private Couple<String> keyForChange(final Change change) { final FilePath beforePath = ChangesUtil.getBeforePath(change); final String beforeKey = beforePath == null ? null : beforePath.getIOFile().getAbsolutePath(); final FilePath afterPath = ChangesUtil.getAfterPath(change); final String afterKey = afterPath == null ? null : afterPath.getIOFile().getAbsolutePath(); return Couple.of(beforeKey, afterKey); }
protected static boolean canShowDiff(Change[] changes) { if (changes == null || changes.length == 0) return false; for (Change change : changes) { if (!ChangesUtil.getFilePath(change).isDirectory() || change.hasOtherLayers()) return true; } return false; }
@Override public void calcData(DataKey key, DataSink sink) { if (key == VcsDataKeys.CHANGES) { sink.put(VcsDataKeys.CHANGES, getSelectedChanges()); } else if (key == VcsDataKeys.CHANGE_LEAD_SELECTION) { sink.put(VcsDataKeys.CHANGE_LEAD_SELECTION, getLeadSelection()); } else if (key == VcsDataKeys.CHANGE_LISTS) { sink.put(VcsDataKeys.CHANGE_LISTS, getSelectedChangeLists()); } else if (key == PlatformDataKeys.VIRTUAL_FILE_ARRAY) { sink.put(PlatformDataKeys.VIRTUAL_FILE_ARRAY, getSelectedFiles()); } else if (key == PlatformDataKeys.NAVIGATABLE) { final VirtualFile[] files = getSelectedFiles(); if (files.length == 1 && !files[0].isDirectory()) { sink.put(PlatformDataKeys.NAVIGATABLE, new OpenFileDescriptor(myProject, files[0], 0)); } } else if (key == PlatformDataKeys.NAVIGATABLE_ARRAY) { sink.put( PlatformDataKeys.NAVIGATABLE_ARRAY, ChangesUtil.getNavigatableArray(myProject, getSelectedFiles())); } else if (key == PlatformDataKeys.DELETE_ELEMENT_PROVIDER) { final TreePath[] paths = getSelectionPaths(); if (paths != null) { for (TreePath path : paths) { ChangesBrowserNode node = (ChangesBrowserNode) path.getLastPathComponent(); if (!(node.getUserObject() instanceof ChangeList)) { sink.put(PlatformDataKeys.DELETE_ELEMENT_PROVIDER, new VirtualFileDeleteProvider()); break; } } } } else if (key == PlatformDataKeys.COPY_PROVIDER) { sink.put(PlatformDataKeys.COPY_PROVIDER, myCopyProvider); } else if (key == UNVERSIONED_FILES_DATA_KEY) { sink.put(UNVERSIONED_FILES_DATA_KEY, getSelectedUnversionedFiles()); } else if (key == VcsDataKeys.MODIFIED_WITHOUT_EDITING_DATA_KEY) { sink.put(VcsDataKeys.MODIFIED_WITHOUT_EDITING_DATA_KEY, getSelectedModifiedWithoutEditing()); } else if (key == LOCALLY_DELETED_CHANGES) { sink.put(LOCALLY_DELETED_CHANGES, getSelectedLocallyDeletedChanges()); } else if (key == MISSING_FILES_DATA_KEY) { sink.put(MISSING_FILES_DATA_KEY, getSelectedMissingFiles()); } else if (VcsDataKeys.HAVE_LOCALLY_DELETED == key) { sink.put(VcsDataKeys.HAVE_LOCALLY_DELETED, haveLocallyDeleted()); } else if (VcsDataKeys.HAVE_MODIFIED_WITHOUT_EDITING == key) { sink.put(VcsDataKeys.HAVE_MODIFIED_WITHOUT_EDITING, haveLocallyModified()); } else if (VcsDataKeys.HAVE_SELECTED_CHANGES == key) { sink.put(VcsDataKeys.HAVE_SELECTED_CHANGES, haveSelectedChanges()); } else if (key == HELP_ID_DATA_KEY) { sink.put(HELP_ID_DATA_KEY, ourHelpId); } else if (key == VcsDataKeys.CHANGES_IN_LIST_KEY) { final TreePath selectionPath = getSelectionPath(); if (selectionPath != null && selectionPath.getPathCount() > 1) { ChangesBrowserNode<?> firstNode = (ChangesBrowserNode) selectionPath.getPathComponent(1); if (firstNode instanceof ChangesBrowserChangeListNode) { final List<Change> list = firstNode.getAllChangesUnder(); sink.put(VcsDataKeys.CHANGES_IN_LIST_KEY, list); } } } }
@Nullable private static Change[] loadFakeRevisions(final Project project, final Change[] changes) { List<Change> matchingChanges = new ArrayList<Change>(); for (Change change : changes) { matchingChanges.addAll( ChangeListManager.getInstance(project).getChangesIn(ChangesUtil.getFilePath(change))); } return matchingChanges.toArray(new Change[matchingChanges.size()]); }
public ShelvedChangeList shelveChanges( final Collection<Change> changes, final String commitMessage, final boolean rollback) throws IOException, VcsException { final List<Change> textChanges = new ArrayList<Change>(); final List<ShelvedBinaryFile> binaryFiles = new ArrayList<ShelvedBinaryFile>(); for (Change change : changes) { if (ChangesUtil.getFilePath(change).isDirectory()) { continue; } if (change.getBeforeRevision() instanceof BinaryContentRevision || change.getAfterRevision() instanceof BinaryContentRevision) { binaryFiles.add(shelveBinaryFile(change)); } else { textChanges.add(change); } } final ShelvedChangeList changeList; try { File patchPath = getPatchPath(commitMessage); ProgressManager.checkCanceled(); final List<FilePatch> patches = IdeaTextPatchBuilder.buildPatch( myProject, textChanges, myProject.getBaseDir().getPresentableUrl(), false); ProgressManager.checkCanceled(); CommitContext commitContext = new CommitContext(); baseRevisionsOfDvcsIntoContext(textChanges, commitContext); myFileProcessor.savePathFile( new CompoundShelfFileProcessor.ContentProvider() { public void writeContentTo(final Writer writer, CommitContext commitContext) throws IOException { UnifiedDiffWriter.write(myProject, patches, writer, "\n", commitContext); } }, patchPath, commitContext); changeList = new ShelvedChangeList( patchPath.toString(), commitMessage.replace('\n', ' '), binaryFiles); myShelvedChangeLists.add(changeList); ProgressManager.checkCanceled(); if (rollback) { new RollbackWorker(myProject, false) .doRollback(changes, true, null, VcsBundle.message("shelve.changes.action")); } } finally { notifyStateChanged(); } return changeList; }
public static BeforeAfter<DiffContent> createBinaryDiffContents( final Project project, final Change change) throws VcsException { final FilePath filePath = ChangesUtil.getFilePath(change); try { return new BeforeAfter<DiffContent>( createBinaryFileContent(project, change.getBeforeRevision(), filePath.getName()), createBinaryFileContent(project, change.getAfterRevision(), filePath.getName())); } catch (IOException e) { throw new VcsException(e); } }
public boolean isUpToDate(final Change change) { final List<File> files = ChangesUtil.getIoFilesFromChanges(Collections.singletonList(change)); synchronized (myLock) { for (File file : files) { final String path = file.getAbsolutePath(); final Pair<Boolean, VcsRoot> data = myChanged.get(path); if (data != null && Boolean.TRUE.equals(data.getFirst())) return false; } } return true; }
private List<Change> filterOutBinary(List<Change> paths) { List<Change> result = null; for (Iterator<Change> iterator = paths.iterator(); iterator.hasNext(); ) { final Change change = iterator.next(); if (ChangesUtil.isBinaryChange(change)) { result = (result == null ? new SmartList<Change>() : result); result.add(change); iterator.remove(); } } return result; }
private ShelvedBinaryFile shelveBinaryFile(final Change change) throws IOException { final ContentRevision beforeRevision = change.getBeforeRevision(); final ContentRevision afterRevision = change.getAfterRevision(); File beforeFile = beforeRevision == null ? null : beforeRevision.getFile().getIOFile(); File afterFile = afterRevision == null ? null : afterRevision.getFile().getIOFile(); String shelvedPath = null; if (afterFile != null) { String shelvedName = FileUtil.getNameWithoutExtension(afterFile.getName()); String shelvedExt = FileUtil.getExtension(afterFile.getName()); File shelvedFile = FileUtil.findSequentNonexistentFile( myFileProcessor.getBaseIODir(), shelvedName, shelvedExt); myFileProcessor.saveFile(afterRevision.getFile().getIOFile(), shelvedFile); shelvedPath = shelvedFile.getPath(); } String beforePath = ChangesUtil.getProjectRelativePath(myProject, beforeFile); String afterPath = ChangesUtil.getProjectRelativePath(myProject, afterFile); return new ShelvedBinaryFile(beforePath, afterPath, shelvedPath); }
private static SimpleDiffRequest createBinaryDiffRequest( final Project project, final Change change) throws VcsException { final FilePath filePath = ChangesUtil.getFilePath(change); final SimpleDiffRequest request = new SimpleDiffRequest(project, filePath.getPath()); try { request.setContents( createBinaryFileContent(project, change.getBeforeRevision(), filePath.getName()), createBinaryFileContent(project, change.getAfterRevision(), filePath.getName())); return request; } catch (IOException e) { throw new VcsException(e); } }
public Collection<AbstractVcs> getAffectedVcses() { final ProjectLevelVcsManager vcsManager = ProjectLevelVcsManager.getInstance(myProject); final Set<AbstractVcs> vcses = new HashSet<AbstractVcs>(Arrays.asList(vcsManager.getAllActiveVcss())); final Set<AbstractVcs> result = new HashSet<AbstractVcs>(); for (Change change : myBrowser.myAllChanges) { if (vcses.isEmpty()) break; final AbstractVcs vcs = ChangesUtil.getVcsForChange(change, myBrowser.myProject); if (vcs != null) { result.add(vcs); vcses.remove(vcs); } } return result; }
private static boolean directoryOrBinary(final Change change) { // todo instead for repository tab, filter directories (? ask remotely ? non leaf nodes) /*if ((change.getBeforeRevision() instanceof BinaryContentRevision) || (change.getAfterRevision() instanceof BinaryContentRevision)) { changesList.remove(i); continue; }*/ final FilePath path = ChangesUtil.getFilePath(change); if (path.isDirectory()) { return !change.hasOtherLayers(); } /*final FileType type = path.getFileType(); if ((! FileTypes.UNKNOWN.equals(type)) && (type.isBinary())) { return true; }*/ return false; }
public boolean addChangeToList( @NotNull final String name, final Change change, final VcsKey vcsKey) { LOG.debug( "[addChangeToList] name: " + name + " change: " + ChangesUtil.getFilePath(change).getPath() + " vcs: " + (vcsKey == null ? null : vcsKey.getName())); final LocalChangeList changeList = myMap.get(name); if (changeList != null) { ((LocalChangeListImpl) changeList).addChange(change); myIdx.changeAdded(change, vcsKey); } return changeList != null; }
public MergeFromTheirsResolver( SvnVcs vcs, TreeConflictDescription description, Change change, SvnRevisionNumber revision) { myVcs = vcs; myDescription = description; myChange = change; myCommittedRevision = revision; myOldFilePath = myChange.getBeforeRevision().getFile(); myNewFilePath = myChange.getAfterRevision().getFile(); myBaseForPatch = ChangesUtil.findValidParentAccurately(myNewFilePath); myOldPresentation = TreeConflictRefreshablePanel.filePath(myOldFilePath); myNewPresentation = TreeConflictRefreshablePanel.filePath(myNewFilePath); myTheirsChanges = new ArrayList<Change>(); myTheirsBinaryChanges = new ArrayList<Change>(); myWarnings = new ArrayList<VcsException>(); myTextPatches = Collections.emptyList(); }
private void baseRevisionsOfDvcsIntoContext( List<Change> textChanges, CommitContext commitContext) { ProjectLevelVcsManager vcsManager = ProjectLevelVcsManager.getInstance(myProject); if (vcsManager.dvcsUsedInProject() && VcsConfiguration.getInstance(myProject).INCLUDE_TEXT_INTO_SHELF) { final Set<Change> big = SelectFilesToAddTextsToPatchPanel.getBig(textChanges); final ArrayList<FilePath> toKeep = new ArrayList<FilePath>(); for (Change change : textChanges) { if (change.getBeforeRevision() == null || change.getAfterRevision() == null) continue; if (big.contains(change)) continue; FilePath filePath = ChangesUtil.getFilePath(change); final AbstractVcs vcs = vcsManager.getVcsFor(filePath); if (vcs != null && VcsType.distibuted.equals(vcs.getType())) { toKeep.add(filePath); } } commitContext.putUserData(BaseRevisionTextPatchEP.ourPutBaseRevisionTextKey, true); commitContext.putUserData(BaseRevisionTextPatchEP.ourBaseRevisionPaths, toKeep); } }
@Override public void run(ContinuationContext context) { if (myTheirsBinaryChanges.isEmpty()) return; final List<Change> converted; try { converted = convertPaths(myTheirsBinaryChanges); } catch (VcsException e) { context.handleException(e, true); return; } if (converted.isEmpty()) return; final Map<FilePath, Change> map = new HashMap<FilePath, Change>(); for (Change change : converted) { map.put(ChangesUtil.getFilePath(change), change); } final Collection<FilePath> selected = chooseBinaryFiles(converted, map.keySet()); myTheirsBinaryChanges.clear(); for (FilePath filePath : selected) { myTheirsBinaryChanges.add(map.get(filePath)); } }
@Override public void run(final ContinuationContext context) { final MultiMap<String, Change> map = myIntersection.getChangesSubset(); final RefreshSessionImpl session = new RefreshSessionImpl( true, false, new Runnable() { public void run() { context.ping(); } }); for (String name : map.keySet()) { try { final Collection<Change> changes = map.get(name); ApplicationManager.getApplication() .invokeAndWait( new Runnable() { @Override public void run() { FileDocumentManager.getInstance().saveAllDocuments(); } }, ModalityState.NON_MODAL); ShelveChangesManager.getInstance(myProject) .shelveChanges( changes, myIntersection.getComment(name) + " (auto shelve before merge)", true); session.addAllFiles(ChangesUtil.getFilesFromChanges(changes)); } catch (IOException e) { finishWithError(context, e.getMessage(), true); } catch (VcsException e) { finishWithError(context, e.getMessage(), true); } } // first suspend to guarantee stop->then start back sequence context.suspend(); session.launch(); }
private Collection<FilePath> chooseBinaryFiles(List<Change> converted, Set<FilePath> paths) { String singleMessage = ""; if (paths.size() == 1) { final Change change = converted.get(0); final FileStatus status = change.getFileStatus(); final FilePath path = ChangesUtil.getFilePath(change); final String stringPath = TreeConflictRefreshablePanel.filePath(path); if (FileStatus.DELETED.equals(status)) { singleMessage = "Delete binary file " + stringPath + " (according to theirs changes)?"; } else if (FileStatus.ADDED.equals(status)) { singleMessage = "Create binary file " + stringPath + " (according to theirs changes)?"; } else { singleMessage = "Apply changes to binary file " + stringPath + " (according to theirs changes)?"; } } return AbstractVcsHelper.getInstance(myVcs.getProject()) .selectFilePathsToProcess( new ArrayList<FilePath>(paths), TreeConflictRefreshablePanel.TITLE, "Select binary files to patch", TreeConflictRefreshablePanel.TITLE, singleMessage, new VcsShowConfirmationOption() { @Override public Value getValue() { return null; } @Override public void setValue(Value value) {} @Override public boolean isPersistent() { return false; } }); }
public void addChangeToCorrespondingList(final Change change, final VcsKey vcsKey) { final String path = ChangesUtil.getFilePath(change).getPath(); LOG.debug( "[addChangeToCorrespondingList] for change " + path + " type: " + change.getType() + " have before revision: " + (change.getBeforeRevision() != null)); assert myDefault != null; for (LocalChangeList list : myMap.values()) { if (list.isDefault()) { LOG.debug( "[addChangeToCorrespondingList] skip default list: " + list.getName() + " type: " + change.getType() + " have before revision: " + (change.getBeforeRevision() != null)); continue; } if (((LocalChangeListImpl) list).processChange(change)) { LOG.debug( "[addChangeToCorrespondingList] matched: " + list.getName() + " type: " + change.getType() + " have before revision: " + (change.getBeforeRevision() != null)); myIdx.changeAdded(change, vcsKey); return; } } ((LocalChangeListImpl) myDefault).processChange(change); myIdx.changeAdded(change, vcsKey); }
private static void markInternalOperation( List<Pair<VirtualFile, ApplyTextFilePatch>> textPatches, boolean set) { for (Pair<VirtualFile, ApplyTextFilePatch> patch : textPatches) { ChangesUtil.markInternalOperation(patch.getFirst(), set); } }
protected static boolean canShowDiff(Change[] changes) { if (changes == null || changes.length == 0) return false; return !ChangesUtil.getFilePath(changes[0]).isDirectory() || changes[0].hasOtherLayers(); }
@Override public void run(ContinuationContext context) { final String message; final Intersection intersection; final ChangeListManager listManager = ChangeListManager.getInstance(myProject); final List<LocalChangeList> localChangeLists = listManager.getChangeListsCopy(); if (myMergeAll) { intersection = getMergeAllIntersection(localChangeLists); message = "There are local changes that can potentially intersect with merge changes.\nDo you want to continue?"; } else { intersection = checkIntersection(myLists, localChangeLists); message = "There are local changes that will intersect with merge changes.\nDo you want to continue?"; } if (intersection == null || intersection.getChangesSubset().isEmpty()) return; final LocalChangesAction action; if (!myMergeAll) { final LocalChangesAction[] possibleResults = { LocalChangesAction.shelve, LocalChangesAction.inspect, LocalChangesAction.continueMerge, LocalChangesAction.cancel }; final int result = Messages.showDialog( message, myTitle, new String[] { "Shelve local changes", "Inspect changes", "Continue merge", "Cancel" }, 0, Messages.getQuestionIcon()); action = possibleResults[result]; } else { final LocalChangesAction[] possibleResults = { LocalChangesAction.shelve, LocalChangesAction.continueMerge, LocalChangesAction.cancel }; final int result = Messages.showDialog( message, myTitle, new String[] {"Shelve local changes", "Continue merge", "Cancel"}, 0, Messages.getQuestionIcon()); action = possibleResults[result]; } switch (action) { // shelve case shelve: context.next(new ShelveLocalChanges(intersection)); return; // cancel case cancel: context.cancelEverything(); return; // continue case continueMerge: return; // inspect case inspect: final Collection<Change> changes = (Collection<Change>) intersection.getChangesSubset().values(); final List<FilePath> paths = ChangesUtil.getPaths(changes); Collections.sort(paths, FilePathByPathComparator.getInstance()); // todo rework message IntersectingLocalChangesPanel.showInVersionControlToolWindow( myProject, myTitle + ", local changes intersection", paths, "The following file(s) have local changes that will intersect with merge changes:"); context.cancelEverything(); return; default: } }