryAppliedStart + p1EntryDelta >= p2EntryEnd) { + // here we know next p1 entry would be past p2 entry and thus can put p2 right away + r.add(p2EntryStart - p1TotalAppliedDelta, p1EntryEnd, p2Data); + p1TotalAppliedDelta += p1EntryDelta; + continue L0; + } else { + // there are chances there are more p1 entries till p2 ends + insideP2entry = true; + p2EntryStartOffset = p1TotalAppliedDelta; + // p2EntryEnd is past delta, no chances for p1Data leftovers to be in use + // p2 processing is not over, need to fix end, depending on what else fits into p2 range (if nothing, can put p2.end right away) + // fall-through to get p1TotalAppliedDelta incremented; + } + } + } + } else { // p1EntryAppliedStart >= p2EntryStart + if (p2EntryEnd < p1EntryAppliedStart) { + // newer patch completely fits between two older patches + r.add(p2EntryStart - p1TotalAppliedDelta, p2EntryEnd - p1TotalAppliedDelta, p2Data); + // SHALL NOT increment p1TotalAppliedDelta as we didn't use any of p1 + continue L0; // next p2 + } else { // p2EntryEnd >= p1EntryAppliedStart + // SKETCH: I or IV + // p2EntryEnd is either < p1EntryAppliedEnd or past it + if (p2EntryEnd <= p1EntryAppliedEnd) { + // SKETCH: I: copy p2, strip p1 to start from p2EntryEnd, next i (p2) + insideP1entry = true; + int e = p2EntryEnd - p1TotalAppliedDelta; + if (e > p1EntryEnd) { + e = p1EntryEnd; // added by analogy with above. Is needed? + } + r.add(p2EntryStart - p1TotalAppliedDelta, e, p2Data); + p1EntryStart = e; + int p1DataShift = p2EntryEnd - p1EntryAppliedStart; + if (p1DataShift >= p1EntryLen) { + p1EntryLen = 0; + p1Data = new byte[0]; + } else { + p1EntryLen -= p1DataShift; + p1Data = subarray(p1Data, p1DataShift, p1Data.length - 1); + } + // p1TotalAppliedDelta would get incremented once this modified p1 is handled + continue L0; // next p2; + } else { + // p2EntryEnd > p1EntryAppliedEnd + // SKETCH IV: skip (rest of) p1 completely, continue the same unless found p1 with start or end past p2EntryEnd. + insideP1entry = false; + p1++; + insideP2entry = true; + p2EntryStartOffset = p1TotalAppliedDelta; + // fall-through to get p1TotalAppliedDelta incremented + } } } - p1AppliedPos += starts.get(j) - p1PrevEnd; - p1AppliedPos += data.get(j).length; - p1PrevEnd = ends.get(j); - j++; - } - r.add(newerPatchEntryStart, another.ends.get(i), another.data.get(i)); - p1AppliedPos += newerPatchEntryStart + p1PrevEnd - another.data.get(i).length; - // either j == jMax and another(i, i+1, ..., iMax) need to be just copied - // or new patch entry starts before end of one of original patch entries - if (olderPatchEntryEnd > (destPosition + newerPatchEntryStart)) { - destPosition += starts.get(j) - prevEnd; // count those in the original stream up to old patch start - int newLen = newerPatchEntryStart - destPosition; + p1TotalAppliedDelta += p1EntryDelta; + } // while (p1 < p1Max) + { + // no more p1 entries, shall close p2 (if it's handled, code above jumps directly to L0) + // regardless of whether insideP2 is .t + int s = p2EntryStart; + // p2EntryStartOffset != -1 when we started p2 entry processing, but not completed + // if we handled last p1 entry but didn't start with p2 entry processing, it's -1 and regular p1 delta shall be used + s -= p2EntryStartOffset == -1 ? p1TotalAppliedDelta : p2EntryStartOffset; + r.add(s, p2EntryEnd - p1TotalAppliedDelta, p2Data); } } + if (p1 < p1Max && insideP1entry) { + r.add(p1EntryStart, p1EntryEnd, p1Data); + p1++; + } + while (p1 < p1Max) { + r.add(this, p1); + p1++; + }; + return r; } -*/ } \ No newline at end of file