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/*******************************************************************************
 * Copyright (c) 2000, 2016 IBM Corporation and others.
 *
 * This program and the accompanying materials
 * are made available under the terms of the Eclipse Public License 2.0
 * which accompanies this distribution, and is available at
 * https://www.eclipse.org/legal/epl-2.0/
 *
 * SPDX-License-Identifier: EPL-2.0
 *
 * Contributors:
 *     IBM Corporation - initial API and implementation
 *******************************************************************************/

package org.eclipse.jface.text;


import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.concurrent.CopyOnWriteArrayList;
import java.util.regex.PatternSyntaxException;

import org.eclipse.core.runtime.Assert;
import org.eclipse.core.runtime.ISafeRunnable;
import org.eclipse.core.runtime.ListenerList;
import org.eclipse.core.runtime.SafeRunner;


/**
 * Abstract default implementation of IDocument and its extension
 * interfaces {@link org.eclipse.jface.text.IDocumentExtension},
 * {@link org.eclipse.jface.text.IDocumentExtension2},
 * {@link org.eclipse.jface.text.IDocumentExtension3},
 * {@link org.eclipse.jface.text.IDocumentExtension4}, as well as
 * {@link org.eclipse.jface.text.IRepairableDocument}.
 * 

* * An AbstractDocument supports the following implementation * plug-ins: *

    *
  • a text store implementing {@link org.eclipse.jface.text.ITextStore} for * storing and managing the document's content,
  • *
  • a line tracker implementing {@link org.eclipse.jface.text.ILineTracker} * to map character positions to line numbers and vice versa
  • *
* The document can dynamically change the text store when switching between * sequential rewrite mode and normal mode. *

* * This class must be subclassed. Subclasses must configure which implementation * plug-ins the document instance should use. Subclasses are not intended to * overwrite existing methods. * * @see org.eclipse.jface.text.ITextStore * @see org.eclipse.jface.text.ILineTracker */ public abstract class AbstractDocument implements IDocument, IDocumentExtension, IDocumentExtension2, IDocumentExtension3, IDocumentExtension4, IRepairableDocument, IRepairableDocumentExtension { /** * Tells whether this class is in debug mode. * @since 3.1 */ private static final boolean DEBUG= false; /** * Inner class to bundle a registered post notification replace operation together with its * owner. * * @since 2.0 */ static private class RegisteredReplace { /** The owner of this replace operation. */ IDocumentListener fOwner; /** The replace operation */ IDocumentExtension.IReplace fReplace; /** * Creates a new bundle object. * @param owner the document listener owning the replace operation * @param replace the replace operation */ RegisteredReplace(IDocumentListener owner, IDocumentExtension.IReplace replace) { fOwner= owner; fReplace= replace; } } /** The document's text store */ private ITextStore fStore; /** The document's line tracker */ private ILineTracker fTracker; /** The registered document listeners */ private ListenerList fDocumentListeners; /** The registered pre-notified document listeners */ private ListenerList fPrenotifiedDocumentListeners; /** The registered document partitioning listeners */ private ListenerList fDocumentPartitioningListeners; /** All positions managed by the document ordered by their start positions. */ private Map> fPositions; /** * All positions managed by the document ordered by their end positions. * @since 3.4 */ private Map> fEndPositions; /** All registered document position updaters */ private List fPositionUpdaters; /** * The list of post notification changes * @since 2.0 */ private List fPostNotificationChanges; /** * The reentrance count for post notification changes. * @since 2.0 */ private int fReentranceCount= 0; /** * Indicates whether post notification change processing has been stopped. * @since 2.0 */ private int fStoppedCount= 0; /** * Indicates whether the registration of post notification changes should be ignored. * @since 2.1 */ private boolean fAcceptPostNotificationReplaces= true; /** * Indicates whether the notification of listeners has been stopped. * @since 2.1 */ private int fStoppedListenerNotification= 0; /** * The document event to be sent after listener notification has been resumed. * @since 2.1 */ private DocumentEvent fDeferredDocumentEvent; /** * The registered document partitioners. * @since 3.0 */ private Map fDocumentPartitioners; /** * The partitioning changed event. * @since 3.0 */ private DocumentPartitioningChangedEvent fDocumentPartitioningChangedEvent; /** * The find/replace document adapter. * @since 3.0 */ private FindReplaceDocumentAdapter fFindReplaceDocumentAdapter; /** * The active document rewrite session. * @since 3.1 */ private DocumentRewriteSession fDocumentRewriteSession; /** * The registered document rewrite session listeners. * @since 3.1 */ private List fDocumentRewriteSessionListeners; /** * The current modification stamp. * @since 3.1 */ private long fModificationStamp= IDocumentExtension4.UNKNOWN_MODIFICATION_STAMP; /** * Keeps track of next modification stamp. * @since 3.1.1 */ private long fNextModificationStamp= IDocumentExtension4.UNKNOWN_MODIFICATION_STAMP; /** * This document's default line delimiter. * @since 3.1 */ private String fInitialLineDelimiter; /** * The default constructor does not perform any configuration * but leaves it to the clients who must first initialize the * implementation plug-ins and then call completeInitialization. * Results in the construction of an empty document. */ protected AbstractDocument() { fModificationStamp= getNextModificationStamp(); } /** * Returns the document's text store. Assumes that the * document has been initialized with a text store. * * @return the document's text store */ protected ITextStore getStore() { Assert.isNotNull(fStore); return fStore; } /** * Returns the document's line tracker. Assumes that the * document has been initialized with a line tracker. * * @return the document's line tracker */ protected ILineTracker getTracker() { Assert.isNotNull(fTracker); return fTracker; } private static List asList(ListenerList listenerList) { List list= Arrays.asList(listenerList.getListeners()); @SuppressWarnings("unchecked") List castList= (List) list; return castList; } /** * Returns the document's document listeners. * * @return the document's document listeners */ protected List getDocumentListeners() { return asList(fDocumentListeners); } /** * Returns the document's partitioning listeners. * * @return the document's partitioning listeners */ protected List getDocumentPartitioningListeners() { return asList(fDocumentPartitioningListeners); } /** * Returns all positions managed by the document grouped by category. * * @return the document's positions */ protected Map> getDocumentManagedPositions() { return fPositions; } @Override public IDocumentPartitioner getDocumentPartitioner() { return getDocumentPartitioner(DEFAULT_PARTITIONING); } //--- implementation configuration interface ------------ /** * Sets the document's text store. * Must be called at the beginning of the constructor. * * @param store the document's text store */ protected void setTextStore(ITextStore store) { fStore= store; } /** * Sets the document's line tracker. * Must be called at the beginning of the constructor. * * @param tracker the document's line tracker */ protected void setLineTracker(ILineTracker tracker) { fTracker= tracker; } @Override public void setDocumentPartitioner(IDocumentPartitioner partitioner) { setDocumentPartitioner(DEFAULT_PARTITIONING, partitioner); } /** * Initializes document listeners, positions, and position updaters. * Must be called inside the constructor after the implementation plug-ins * have been set. */ protected void completeInitialization() { fPositions= new HashMap<>(); fEndPositions= new HashMap<>(); fPositionUpdaters= new CopyOnWriteArrayList<>(); fDocumentListeners= new ListenerList<>(ListenerList.IDENTITY); fPrenotifiedDocumentListeners= new ListenerList<>(ListenerList.IDENTITY); fDocumentPartitioningListeners= new ListenerList<>(ListenerList.IDENTITY); fDocumentRewriteSessionListeners= new ArrayList<>(); addPositionCategory(DEFAULT_CATEGORY); addPositionUpdater(new DefaultPositionUpdater(DEFAULT_CATEGORY)); } //------------------------------------------------------- @Override public void addDocumentListener(IDocumentListener listener) { Assert.isNotNull(listener); fDocumentListeners.add(listener); } @Override public void removeDocumentListener(IDocumentListener listener) { Assert.isNotNull(listener); fDocumentListeners.remove(listener); } @Override public void addPrenotifiedDocumentListener(IDocumentListener listener) { Assert.isNotNull(listener); fPrenotifiedDocumentListeners.add(listener); } @Override public void removePrenotifiedDocumentListener(IDocumentListener listener) { Assert.isNotNull(listener); fPrenotifiedDocumentListeners.remove(listener); } @Override public void addDocumentPartitioningListener(IDocumentPartitioningListener listener) { Assert.isNotNull(listener); fDocumentPartitioningListeners.add(listener); } @Override public void removeDocumentPartitioningListener(IDocumentPartitioningListener listener) { Assert.isNotNull(listener); fDocumentPartitioningListeners.remove(listener); } @Override public void addPosition(String category, Position position) throws BadLocationException, BadPositionCategoryException { if ((0 > position.offset) || (0 > position.length) || (position.offset + position.length > getLength())) throw new BadLocationException(); if (category == null) throw new BadPositionCategoryException(); List list= fPositions.get(category); if (list == null) throw new BadPositionCategoryException(); list.add(computeIndexInPositionList(list, position.offset), position); List endPositions= fEndPositions.get(category); if (endPositions == null) throw new BadPositionCategoryException(); endPositions.add(computeIndexInPositionList(endPositions, position.offset + position.length - 1, false), position); } @Override public void addPosition(Position position) throws BadLocationException { try { addPosition(DEFAULT_CATEGORY, position); } catch (BadPositionCategoryException e) { } } @Override public void addPositionCategory(String category) { if (category == null) return; if (!containsPositionCategory(category)) { fPositions.put(category, new ArrayList<>()); fEndPositions.put(category, new ArrayList<>()); } } @Override public void addPositionUpdater(IPositionUpdater updater) { insertPositionUpdater(updater, fPositionUpdaters.size()); } @Override public boolean containsPosition(String category, int offset, int length) { if (category == null) return false; List list= fPositions.get(category); if (list == null) return false; int size= list.size(); if (size == 0) return false; int index= computeIndexInPositionList(list, offset); if (index < size) { Position p= list.get(index); while (p != null && p.offset == offset) { if (p.length == length) return true; ++ index; p= (index < size) ? list.get(index) : null; } } return false; } @Override public boolean containsPositionCategory(String category) { if (category != null) return fPositions.containsKey(category); return false; } /** * Computes the index in the list of positions at which a position with the given * offset would be inserted. The position is supposed to become the first in this list * of all positions with the same offset. * * @param positions the list in which the index is computed * @param offset the offset for which the index is computed * @return the computed index * * @see IDocument#computeIndexInCategory(String, int) * @deprecated As of 3.4, replaced by {@link #computeIndexInPositionList(List, int, boolean)} */ @Deprecated protected int computeIndexInPositionList(List positions, int offset) { return computeIndexInPositionList(positions, offset, true); } /** * Computes the index in the list of positions at which a position with the given * position would be inserted. The position to insert is supposed to become the first * in this list of all positions with the same position. * * @param positions the list in which the index is computed * @param offset the offset for which the index is computed * @param orderedByOffset true if ordered by offset, false if ordered by end position * @return the computed index * @since 3.4 */ protected int computeIndexInPositionList(List positions, int offset, boolean orderedByOffset) { if (positions.isEmpty()) return 0; int left= 0; int right= positions.size() -1; int mid= 0; Position p= null; while (left < right) { mid= (left + right) / 2; p= positions.get(mid); int pOffset= getOffset(orderedByOffset, p); if (offset < pOffset) { if (left == mid) right= left; else right= mid -1; } else if (offset > pOffset) { if (right == mid) left= right; else left= mid +1; } else if (offset == pOffset) { left= right= mid; } } int pos= left; p= positions.get(pos); int pPosition= getOffset(orderedByOffset, p); if (offset > pPosition) { // append to the end pos++; } else { // entry will become the first of all entries with the same offset do { --pos; if (pos < 0) break; p= positions.get(pos); pPosition= getOffset(orderedByOffset, p); } while (offset == pPosition); ++pos; } Assert.isTrue(0 <= pos && pos <= positions.size()); return pos; } /* * @since 3.4 */ private int getOffset(boolean orderedByOffset, Position position) { if (orderedByOffset || position.getLength() == 0) return position.getOffset(); return position.getOffset() + position.getLength() - 1; } @Override public int computeIndexInCategory(String category, int offset) throws BadLocationException, BadPositionCategoryException { if (0 > offset || offset > getLength()) throw new BadLocationException(); List c= fPositions.get(category); if (c == null) throw new BadPositionCategoryException(); return computeIndexInPositionList(c, offset); } /** * Fires the document partitioning changed notification to all registered * document partitioning listeners. Uses a robust iterator. * * @deprecated as of 2.0. Use fireDocumentPartitioningChanged(IRegion) instead. */ @Deprecated protected void fireDocumentPartitioningChanged() { if (fDocumentPartitioningListeners == null) return; for (IDocumentPartitioningListener listener : fDocumentPartitioningListeners) { listener.documentPartitioningChanged(this); } } /** * Fires the document partitioning changed notification to all registered * document partitioning listeners. Uses a robust iterator. * * @param region the region in which partitioning has changed * * @see IDocumentPartitioningListenerExtension * @since 2.0 * @deprecated as of 3.0. Use * fireDocumentPartitioningChanged(DocumentPartitioningChangedEvent) * instead. */ @Deprecated protected void fireDocumentPartitioningChanged(IRegion region) { if (fDocumentPartitioningListeners == null) return; for (IDocumentPartitioningListener l : fDocumentPartitioningListeners) { try { if (l instanceof IDocumentPartitioningListenerExtension) ((IDocumentPartitioningListenerExtension)l).documentPartitioningChanged(this, region); else l.documentPartitioningChanged(this); } catch (Exception ex) { log(ex); } } } /** * Fires the document partitioning changed notification to all registered * document partitioning listeners. Uses a robust iterator. * * @param event the document partitioning changed event * * @see IDocumentPartitioningListenerExtension2 * @since 3.0 */ protected void fireDocumentPartitioningChanged(DocumentPartitioningChangedEvent event) { if (fDocumentPartitioningListeners == null) return; for (IDocumentPartitioningListener l : fDocumentPartitioningListeners) { try { if (l instanceof IDocumentPartitioningListenerExtension2) { IDocumentPartitioningListenerExtension2 extension2= (IDocumentPartitioningListenerExtension2)l; extension2.documentPartitioningChanged(event); } else if (l instanceof IDocumentPartitioningListenerExtension) { IDocumentPartitioningListenerExtension extension= (IDocumentPartitioningListenerExtension)l; extension.documentPartitioningChanged(this, event.getCoverage()); } else { l.documentPartitioningChanged(this); } } catch (Exception ex) { log(ex); } } } /** * Fires the given document event to all registers document listeners informing them * about the forthcoming document manipulation. Uses a robust iterator. * * @param event the event to be sent out */ protected void fireDocumentAboutToBeChanged(DocumentEvent event) { // IDocumentExtension if (fReentranceCount == 0) flushPostNotificationChanges(); if (fDocumentPartitioners != null) { Iterator e= fDocumentPartitioners.values().iterator(); while (e.hasNext()) { IDocumentPartitioner p= e.next(); if (p instanceof IDocumentPartitionerExtension3) { IDocumentPartitionerExtension3 extension= (IDocumentPartitionerExtension3) p; if (extension.getActiveRewriteSession() != null) continue; } try { p.documentAboutToBeChanged(event); } catch (Exception ex) { log(ex); } } } for (IDocumentListener listener : fPrenotifiedDocumentListeners) { try { listener.documentAboutToBeChanged(event); } catch (Exception ex) { log(ex); } } for (IDocumentListener listener : fDocumentListeners) { try { listener.documentAboutToBeChanged(event); } catch (Exception ex) { log(ex); } } } /** * Updates document partitioning and document positions according to the * specification given by the document event. * * @param event the document event describing the change to which structures must be adapted */ protected void updateDocumentStructures(DocumentEvent event) { if (fDocumentPartitioners != null) { fDocumentPartitioningChangedEvent= new DocumentPartitioningChangedEvent(this); for (Entry entry : fDocumentPartitioners.entrySet()) { String partitioning= entry.getKey(); IDocumentPartitioner partitioner= entry.getValue(); if (partitioner instanceof IDocumentPartitionerExtension3) { IDocumentPartitionerExtension3 extension= (IDocumentPartitionerExtension3) partitioner; if (extension.getActiveRewriteSession() != null) continue; } if (partitioner instanceof IDocumentPartitionerExtension) { IDocumentPartitionerExtension extension= (IDocumentPartitionerExtension) partitioner; IRegion r= extension.documentChanged2(event); if (r != null) fDocumentPartitioningChangedEvent.setPartitionChange(partitioning, r.getOffset(), r.getLength()); } else { if (partitioner.documentChanged(event)) fDocumentPartitioningChangedEvent.setPartitionChange(partitioning, 0, event.getDocument().getLength()); } } } if (!fPositions.isEmpty()) updatePositions(event); } /** * Notifies all listeners about the given document change. Uses a robust * iterator. *

* Executes all registered post notification replace operation. * * @param event the event to be sent out. */ protected void doFireDocumentChanged(DocumentEvent event) { boolean changed= fDocumentPartitioningChangedEvent != null && !fDocumentPartitioningChangedEvent.isEmpty(); IRegion change= changed ? fDocumentPartitioningChangedEvent.getCoverage() : null; doFireDocumentChanged(event, changed, change); } /** * Notifies all listeners about the given document change. * Uses a robust iterator.

* Executes all registered post notification replace operation. * * @param event the event to be sent out * @param firePartitionChange true if a partition change notification should be sent * @param partitionChange the region whose partitioning changed * @since 2.0 * @deprecated as of 3.0. Use doFireDocumentChanged2(DocumentEvent) instead; this method will be removed. */ @Deprecated protected void doFireDocumentChanged(DocumentEvent event, boolean firePartitionChange, IRegion partitionChange) { doFireDocumentChanged2(event); } /** * Notifies all listeners about the given document change. Uses a robust * iterator. *

* Executes all registered post notification replace operation. *

* This method will be renamed to doFireDocumentChanged. * * @param event the event to be sent out * @since 3.0 */ protected void doFireDocumentChanged2(DocumentEvent event) { DocumentPartitioningChangedEvent p= fDocumentPartitioningChangedEvent; fDocumentPartitioningChangedEvent= null; if (p != null && !p.isEmpty()) fireDocumentPartitioningChanged(p); for (IDocumentListener listener : fPrenotifiedDocumentListeners) { try { listener.documentChanged(event); } catch (Exception ex) { log(ex); } } for (IDocumentListener listener : fDocumentListeners) { try { listener.documentChanged(event); } catch (Exception ex) { log(ex); } } // IDocumentExtension ++ fReentranceCount; try { if (fReentranceCount == 1) executePostNotificationChanges(); } finally { -- fReentranceCount; } } /** * Updates the internal document structures and informs all document listeners * if listener notification has been enabled. Otherwise it remembers the event * to be sent to the listeners on resume. * * @param event the document event to be sent out */ protected void fireDocumentChanged(DocumentEvent event) { updateDocumentStructures(event); if (fStoppedListenerNotification == 0) doFireDocumentChanged(event); else fDeferredDocumentEvent= event; } @Override public char getChar(int pos) throws BadLocationException { if ((0 > pos) || (pos >= getLength())) throw new BadLocationException(); return getStore().get(pos); } @Override public String getContentType(int offset) throws BadLocationException { String contentType= null; try { contentType= getContentType(DEFAULT_PARTITIONING, offset, false); Assert.isNotNull(contentType); } catch (BadPartitioningException e) { Assert.isTrue(false); } return contentType; } @Override public String[] getLegalContentTypes() { String[] contentTypes= null; try { contentTypes= getLegalContentTypes(DEFAULT_PARTITIONING); Assert.isNotNull(contentTypes); } catch (BadPartitioningException e) { Assert.isTrue(false); } return contentTypes; } @Override public int getLength() { return getStore().getLength(); } @Override public String getLineDelimiter(int line) throws BadLocationException { return getTracker().getLineDelimiter(line); } @Override public String[] getLegalLineDelimiters() { return getTracker().getLegalLineDelimiters(); } @Override public String getDefaultLineDelimiter() { String lineDelimiter= null; try { lineDelimiter= getLineDelimiter(0); } catch (BadLocationException x) { } if (lineDelimiter != null) return lineDelimiter; if (fInitialLineDelimiter != null) return fInitialLineDelimiter; String sysLineDelimiter= System.lineSeparator(); String[] delimiters= getLegalLineDelimiters(); Assert.isTrue(delimiters.length > 0); for (String delimiter : delimiters) { if (delimiter.equals(sysLineDelimiter)) { lineDelimiter= sysLineDelimiter; break; } } if (lineDelimiter == null) lineDelimiter= delimiters[0]; return lineDelimiter; } @Override public void setInitialLineDelimiter(String lineDelimiter) { Assert.isNotNull(lineDelimiter); fInitialLineDelimiter= lineDelimiter; } @Override public int getLineLength(int line) throws BadLocationException { return getTracker().getLineLength(line); } @Override public int getLineOfOffset(int pos) throws BadLocationException { return getTracker().getLineNumberOfOffset(pos); } @Override public int getLineOffset(int line) throws BadLocationException { return getTracker().getLineOffset(line); } @Override public IRegion getLineInformation(int line) throws BadLocationException { return getTracker().getLineInformation(line); } @Override public IRegion getLineInformationOfOffset(int offset) throws BadLocationException { return getTracker().getLineInformationOfOffset(offset); } @Override public int getNumberOfLines() { return getTracker().getNumberOfLines(); } @Override public int getNumberOfLines(int offset, int length) throws BadLocationException { return getTracker().getNumberOfLines(offset, length); } @Override public int computeNumberOfLines(String text) { return getTracker().computeNumberOfLines(text); } @Override public ITypedRegion getPartition(int offset) throws BadLocationException { ITypedRegion partition= null; try { partition= getPartition(DEFAULT_PARTITIONING, offset, false); Assert.isNotNull(partition); } catch (BadPartitioningException e) { Assert.isTrue(false); } return partition; } @Override public ITypedRegion[] computePartitioning(int offset, int length) throws BadLocationException { ITypedRegion[] partitioning= null; try { partitioning= computePartitioning(DEFAULT_PARTITIONING, offset, length, false); Assert.isNotNull(partitioning); } catch (BadPartitioningException e) { Assert.isTrue(false); } return partitioning; } @Override public Position[] getPositions(String category) throws BadPositionCategoryException { if (category == null) throw new BadPositionCategoryException(); List c= fPositions.get(category); if (c == null) throw new BadPositionCategoryException(); Position[] positions= new Position[c.size()]; c.toArray(positions); return positions; } @Override public String[] getPositionCategories() { String[] categories= new String[fPositions.size()]; Iterator keys= fPositions.keySet().iterator(); for (int i= 0; i < categories.length; i++) categories[i]= keys.next(); return categories; } @Override public IPositionUpdater[] getPositionUpdaters() { return fPositionUpdaters.toArray(new IPositionUpdater[fPositionUpdaters.size()]); } @Override public String get() { return getStore().get(0, getLength()); } @Override public String get(int pos, int length) throws BadLocationException { int myLength= getLength(); if ((0 > pos) || (0 > length) || (pos + length > myLength)) throw new BadLocationException(); return getStore().get(pos, length); } @Override public void insertPositionUpdater(IPositionUpdater updater, int index) { for (IPositionUpdater u: fPositionUpdaters) { if (u == updater) { return; } } fPositionUpdaters.add(index, updater); } @Override public void removePosition(String category, Position position) throws BadPositionCategoryException { if (position == null) return; if (category == null) throw new BadPositionCategoryException(); List c= fPositions.get(category); if (c == null) throw new BadPositionCategoryException(); removeFromPositionsList(c, position, true); List endPositions= fEndPositions.get(category); if (endPositions == null) throw new BadPositionCategoryException(); removeFromPositionsList(endPositions, position, false); } /** * Remove the given position form the given list of positions based on identity not equality. * * @param positions a list of positions * @param position the position to remove * @param orderedByOffset true if positions is ordered by offset, false if ordered by end position * @since 3.4 */ private void removeFromPositionsList(List positions, Position position, boolean orderedByOffset) { int size= positions.size(); //Assume position is somewhere near it was before int index= computeIndexInPositionList(positions, orderedByOffset ? position.offset : position.offset + position.length - 1, orderedByOffset); if (index < size && positions.get(index) == position) { positions.remove(index); return; } int back= index - 1; int forth= index + 1; while (back >= 0 || forth < size) { if (back >= 0) { if (position == positions.get(back)) { positions.remove(back); return; } back--; } if (forth < size) { if (position == positions.get(forth)) { positions.remove(forth); return; } forth++; } } } @Override public void removePosition(Position position) { try { removePosition(DEFAULT_CATEGORY, position); } catch (BadPositionCategoryException e) { } } @Override public void removePositionCategory(String category) throws BadPositionCategoryException { if (category == null) return; if ( !containsPositionCategory(category)) throw new BadPositionCategoryException(); fPositions.remove(category); fEndPositions.remove(category); } @Override public void removePositionUpdater(IPositionUpdater updater) { for (int i= fPositionUpdaters.size() - 1; i >= 0; i--) { if (fPositionUpdaters.get(i) == updater) { fPositionUpdaters.remove(i); return; } } } private long getNextModificationStamp() { if (fNextModificationStamp == Long.MAX_VALUE || fNextModificationStamp == IDocumentExtension4.UNKNOWN_MODIFICATION_STAMP) fNextModificationStamp= 0; else fNextModificationStamp= fNextModificationStamp + 1; return fNextModificationStamp; } @Override public long getModificationStamp() { return fModificationStamp; } @Override public void replace(int pos, int length, String text, long modificationStamp) throws BadLocationException { if ((0 > pos) || (0 > length) || (pos + length > getLength())) throw new BadLocationException(); DocumentEvent e= new DocumentEvent(this, pos, length, text); fireDocumentAboutToBeChanged(e); getStore().replace(pos, length, text); getTracker().replace(pos, length, text); fModificationStamp= modificationStamp; fNextModificationStamp= Math.max(fModificationStamp, fNextModificationStamp); e.fModificationStamp= fModificationStamp; fireDocumentChanged(e); } /** * {@inheritDoc} * * @since 3.4 */ @Override public boolean isLineInformationRepairNeeded(int offset, int length, String text) throws BadLocationException { return false; } @Override public void replace(int pos, int length, String text) throws BadLocationException { if (length == 0 && (text == null || text.isEmpty())) replace(pos, length, text, getModificationStamp()); else replace(pos, length, text, getNextModificationStamp()); } @Override public void set(String text) { set(text, getNextModificationStamp()); } @Override public void set(String text, long modificationStamp) { int length= getStore().getLength(); DocumentEvent e= new DocumentEvent(this, 0, length, text); fireDocumentAboutToBeChanged(e); getStore().set(text); getTracker().set(text); fModificationStamp= modificationStamp; fNextModificationStamp= Math.max(fModificationStamp, fNextModificationStamp); e.fModificationStamp= fModificationStamp; fireDocumentChanged(e); } /** * Updates all positions of all categories to the change described by the * document event. All registered document updaters are called in the * sequence they have been arranged. Uses a robust iterator. * * @param event the document event describing the change to which to adapt * the positions */ protected void updatePositions(DocumentEvent event) { for(IPositionUpdater u: fPositionUpdaters) { u.update(event); } } /** * {@inheritDoc} * * @deprecated as of 3.0 search is provided by {@link FindReplaceDocumentAdapter} */ @Deprecated @Override public int search(int startPosition, String findString, boolean forwardSearch, boolean caseSensitive, boolean wholeWord) throws BadLocationException { try { IRegion region= getFindReplaceDocumentAdapter().find(startPosition, findString, forwardSearch, caseSensitive, wholeWord, false); return region == null ? -1 : region.getOffset(); } catch (IllegalStateException ex) { return -1; } catch (PatternSyntaxException ex) { return -1; } } /** * Returns the find/replace adapter for this document. * * @return this document's find/replace document adapter * @since 3.0 */ private FindReplaceDocumentAdapter getFindReplaceDocumentAdapter() { if (fFindReplaceDocumentAdapter == null) fFindReplaceDocumentAdapter= new FindReplaceDocumentAdapter(this); return fFindReplaceDocumentAdapter; } /** * Flushes all registered post notification changes. * * @since 2.0 */ private void flushPostNotificationChanges() { if (fPostNotificationChanges != null) fPostNotificationChanges.clear(); } /** * Executes all registered post notification changes. The process is * repeated until no new post notification changes are added. * * @since 2.0 */ private void executePostNotificationChanges() { if (fStoppedCount > 0) return; while (fPostNotificationChanges != null) { List changes= fPostNotificationChanges; fPostNotificationChanges= null; Iterator e= changes.iterator(); while (e.hasNext()) { RegisteredReplace replace= e.next(); replace.fReplace.perform(this, replace.fOwner); } } } @Override public void acceptPostNotificationReplaces() { fAcceptPostNotificationReplaces= true; } @Override public void ignorePostNotificationReplaces() { fAcceptPostNotificationReplaces= false; } @Override public void registerPostNotificationReplace(IDocumentListener owner, IDocumentExtension.IReplace replace) { if (fAcceptPostNotificationReplaces) { if (fPostNotificationChanges == null) fPostNotificationChanges= new ArrayList<>(1); fPostNotificationChanges.add(new RegisteredReplace(owner, replace)); } } @Override public void stopPostNotificationProcessing() { ++ fStoppedCount; } @Override public void resumePostNotificationProcessing() { -- fStoppedCount; if (fStoppedCount == 0 && fReentranceCount == 0) executePostNotificationChanges(); } /** * {@inheritDoc} * * @since 2.0 * @deprecated since 3.1. Use * {@link IDocumentExtension4#startRewriteSession(DocumentRewriteSessionType)} * instead. */ @Deprecated @Override public void startSequentialRewrite(boolean normalized) { } /** * {@inheritDoc} * * @since 2.0 * @deprecated As of 3.1, replaced by {@link IDocumentExtension4#stopRewriteSession(DocumentRewriteSession)} */ @Deprecated @Override public void stopSequentialRewrite() { } @Override public void resumeListenerNotification() { -- fStoppedListenerNotification; if (fStoppedListenerNotification == 0) { resumeDocumentListenerNotification(); } } @Override public void stopListenerNotification() { ++ fStoppedListenerNotification; } /** * Resumes the document listener notification by sending out the remembered * partition changed and document event. * * @since 2.1 */ private void resumeDocumentListenerNotification() { if (fDeferredDocumentEvent != null) { DocumentEvent event= fDeferredDocumentEvent; fDeferredDocumentEvent= null; doFireDocumentChanged(event); } } /* * @see org.eclipse.jface.text.IDocumentExtension3#computeZeroLengthPartitioning(java.lang.String, int, int) * @since 3.0 */ @Override public ITypedRegion[] computePartitioning(String partitioning, int offset, int length, boolean includeZeroLengthPartitions) throws BadLocationException, BadPartitioningException { if ((0 > offset) || (0 > length) || (offset + length > getLength())) throw new BadLocationException(); IDocumentPartitioner partitioner= getDocumentPartitioner(partitioning); if (partitioner instanceof IDocumentPartitionerExtension2) { checkStateOfPartitioner(partitioner, partitioning); return ((IDocumentPartitionerExtension2) partitioner).computePartitioning(offset, length, includeZeroLengthPartitions); } else if (partitioner != null) { checkStateOfPartitioner(partitioner, partitioning); return partitioner.computePartitioning(offset, length); } else if (DEFAULT_PARTITIONING.equals(partitioning)) return new TypedRegion[] { new TypedRegion(offset, length, DEFAULT_CONTENT_TYPE) }; else throw new BadPartitioningException(); } /* * @see org.eclipse.jface.text.IDocumentExtension3#getZeroLengthContentType(java.lang.String, int) * @since 3.0 */ @Override public String getContentType(String partitioning, int offset, boolean preferOpenPartitions) throws BadLocationException, BadPartitioningException { if ((0 > offset) || (offset > getLength())) throw new BadLocationException(); IDocumentPartitioner partitioner= getDocumentPartitioner(partitioning); if (partitioner instanceof IDocumentPartitionerExtension2) { checkStateOfPartitioner(partitioner, partitioning); return ((IDocumentPartitionerExtension2) partitioner).getContentType(offset, preferOpenPartitions); } else if (partitioner != null) { checkStateOfPartitioner(partitioner, partitioning); return partitioner.getContentType(offset); } else if (DEFAULT_PARTITIONING.equals(partitioning)) return DEFAULT_CONTENT_TYPE; else throw new BadPartitioningException(); } @Override public IDocumentPartitioner getDocumentPartitioner(String partitioning) { return fDocumentPartitioners != null ? fDocumentPartitioners.get(partitioning) : null; } @Override public String[] getLegalContentTypes(String partitioning) throws BadPartitioningException { IDocumentPartitioner partitioner= getDocumentPartitioner(partitioning); if (partitioner != null) return partitioner.getLegalContentTypes(); if (DEFAULT_PARTITIONING.equals(partitioning)) return new String[] { DEFAULT_CONTENT_TYPE }; throw new BadPartitioningException(); } /* * @see org.eclipse.jface.text.IDocumentExtension3#getZeroLengthPartition(java.lang.String, int) * @since 3.0 */ @Override public ITypedRegion getPartition(String partitioning, int offset, boolean preferOpenPartitions) throws BadLocationException, BadPartitioningException { if ((0 > offset) || (offset > getLength())) throw new BadLocationException(); IDocumentPartitioner partitioner= getDocumentPartitioner(partitioning); if (partitioner instanceof IDocumentPartitionerExtension2) { checkStateOfPartitioner(partitioner, partitioning); return ((IDocumentPartitionerExtension2) partitioner).getPartition(offset, preferOpenPartitions); } else if (partitioner != null) { checkStateOfPartitioner(partitioner, partitioning); return partitioner.getPartition(offset); } else if (DEFAULT_PARTITIONING.equals(partitioning)) return new TypedRegion(0, getLength(), DEFAULT_CONTENT_TYPE); else throw new BadPartitioningException(); } @Override public String[] getPartitionings() { if (fDocumentPartitioners == null) return new String[0]; String[] partitionings= new String[fDocumentPartitioners.size()]; fDocumentPartitioners.keySet().toArray(partitionings); return partitionings; } @Override public void setDocumentPartitioner(String partitioning, IDocumentPartitioner partitioner) { if (partitioner == null) { if (fDocumentPartitioners != null) { fDocumentPartitioners.remove(partitioning); if (fDocumentPartitioners.isEmpty()) fDocumentPartitioners= null; } } else { if (fDocumentPartitioners == null) fDocumentPartitioners= new HashMap<>(); fDocumentPartitioners.put(partitioning, partitioner); } DocumentPartitioningChangedEvent event= new DocumentPartitioningChangedEvent(this); event.setPartitionChange(partitioning, 0, getLength()); fireDocumentPartitioningChanged(event); } @Override public void repairLineInformation() { getTracker().set(get()); } /** * Fires the given event to all registered rewrite session listeners. Uses robust iterators. * * @param event the event to be fired * @since 3.1 */ protected void fireRewriteSessionChanged(DocumentRewriteSessionEvent event) { if (!fDocumentRewriteSessionListeners.isEmpty()) { List list= new ArrayList<>(fDocumentRewriteSessionListeners); Iterator e= list.iterator(); while (e.hasNext()) { try { IDocumentRewriteSessionListener l= e.next(); l.documentRewriteSessionChanged(event); } catch (Exception ex) { log(ex); } } } } @Override public final DocumentRewriteSession getActiveRewriteSession() { return fDocumentRewriteSession; } @Override public DocumentRewriteSession startRewriteSession(DocumentRewriteSessionType sessionType) { if (getActiveRewriteSession() != null) throw new IllegalStateException(); fDocumentRewriteSession= new DocumentRewriteSession(sessionType); if (DEBUG) System.out.println("AbstractDocument: Starting rewrite session: " + fDocumentRewriteSession); //$NON-NLS-1$ fireRewriteSessionChanged(new DocumentRewriteSessionEvent(this, fDocumentRewriteSession, DocumentRewriteSessionEvent.SESSION_START)); startRewriteSessionOnPartitioners(fDocumentRewriteSession); ILineTracker tracker= getTracker(); if (tracker instanceof ILineTrackerExtension) { ILineTrackerExtension extension= (ILineTrackerExtension) tracker; extension.startRewriteSession(fDocumentRewriteSession); } if (DocumentRewriteSessionType.SEQUENTIAL == sessionType) startSequentialRewrite(false); else if (DocumentRewriteSessionType.STRICTLY_SEQUENTIAL == sessionType) startSequentialRewrite(true); return fDocumentRewriteSession; } /** * Starts the given rewrite session. * * @param session the rewrite session * @since 3.1 */ protected final void startRewriteSessionOnPartitioners(DocumentRewriteSession session) { if (fDocumentPartitioners != null) { Iterator e= fDocumentPartitioners.values().iterator(); while (e.hasNext()) { Object partitioner= e.next(); if (partitioner instanceof IDocumentPartitionerExtension3) { IDocumentPartitionerExtension3 extension= (IDocumentPartitionerExtension3) partitioner; extension.startRewriteSession(session); } } } } @Override public void stopRewriteSession(DocumentRewriteSession session) { if (fDocumentRewriteSession != null && fDocumentRewriteSession == session) { if (DEBUG) System.out.println("AbstractDocument: Stopping rewrite session: " + session); //$NON-NLS-1$ DocumentRewriteSessionType sessionType= session.getSessionType(); if (DocumentRewriteSessionType.SEQUENTIAL == sessionType || DocumentRewriteSessionType.STRICTLY_SEQUENTIAL == sessionType) stopSequentialRewrite(); ILineTracker tracker= getTracker(); if (tracker instanceof ILineTrackerExtension) { ILineTrackerExtension extension= (ILineTrackerExtension) tracker; extension.stopRewriteSession(session, get()); } stopRewriteSessionOnPartitioners(fDocumentRewriteSession); fDocumentRewriteSession= null; fireRewriteSessionChanged(new DocumentRewriteSessionEvent(this, session, DocumentRewriteSessionEvent.SESSION_STOP)); } } /** * Stops the given rewrite session. * * @param session the rewrite session * @since 3.1 */ protected final void stopRewriteSessionOnPartitioners(DocumentRewriteSession session) { if (fDocumentPartitioners != null) { DocumentPartitioningChangedEvent event= new DocumentPartitioningChangedEvent(this); for (Entry entry : fDocumentPartitioners.entrySet()) { String partitioning = entry.getKey(); IDocumentPartitioner partitioner= entry.getValue(); if (partitioner instanceof IDocumentPartitionerExtension3) { IDocumentPartitionerExtension3 extension= (IDocumentPartitionerExtension3) partitioner; extension.stopRewriteSession(session); event.setPartitionChange(partitioning, 0, getLength()); } } if (!event.isEmpty()) fireDocumentPartitioningChanged(event); } } @Override public void addDocumentRewriteSessionListener(IDocumentRewriteSessionListener listener) { Assert.isNotNull(listener); if (! fDocumentRewriteSessionListeners.contains(listener)) fDocumentRewriteSessionListeners.add(listener); } @Override public void removeDocumentRewriteSessionListener(IDocumentRewriteSessionListener listener) { Assert.isNotNull(listener); fDocumentRewriteSessionListeners.remove(listener); } /** * Checks the state for the given partitioner and stops the * active rewrite session. * * @param partitioner the document partitioner to be checked * @param partitioning the document partitioning the partitioner is registered for * @since 3.1 */ protected final void checkStateOfPartitioner(IDocumentPartitioner partitioner, String partitioning) { if (!(partitioner instanceof IDocumentPartitionerExtension3)) return; IDocumentPartitionerExtension3 extension= (IDocumentPartitionerExtension3) partitioner; DocumentRewriteSession session= extension.getActiveRewriteSession(); if (session != null) { extension.stopRewriteSession(session); if (DEBUG) System.out.println("AbstractDocument: Flushing rewrite session for partition type: " + partitioning); //$NON-NLS-1$ DocumentPartitioningChangedEvent event= new DocumentPartitioningChangedEvent(this); event.setPartitionChange(partitioning, 0, getLength()); fireDocumentPartitioningChanged(event); } } /** * Returns all positions of the given category that are inside the given region. * * @param category the position category * @param offset the start position of the region, must be >= 0 * @param length the length of the region, must be >= 0 * @param canStartBefore if true then positions are included * which start before the region if they end at or after the regions start * @param canEndAfter if true then positions are included * which end after the region if they start at or before the regions end * @return all positions inside the region of the given category * @throws BadPositionCategoryException if category is undefined in this document * @since 3.4 */ public Position[] getPositions(String category, int offset, int length, boolean canStartBefore, boolean canEndAfter) throws BadPositionCategoryException { if (canStartBefore && canEndAfter || (!canStartBefore && !canEndAfter)) { List documentPositions; if (canStartBefore && canEndAfter) { if (offset < getLength() / 2) { documentPositions= getStartingPositions(category, 0, offset + length); } else { documentPositions= getEndingPositions(category, offset, getLength() - offset + 1); } } else { documentPositions= getStartingPositions(category, offset, length); } ArrayList list= new ArrayList<>(documentPositions.size()); Position region= new Position(offset, length); for (Position position : documentPositions) { if (isWithinRegion(region, position, canStartBefore, canEndAfter)) { list.add(position); } } Position[] positions= new Position[list.size()]; list.toArray(positions); return positions; } else if (canStartBefore) { List list= getEndingPositions(category, offset, length); Position[] positions= new Position[list.size()]; list.toArray(positions); return positions; } else { Assert.isLegal(canEndAfter && !canStartBefore); List list= getStartingPositions(category, offset, length); Position[] positions= new Position[list.size()]; list.toArray(positions); return positions; } } /* * @since 3.4 */ private boolean isWithinRegion(Position region, Position position, boolean canStartBefore, boolean canEndAfter) { if (canStartBefore && canEndAfter) { return region.overlapsWith(position.getOffset(), position.getLength()); } else if (canStartBefore) { return region.includes(position.getOffset() + position.getLength() - 1); } else if (canEndAfter) { return region.includes(position.getOffset()); } else { int start= position.getOffset(); return region.includes(start) && region.includes(start + position.getLength() - 1); } } /** * A list of positions in the given category with an offset inside the given * region. The order of the positions is arbitrary. * * @param category the position category * @param offset the offset of the region * @param length the length of the region * @return a list of the positions in the region * @throws BadPositionCategoryException if category is undefined in this document * @since 3.4 */ private List getStartingPositions(String category, int offset, int length) throws BadPositionCategoryException { List positions= fPositions.get(category); if (positions == null) throw new BadPositionCategoryException(); int indexStart= computeIndexInPositionList(positions, offset, true); int indexEnd= computeIndexInPositionList(positions, offset + length, true); return positions.subList(indexStart, indexEnd); } /** * A list of positions in the given category with an end position inside * the given region. The order of the positions is arbitrary. * * @param category the position category * @param offset the offset of the region * @param length the length of the region * @return a list of the positions in the region * @throws BadPositionCategoryException if category is undefined in this document * @since 3.4 */ private List getEndingPositions(String category, int offset, int length) throws BadPositionCategoryException { List positions= fEndPositions.get(category); if (positions == null) throw new BadPositionCategoryException(); int indexStart= computeIndexInPositionList(positions, offset, false); int indexEnd= computeIndexInPositionList(positions, offset + length, false); return positions.subList(indexStart, indexEnd); } /** * Logs the given exception by reusing the code in {@link SafeRunner}. * * @param ex the exception * @since 3.6 */ private static void log(final Exception ex) { SafeRunner.run(new ISafeRunnable() { @Override public void run() throws Exception { throw ex; } @Override public void handleException(Throwable exception) { // NOTE: Logging is done by SafeRunner } }); } }





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