/******************************************************************************* * Copyright (c) 2000, 2003 IBM Corporation and others. * All rights reserved. This program and the accompanying materials * are made available under the terms of the Common Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/cpl-v10.html * * Contributors: * IBM Corporation - initial API and implementation *******************************************************************************/ package net.sourceforge.phpdt.internal.core; import java.util.ArrayList; import java.util.HashMap; import java.util.Iterator; import java.util.Map; import net.sourceforge.phpdt.core.IJavaElement; import net.sourceforge.phpdt.core.IJavaElementDelta; import net.sourceforge.phpdt.core.IParent; import net.sourceforge.phpdt.core.JavaModelException; import net.sourceforge.phpdt.core.compiler.CharOperation; /** * A java element delta biulder creates a java element delta on a java element * between the version of the java element at the time the comparator was * created and the current version of the java element. * * It performs this operation by locally caching the contents of the java * element when it is created. When the method createDeltas() is called, it * creates a delta over the cached contents and the new contents. */ public class JavaElementDeltaBuilder { /** * The java element handle */ IJavaElement javaElement; /** * The maximum depth in the java element children we should look into */ int maxDepth = Integer.MAX_VALUE; /** * The old handle to info relationships */ Map infos; /** * The old position info */ Map oldPositions; /** * The new position info */ Map newPositions; /** * Change delta */ JavaElementDelta delta; /** * List of added elements */ ArrayList added; /** * List of removed elements */ ArrayList removed; /** * Doubly linked list item */ class ListItem { public IJavaElement previous; public IJavaElement next; public ListItem(IJavaElement previous, IJavaElement next) { this.previous = previous; this.next = next; } } /** * Creates a java element comparator on a java element looking as deep as * necessary. */ public JavaElementDeltaBuilder(IJavaElement javaElement) { this.javaElement = javaElement; this.initialize(); this.recordElementInfo(javaElement, (JavaModel) this.javaElement .getJavaModel(), 0); } /** * Creates a java element comparator on a java element looking only * 'maxDepth' levels deep. */ // public JavaElementDeltaBuilder(IJavaElement javaElement, int maxDepth) { // this.javaElement = javaElement; // this.maxDepth = maxDepth; // this.initialize(); // this.recordElementInfo(javaElement, (JavaModel) this.javaElement // .getJavaModel(), 0); // } /** * Repairs the positioning information after an element has been added */ private void added(IJavaElement element) { this.added.add(element); ListItem current = this.getNewPosition(element); ListItem previous = null, next = null; if (current.previous != null) previous = this.getNewPosition(current.previous); if (current.next != null) next = this.getNewPosition(current.next); if (previous != null) previous.next = current.next; if (next != null) next.previous = current.previous; } /** * Builds the java element deltas between the old content of the compilation * unit and its new content. */ public void buildDeltas() { this.recordNewPositions(this.javaElement, 0); this.findAdditions(this.javaElement, 0); this.findDeletions(); this.findChangesInPositioning(this.javaElement, 0); this.trimDelta(this.delta); if (this.delta.getAffectedChildren().length == 0) { // this is a fine grained but not children affected -> mark as // content changed this.delta.contentChanged(); } } /** * Finds elements which have been added or changed. */ private void findAdditions(IJavaElement newElement, int depth) { JavaElementInfo oldInfo = this.getElementInfo(newElement); if (oldInfo == null && depth < this.maxDepth) { this.delta.added(newElement); added(newElement); } else { this.removeElementInfo(newElement); } if (depth >= this.maxDepth) { // mark element as changed this.delta.changed(newElement, IJavaElementDelta.F_CONTENT); return; } JavaElementInfo newInfo = null; try { newInfo = (JavaElementInfo) ((JavaElement) newElement) .getElementInfo(); } catch (JavaModelException npe) { return; } this.findContentChange(oldInfo, newInfo, newElement); if (oldInfo != null && newElement instanceof IParent) { IJavaElement[] children = newInfo.getChildren(); if (children != null) { int length = children.length; for (int i = 0; i < length; i++) { this.findAdditions(children[i], depth + 1); } } } } /** * Looks for changed positioning of elements. */ private void findChangesInPositioning(IJavaElement element, int depth) { if (depth >= this.maxDepth || this.added.contains(element) || this.removed.contains(element)) return; if (!isPositionedCorrectly(element)) { this.delta.changed(element, IJavaElementDelta.F_REORDER); } if (element instanceof IParent) { JavaElementInfo info = null; try { info = (JavaElementInfo) ((JavaElement) element) .getElementInfo(); } catch (JavaModelException npe) { return; } IJavaElement[] children = info.getChildren(); if (children != null) { int length = children.length; for (int i = 0; i < length; i++) { this.findChangesInPositioning(children[i], depth + 1); } } } } /** * The elements are equivalent, but might have content changes. */ private void findContentChange(JavaElementInfo oldInfo, JavaElementInfo newInfo, IJavaElement newElement) { if (oldInfo instanceof MemberElementInfo && newInfo instanceof MemberElementInfo) { if (((MemberElementInfo) oldInfo).getModifiers() != ((MemberElementInfo) newInfo) .getModifiers()) { this.delta.changed(newElement, IJavaElementDelta.F_MODIFIERS); } else if (oldInfo instanceof SourceMethodElementInfo && newInfo instanceof SourceMethodElementInfo) { if (!CharOperation .equals(((SourceMethodElementInfo) oldInfo) .getReturnTypeName(), ((SourceMethodElementInfo) newInfo) .getReturnTypeName())) { this.delta.changed(newElement, IJavaElementDelta.F_CONTENT); } } else if (oldInfo instanceof SourceFieldElementInfo && newInfo instanceof SourceFieldElementInfo) { if (!CharOperation.equals(((SourceFieldElementInfo) oldInfo) .getTypeName(), ((SourceFieldElementInfo) newInfo) .getTypeName())) { this.delta.changed(newElement, IJavaElementDelta.F_CONTENT); } } } if (oldInfo instanceof SourceTypeElementInfo && newInfo instanceof SourceTypeElementInfo) { SourceTypeElementInfo oldSourceTypeInfo = (SourceTypeElementInfo) oldInfo; SourceTypeElementInfo newSourceTypeInfo = (SourceTypeElementInfo) newInfo; if (!CharOperation.equals(oldSourceTypeInfo.getSuperclassName(), newSourceTypeInfo.getSuperclassName()) || !CharOperation.equals(oldSourceTypeInfo .getInterfaceNames(), newSourceTypeInfo .getInterfaceNames())) { this.delta.changed(newElement, IJavaElementDelta.F_SUPER_TYPES); } } } /** * Adds removed deltas for any handles left in the table */ private void findDeletions() { Iterator iter = this.infos.keySet().iterator(); while (iter.hasNext()) { IJavaElement element = (IJavaElement) iter.next(); this.delta.removed(element); this.removed(element); } } private JavaElementInfo getElementInfo(IJavaElement element) { return (JavaElementInfo) this.infos.get(element); } private ListItem getNewPosition(IJavaElement element) { return (ListItem) this.newPositions.get(element); } private ListItem getOldPosition(IJavaElement element) { return (ListItem) this.oldPositions.get(element); } private void initialize() { this.infos = new HashMap(20); this.oldPositions = new HashMap(20); this.newPositions = new HashMap(20); this.putOldPosition(this.javaElement, new ListItem(null, null)); this.putNewPosition(this.javaElement, new ListItem(null, null)); this.delta = new JavaElementDelta(javaElement); // if building a delta on a compilation unit or below, // it's a fine grained delta if (javaElement.getElementType() >= IJavaElement.COMPILATION_UNIT) { this.delta.fineGrained(); } this.added = new ArrayList(5); this.removed = new ArrayList(5); } /** * Inserts position information for the elements into the new or old * positions table */ private void insertPositions(IJavaElement[] elements, boolean isNew) { int length = elements.length; IJavaElement previous = null, current = null, next = (length > 0) ? elements[0] : null; for (int i = 0; i < length; i++) { previous = current; current = next; next = (i + 1 < length) ? elements[i + 1] : null; if (isNew) { this.putNewPosition(current, new ListItem(previous, next)); } else { this.putOldPosition(current, new ListItem(previous, next)); } } } /** * Returns whether the elements position has not changed. */ private boolean isPositionedCorrectly(IJavaElement element) { ListItem oldListItem = this.getOldPosition(element); if (oldListItem == null) return false; ListItem newListItem = this.getNewPosition(element); if (newListItem == null) return false; IJavaElement oldPrevious = oldListItem.previous; IJavaElement newPrevious = newListItem.previous; if (oldPrevious == null) { return newPrevious == null; } else { return oldPrevious.equals(newPrevious); } } private void putElementInfo(IJavaElement element, JavaElementInfo info) { this.infos.put(element, info); } private void putNewPosition(IJavaElement element, ListItem position) { this.newPositions.put(element, position); } private void putOldPosition(IJavaElement element, ListItem position) { this.oldPositions.put(element, position); } /** * Records this elements info, and attempts to record the info for the * children. */ private void recordElementInfo(IJavaElement element, JavaModel model, int depth) { if (depth >= this.maxDepth) { return; } JavaElementInfo info = (JavaElementInfo) JavaModelManager .getJavaModelManager().getInfo(element); if (info == null) // no longer in the java model. return; this.putElementInfo(element, info); if (element instanceof IParent) { IJavaElement[] children = info.getChildren(); if (children != null) { insertPositions(children, false); for (int i = 0, length = children.length; i < length; i++) recordElementInfo(children[i], model, depth + 1); } } } /** * Fills the newPositions hashtable with the new position information */ private void recordNewPositions(IJavaElement newElement, int depth) { if (depth < this.maxDepth && newElement instanceof IParent) { JavaElementInfo info = null; try { info = (JavaElementInfo) ((JavaElement) newElement) .getElementInfo(); } catch (JavaModelException npe) { return; } IJavaElement[] children = info.getChildren(); if (children != null) { insertPositions(children, true); for (int i = 0, length = children.length; i < length; i++) { recordNewPositions(children[i], depth + 1); } } } } /** * Repairs the positioning information after an element has been removed */ private void removed(IJavaElement element) { this.removed.add(element); ListItem current = this.getOldPosition(element); ListItem previous = null, next = null; if (current.previous != null) previous = this.getOldPosition(current.previous); if (current.next != null) next = this.getOldPosition(current.next); if (previous != null) previous.next = current.next; if (next != null) next.previous = current.previous; } private void removeElementInfo(IJavaElement element) { this.infos.remove(element); } public String toString() { StringBuffer buffer = new StringBuffer(); buffer.append("Built delta:\n"); //$NON-NLS-1$ buffer.append(this.delta.toString()); return buffer.toString(); } /** * Trims deletion deltas to only report the highest level of deletion */ private void trimDelta(JavaElementDelta delta) { if (delta.getKind() == IJavaElementDelta.REMOVED) { IJavaElementDelta[] children = delta.getAffectedChildren(); for (int i = 0, length = children.length; i < length; i++) { delta.removeAffectedChild((JavaElementDelta) children[i]); } } else { IJavaElementDelta[] children = delta.getAffectedChildren(); for (int i = 0, length = children.length; i < length; i++) { trimDelta((JavaElementDelta) children[i]); } } } }