private void insertMergeAll(final List<TaskDescriptor> queue) { queue.add(new LocalChangesPrompt(true, null, null)); final MergeAllWithBranchCopyPoint mergeAllExecutor = new MergeAllWithBranchCopyPoint(); queue.add( myVcs .getSvnBranchPointsCalculator() .getFirstCopyPointTask( myWcInfo.getRepositoryRoot(), mySourceUrl, myWcInfo.getRootUrl(), mergeAllExecutor)); queue.add(mergeAllExecutor); }
private boolean checkForSwitchedRoots() { final List<WCInfo> infoList = myVcs.getAllWcInfos(); boolean switchedFound = false; for (WCInfo wcInfo : infoList) { if (FileUtil.isAncestor(new File(myWcInfo.getPath()), new File(wcInfo.getPath()), true) && NestedCopyType.switched.equals(wcInfo.getType())) { switchedFound = true; break; } } if (switchedFound) { return prompt("There are some switched paths in the working copy. Do you want to continue?"); } return true; }
// "Calculating not merged revisions" @Override public void run(ContinuationContext context) { if (myCopyData == null) { finishWithError(context, "Merge start wasn't found", true); return; } final ProgressIndicator indicator = ProgressManager.getInstance().getProgressIndicator(); myIsReintegrate = myCopyData.isInvertedSense(); if (!myWcInfo.getFormat().supportsMergeInfo()) return; final SvnBranchPointsCalculator.BranchCopyData data = myCopyData.getTrue(); final long sourceLatest = data.getTargetRevision(); final SvnCommittedChangesProvider committedChangesProvider = (SvnCommittedChangesProvider) myVcs.getCommittedChangesProvider(); final ChangeBrowserSettings settings = new ChangeBrowserSettings(); settings.CHANGE_AFTER = Long.toString(sourceLatest); settings.USE_CHANGE_AFTER_FILTER = true; String local = SVNPathUtil.getRelativePath(myWcInfo.getRepositoryRoot(), myWcInfo.getRootUrl()); final String relativeLocal = (local.startsWith("/") ? local : "/" + local); final LinkedList<Pair<SvnChangeList, TreeStructureNode<SVNLogEntry>>> list = new LinkedList<Pair<SvnChangeList, TreeStructureNode<SVNLogEntry>>>(); try { committedChangesProvider.getCommittedChangesWithMergedRevisons( settings, new SvnRepositoryLocation(mySourceUrl), 0, new PairConsumer<SvnChangeList, TreeStructureNode<SVNLogEntry>>() { public void consume(SvnChangeList svnList, TreeStructureNode<SVNLogEntry> tree) { indicator.checkCanceled(); if (sourceLatest >= svnList.getNumber()) return; list.add(new Pair<SvnChangeList, TreeStructureNode<SVNLogEntry>>(svnList, tree)); } }); } catch (VcsException e) { finishWithError( context, "Checking revisions for merge fault", Collections.singletonList(e)); } indicator.setText("Checking merge information..."); // to do not go into file system while asking something on the net for (Pair<SvnChangeList, TreeStructureNode<SVNLogEntry>> pair : list) { final SvnChangeList svnList = pair.getFirst(); final SvnMergeInfoCache.MergeCheckResult checkResult = myMergeChecker.checkList(svnList); indicator.setText2("Processing revision " + svnList.getNumber()); if (SvnMergeInfoCache.MergeCheckResult.NOT_MERGED.equals(checkResult)) { // additionally check for being 'local' final List<TreeStructureNode<SVNLogEntry>> children = pair.getSecond().getChildren(); boolean localChange = false; for (TreeStructureNode<SVNLogEntry> child : children) { if (isLocalRevisionMergeIteration(child, relativeLocal, indicator)) { localChange = true; break; } } if (!localChange) { myNotMerged.add(svnList); } } } if (myNotMerged.isEmpty()) { finishWithError(context, "Everything is up-to-date", false); return; } context.next(new ShowRevisionSelector(myCopyData)); }