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Source code of the class AsmManager.java part of aspectjweaver version 1.8.9

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        /* *******************************************************************
 * Copyright (c) 2003 Contributors.
 * All rights reserved. 
 * This program and the accompanying materials are made available 
 * under the terms of the Eclipse Public License v1.0 
 * which accompanies this distribution and is available at 
 * http://www.eclipse.org/legal/epl-v10.html 
 *  
 * Contributors: 
 *     Mik Kersten     initial implementation 
 *    Andy Clement     incremental support and switch on/off state
 * ******************************************************************/

package org.aspectj.asm;

import java.io.BufferedWriter;
import java.io.EOFException;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.FileOutputStream;
import java.io.FileWriter;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Writer;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Hashtable;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Properties;
import java.util.Set;

import org.aspectj.asm.internal.AspectJElementHierarchy;
import org.aspectj.asm.internal.HandleProviderDelimiter;
import org.aspectj.asm.internal.JDTLikeHandleProvider;
import org.aspectj.asm.internal.RelationshipMap;
import org.aspectj.bridge.ISourceLocation;
import org.aspectj.util.IStructureModel;

/**
 * The Abstract Structure Model (ASM) represents the containment hierarchy and crosscutting structure map for AspectJ programs. It
 * is used by IDE views such as the document outline, and by other tools such as ajdoc to show both AspectJ declarations and
 * crosscutting links, such as which advice affects which join point shadows.
 * 
 * @author Mik Kersten
 * @author Andy Clement
 */
public class AsmManager implements IStructureModel {

	// For testing ONLY
	public static boolean recordingLastActiveStructureModel = true;
	public static AsmManager lastActiveStructureModel;
	public static boolean forceSingletonBehaviour = false;

	// SECRETAPI asc pull the secret options together into a system API you lazy fool
	public static boolean attemptIncrementalModelRepairs = false;
	// Dumping the model is expensive
	public static boolean dumpModelPostBuild = false;
	// For offline debugging, you can now ask for the AsmManager to
	// dump the model - see the method setReporting()
	private static boolean dumpModel = false;
	private static boolean dumpRelationships = false;
	private static boolean dumpDeltaProcessing = false;
	private static IModelFilter modelFilter = null;
	private static String dumpFilename = "";
	private static boolean reporting = false;

	private static boolean completingTypeBindings = false;

	private final List structureListeners = new ArrayList();

	// The model is 'manipulated' by the AjBuildManager.setupModel() code which
	// trashes all the
	// fields when setting up a new model for a batch build.
	// Due to the requirements of incremental compilation we need to tie some of
	// the info
	// below to the AjState for a compilation and recover it if switching
	// between projects.
	protected IHierarchy hierarchy;

	/*
	 * Map from String > String - it maps absolute paths for inpath dirs/jars to workspace relative paths suitable for handle
	 * inclusion
	 */
	protected Map inpathMap;
	private IRelationshipMap mapper;
	private IElementHandleProvider handleProvider;

	private final CanonicalFilePathMap canonicalFilePathMap = new CanonicalFilePathMap();
	// Record the Set for which the model has been modified during the
	// last incremental build
	private final Set lastBuildChanges = new HashSet();

	// Record the Set of aspects that wove the files listed in lastBuildChanges
	final Set aspectsWeavingInLastBuild = new HashSet();

	// static {
	// setReporting("c:/model.nfo",true,true,true,true);
	// }

	private AsmManager() {
	}

	public static AsmManager createNewStructureModel(Map inpathMap) {
		if (forceSingletonBehaviour && lastActiveStructureModel != null) {
			return lastActiveStructureModel;
		}
		AsmManager asm = new AsmManager();
		asm.inpathMap = inpathMap;
		asm.hierarchy = new AspectJElementHierarchy(asm);
		asm.mapper = new RelationshipMap();
		asm.handleProvider = new JDTLikeHandleProvider(asm);
		// call initialize on the handleProvider when we create a new ASM
		// to give handleProviders the chance to reset any state
		asm.handleProvider.initialize();
		asm.resetDeltaProcessing();
		setLastActiveStructureModel(asm);
		return asm;
	}

	public IHierarchy getHierarchy() {
		return hierarchy;
	}

	public IRelationshipMap getRelationshipMap() {
		return mapper;
	}

	public void fireModelUpdated() {
		notifyListeners();
		if (dumpModelPostBuild && hierarchy.getConfigFile() != null) {
			writeStructureModel(hierarchy.getConfigFile());
		}
	}

	/**
	 * Constructs map each time it's called.
	 */
	public HashMap> getInlineAnnotations(String sourceFile, boolean showSubMember,
			boolean showMemberAndType) {

		if (!hierarchy.isValid()) {
			return null;
		}

		HashMap> annotations = new HashMap>();
		IProgramElement node = hierarchy.findElementForSourceFile(sourceFile);
		if (node == IHierarchy.NO_STRUCTURE) {
			return null;
		} else {
			IProgramElement fileNode = node;
			ArrayList peNodes = new ArrayList();
			getAllStructureChildren(fileNode, peNodes, showSubMember, showMemberAndType);
			for (Iterator it = peNodes.iterator(); it.hasNext();) {
				IProgramElement peNode = it.next();
				List entries = new ArrayList();
				entries.add(peNode);
				ISourceLocation sourceLoc = peNode.getSourceLocation();
				if (null != sourceLoc) {
					Integer hash = new Integer(sourceLoc.getLine());
					List existingEntry = annotations.get(hash);
					if (existingEntry != null) {
						entries.addAll(existingEntry);
					}
					annotations.put(hash, entries);
				}
			}
			return annotations;
		}
	}

	private void getAllStructureChildren(IProgramElement node, List result, boolean showSubMember,
			boolean showMemberAndType) {
		List children = node.getChildren();
		if (node.getChildren() == null) {
			return;
		}
		for (IProgramElement next : children) {
			List rels = mapper.get(next);
			if (next != null
					&& ((next.getKind() == IProgramElement.Kind.CODE && showSubMember) || (next.getKind() != IProgramElement.Kind.CODE && showMemberAndType))
					&& rels != null && rels.size() > 0) {
				result.add(next);
			}
			getAllStructureChildren(next, result, showSubMember, showMemberAndType);
		}
	}

	public void addListener(IHierarchyListener listener) {
		structureListeners.add(listener);
	}

	public void removeStructureListener(IHierarchyListener listener) {
		structureListeners.remove(listener);
	}

	// this shouldn't be needed - but none of the people that add listeners
	// in the test suite ever remove them. AMC added this to be called in
	// setup() so that the test cases would cease leaking listeners and go
	// back to executing at a reasonable speed.
	public void removeAllListeners() {
		structureListeners.clear();
	}

	private void notifyListeners() {
		for (IHierarchyListener listener : structureListeners) {
			listener.elementsUpdated(hierarchy);
		}
	}

	public IElementHandleProvider getHandleProvider() {
		return handleProvider;
	}

	public void setHandleProvider(IElementHandleProvider handleProvider) {
		this.handleProvider = handleProvider;
	}

	public void writeStructureModel(String configFilePath) {
		try {
			String filePath = genExternFilePath(configFilePath);
			FileOutputStream fos = new FileOutputStream(filePath);
			ObjectOutputStream s = new ObjectOutputStream(fos);
			s.writeObject(hierarchy); // Store the program element tree
			s.writeObject(mapper); // Store the relationships
			s.flush();
			fos.flush();
			fos.close();
			s.close();
		} catch (IOException e) {
			// System.err.println("AsmManager: Unable to write structure model: "
			// +configFilePath+" because of:");
			// e.printStackTrace();
		}
	}

	/**
	 * @param configFilePath path to an ".lst" file
	 */
	public void readStructureModel(String configFilePath) {
		boolean hierarchyReadOK = false;
		try {
			if (configFilePath == null) {
				hierarchy.setRoot(IHierarchy.NO_STRUCTURE);
			} else {
				String filePath = genExternFilePath(configFilePath);
				FileInputStream in = new FileInputStream(filePath);
				ObjectInputStream s = new ObjectInputStream(in);
				hierarchy = (AspectJElementHierarchy) s.readObject();
				((AspectJElementHierarchy) hierarchy).setAsmManager(this);
				hierarchyReadOK = true;
				mapper = (RelationshipMap) s.readObject();
				s.close();
			}
		} catch (FileNotFoundException fnfe) {
			// That is OK
			hierarchy.setRoot(IHierarchy.NO_STRUCTURE);
		} catch (EOFException eofe) {
			// Might be an old format sym file that is missing its relationships
			if (!hierarchyReadOK) {
				System.err.println("AsmManager: Unable to read structure model: " + configFilePath + " because of:");
				eofe.printStackTrace();
				hierarchy.setRoot(IHierarchy.NO_STRUCTURE);
			}
		} catch (Exception e) {
			// System.err.println("AsmManager: Unable to read structure model: "+
			// configFilePath+" because of:");
			// e.printStackTrace();
			hierarchy.setRoot(IHierarchy.NO_STRUCTURE);
		} finally {
			notifyListeners();
		}
	}

	private String genExternFilePath(String configFilePath) {
		// sometimes don't have ".lst"
		if (configFilePath.lastIndexOf(".lst") != -1) {
			configFilePath = configFilePath.substring(0, configFilePath.lastIndexOf(".lst"));
		}
		return configFilePath + ".ajsym";
	}

	public String getCanonicalFilePath(File f) {
		return canonicalFilePathMap.get(f);
	}
	
	public CanonicalFilePathMap getCanonicalFilePathMap() {
		return canonicalFilePathMap;
	}

	private static class CanonicalFilePathMap {
		private static final int MAX_SIZE = 4000;

		private final Map pathMap = new HashMap(20);

		// // guards to ensure correctness and liveness
		// private boolean cacheInUse = false;
		// private boolean stopRequested = false;
		//
		// private synchronized boolean isCacheInUse() {
		// return cacheInUse;
		// }
		//
		// private synchronized void setCacheInUse(boolean val) {
		// cacheInUse = val;
		// if (val) {
		// notifyAll();
		// }
		// }
		//
		// private synchronized boolean isStopRequested() {
		// return stopRequested;
		// }
		//
		// private synchronized void requestStop() {
		// stopRequested = true;
		// }
		//
		// /**
		// * Begin prepopulating the map by adding an entry from
		// * file.getPath -> file.getCanonicalPath for each file in
		// * the list. Do this on a background thread.
		// * @param files
		// */
		// public void prepopulate(final List files) {
		// stopRequested = false;
		// setCacheInUse(false);
		// if (pathMap.size() > MAX_SIZE) {
		// pathMap.clear();
		// }
		// new Thread() {
		// public void run() {
		// System.out.println("Starting cache population: " +
		// System.currentTimeMillis());
		// Iterator it = files.iterator();
		// while (!isStopRequested() && it.hasNext()) {
		// File f = (File)it.next();
		// if (pathMap.get(f.getPath()) == null) {
		// // may reuse cache across compiles from ides...
		// try {
		// pathMap.put(f.getPath(),f.getCanonicalPath());
		// } catch (IOException ex) {
		// pathMap.put(f.getPath(),f.getPath());
		// }
		// }
		// }
		// System.out.println("Cached " + files.size());
		// setCacheInUse(true);
		// System.out.println("Cache populated: " + System.currentTimeMillis());
		// }
		// }.start();
		// }
		//
		// /**
		// * Stop pre-populating the cache - our customers are ready to use it.
		// * If there are any cache misses from this point on, we'll populate
		// the
		// * cache as we go.
		// * The handover is done this way to ensure that only one thread is
		// ever
		// * accessing the cache, and that we minimize synchronization.
		// */
		// public synchronized void handover() {
		// if (!isCacheInUse()) {
		// requestStop();
		// try {
		// while (!isCacheInUse()) wait();
		// } catch (InterruptedException intEx) { } // just continue
		// }
		// }

		public String get(File f) {
			// if (!cacheInUse) { // unsynchronized test - should never be
			// parallel
			// // threads at this point
			// throw new IllegalStateException(
			// "Must take ownership of cache before using by calling " +
			// "handover()");
			// }
			String ret = pathMap.get(f.getPath());
			if (ret == null) {
				try {
					ret = f.getCanonicalPath();
				} catch (IOException ioEx) {
					ret = f.getPath();
				}
				pathMap.put(f.getPath(), ret);
				if (pathMap.size() > MAX_SIZE) {
					pathMap.clear();
				}
			}
			return ret;
		}
	}

	// SECRETAPI
	public static void setReporting(String filename, boolean dModel, boolean dRels, boolean dDeltaProcessing, boolean deletefile) {
		reporting = true;
		dumpModel = dModel;
		dumpRelationships = dRels;
		dumpDeltaProcessing = dDeltaProcessing;
		if (deletefile) {
			new File(filename).delete();
		}
		dumpFilename = filename;
	}

	public static void setReporting(String filename, boolean dModel, boolean dRels, boolean dDeltaProcessing, boolean deletefile,
			IModelFilter aFilter) {
		setReporting(filename, dModel, dRels, dDeltaProcessing, deletefile);
		modelFilter = aFilter;
	}

	public static boolean isReporting() {
		return reporting;
	}

	public static void setDontReport() {
		reporting = false;
		dumpDeltaProcessing = false;
		dumpModel = false;
		dumpRelationships = false;
	}

	// NB. If the format of this report changes then the model tests
	// (@see org.aspectj.systemtest.model.ModelTestCase) will fail in
	// their comparison. The tests are assuming that both the model
	// and relationship map are reported and as a consequence single
	// testcases test that both the model and relationship map are correct.
	public void reportModelInfo(String reasonForReport) {
		if (!dumpModel && !dumpRelationships) {
			return;
		}
		try {
			FileWriter fw = new FileWriter(dumpFilename, true);
			BufferedWriter bw = new BufferedWriter(fw);
			if (dumpModel) {
				bw.write("=== MODEL STATUS REPORT ========= " + reasonForReport + "\n");
				dumptree(bw, hierarchy.getRoot(), 0);

				bw.write("=== END OF MODEL REPORT =========\n");
			}
			if (dumpRelationships) {
				bw.write("=== RELATIONSHIPS REPORT ========= " + reasonForReport + "\n");
				dumprels(bw);
				bw.write("=== END OF RELATIONSHIPS REPORT ==\n");
			}
			Properties p = summarizeModel().getProperties();
			Enumeration pkeyenum = p.keys();
			bw.write("=== Properties of the model and relationships map =====\n");
			while (pkeyenum.hasMoreElements()) {
				String pkey = (String) pkeyenum.nextElement();
				bw.write(pkey + "=" + p.getProperty(pkey) + "\n");
			}
			bw.flush();
			fw.close();
		} catch (IOException e) {
			System.err.println("InternalError: Unable to report model information:");
			e.printStackTrace();
		}
	}

	public static void dumptree(Writer w, IProgramElement node, int indent) throws IOException {
		for (int i = 0; i < indent; i++) {
			w.write(" ");
		}
		String loc = "";
		if (node != null) {
			if (node.getSourceLocation() != null) {
				loc = node.getSourceLocation().toString();
				if (modelFilter != null) {
					loc = modelFilter.processFilelocation(loc);
				}
			}
		}
		w.write(node + "  [" + (node == null ? "null" : node.getKind().toString()) + "] " + loc + "\n");
		if (node != null) {
			for (IProgramElement child : node.getChildren()) {
				dumptree(w, child, indent + 2);
			}
		}
	}

	public static void dumptree(IProgramElement node, int indent) throws IOException {
		for (int i = 0; i < indent; i++) {
			System.out.print(" ");
		}
		String loc = "";
		if (node != null) {
			if (node.getSourceLocation() != null) {
				loc = node.getSourceLocation().toString();
			}
		}
		System.out.println(node + "  [" + (node == null ? "null" : node.getKind().toString()) + "] " + loc);
		if (node != null) {
			for (IProgramElement child : node.getChildren()) {
				dumptree(child, indent + 2);
			}
		}
	}

	public void dumprels(Writer w) throws IOException {
		int ctr = 1;
		Set entries = mapper.getEntries();
		for (String hid : entries) {
			List rels = mapper.get(hid);
			for (IRelationship ir : rels) {
				List targets = ir.getTargets();
				for (String thid : targets) {
					StringBuffer sb = new StringBuffer();
					if (modelFilter == null || modelFilter.wantsHandleIds()) {
						sb.append("Hid:" + (ctr++) + ":");
					}
					sb.append("(targets=" + targets.size() + ") " + hid + " (" + ir.getName() + ") " + thid + "\n");
					w.write(sb.toString());
				}
			}
		}
	}

	private void dumprelsStderr(String key) {
		System.err.println("Relationships dump follows: " + key);
		int ctr = 1;
		Set entries = mapper.getEntries();
		for (String hid : entries) {
			for (IRelationship ir : mapper.get(hid)) {
				List targets = ir.getTargets();
				for (String thid : targets) {
					System.err.println("Hid:" + (ctr++) + ":(targets=" + targets.size() + ") " + hid + " (" + ir.getName() + ") "
							+ thid);
				}
			}
		}
		System.err.println("End of relationships dump for: " + key);
	}

	// ===================== DELTA PROCESSING CODE ============== start
	// ==========//

	/**
	 * Removes the hierarchy structure for the specified files from the structure model. Returns true if it deleted anything
	 */
	public boolean removeStructureModelForFiles(Writer fw, Collection files) throws IOException {

		boolean modelModified = false;

		Set deletedNodes = new HashSet();
		for (File fileForCompilation : files) {
			String correctedPath = getCanonicalFilePath(fileForCompilation);
			IProgramElement progElem = (IProgramElement) hierarchy.findInFileMap(correctedPath);
			if (progElem != null) {
				// Found it, let's remove it
				if (dumpDeltaProcessing) {
					fw.write("Deleting " + progElem + " node for file " + fileForCompilation + "\n");
				}
				removeNode(progElem);
				lastBuildChanges.add(fileForCompilation);
				deletedNodes.add(getCanonicalFilePath(progElem.getSourceLocation().getSourceFile()));
				if (!hierarchy.removeFromFileMap(correctedPath)) {
					throw new RuntimeException("Whilst repairing model, couldn't remove entry for file: " + correctedPath
							+ " from the filemap");
				}
				modelModified = true;
			}
		}
		if (modelModified) {
			hierarchy.updateHandleMap(deletedNodes);
		}
		return modelModified;
	}

	public void processDelta(Collection files_tobecompiled, Set files_added, Set files_deleted) {

		try {
			Writer fw = null;

			// Are we recording this ?
			if (dumpDeltaProcessing) {
				FileWriter filew = new FileWriter(dumpFilename, true);
				fw = new BufferedWriter(filew);
				fw.write("=== Processing delta changes for the model ===\n");
				fw.write("Files for compilation:#" + files_tobecompiled.size() + ":" + files_tobecompiled + "\n");
				fw.write("Files added          :#" + files_added.size() + ":" + files_added + "\n");
				fw.write("Files deleted        :#" + files_deleted.size() + ":" + files_deleted + "\n");
			}

			long stime = System.currentTimeMillis();

			// Let's remove all the files that are deleted on this compile
			removeStructureModelForFiles(fw, files_deleted);
			long etime1 = System.currentTimeMillis(); // etime1-stime = time to
			// fix up the model

			repairRelationships(fw);
			long etime2 = System.currentTimeMillis(); // etime2-stime = time to
			// repair the
			// relationship map

			removeStructureModelForFiles(fw, files_tobecompiled);

			if (dumpDeltaProcessing) {
				fw.write("===== Delta Processing timing ==========\n");
				fw.write("Hierarchy=" + (etime1 - stime) + "ms   Relationshipmap=" + (etime2 - etime1) + "ms\n");
				fw.write("===== Traversal ========================\n");
				// fw.write("Source handles processed="+srchandlecounter+"\n");
				// fw.write("Target handles processed="+tgthandlecounter+"\n");
				fw.write("========================================\n");
				fw.flush();
				fw.close();

			}
			reportModelInfo("After delta processing");
		} catch (IOException e) {
			e.printStackTrace();
		}

	}

	private String getTypeNameFromHandle(String handle, Map cache) {
		try {
			String typename = cache.get(handle);
			if (typename != null) {
				return typename;
			}
			// inpath handle - but for which type?
			// let's do it the slow way, we can optimize this with a cache perhaps
			int hasPackage = handle.indexOf(HandleProviderDelimiter.PACKAGEFRAGMENT.getDelimiter());
			int typeLocation = handle.indexOf(HandleProviderDelimiter.TYPE.getDelimiter());
			if (typeLocation == -1) {
				typeLocation = handle.indexOf(HandleProviderDelimiter.ASPECT_TYPE.getDelimiter());
			}
			if (typeLocation == -1) {
				// unexpected - time to give up
				return "";
			}
			StringBuffer qualifiedTypeNameFromHandle = new StringBuffer();
			if (hasPackage != -1) {
				int classfileLoc = handle.indexOf(HandleProviderDelimiter.CLASSFILE.getDelimiter(), hasPackage);
				qualifiedTypeNameFromHandle.append(handle.substring(hasPackage + 1, classfileLoc));
				qualifiedTypeNameFromHandle.append('.');
			}
			qualifiedTypeNameFromHandle.append(handle.substring(typeLocation + 1));
			typename = qualifiedTypeNameFromHandle.toString();
			cache.put(handle, typename);
			return typename;
		} catch (StringIndexOutOfBoundsException sioobe) {
			// debug for 330170
			System.err.println("Handle processing problem, the handle is: " + handle);
			sioobe.printStackTrace(System.err);
			return "";
		}
	}

	/**
	 * two kinds of relationships
	 * 
	 * A affects B B affectedBy A
	 * 
	 * Both of these relationships are added when 'B' is modified. Concrete examples are 'advises/advisedby' or
	 * 'annotates/annotatedby'.
	 * 
	 * What we need to do is when 'B' is going to be woven, remove all relationships that may reoccur when it is woven. So - remove
	 * 'affects' relationships where the target is 'B', remove all 'affectedBy' relationships where the source is 'B'.
	 * 
	 */
	public void removeRelationshipsTargettingThisType(String typename) {
		boolean debug = false;
		if (debug) {
			System.err.println(">>removeRelationshipsTargettingThisType " + typename);
		}
		String pkg = null;
		String type = typename;
		int lastSep = typename.lastIndexOf('.');
		if (lastSep != -1) {
			pkg = typename.substring(0, lastSep);
			type = typename.substring(lastSep + 1);
		}
		boolean didsomething = false;
		IProgramElement typeNode = hierarchy.findElementForType(pkg, type);

		// Reasons for that being null:
		// 1. the file has fundamental errors and so doesn't exist in the model
		// (-proceedOnError probably forced us to weave)
		if (typeNode == null) {
			return;
		}

		Set sourcesToRemove = new HashSet();
		Map handleToTypenameCache = new HashMap();
		// Iterate over the source handles in the relationships map, the aim
		// here is to remove any 'affected by'
		// relationships where the source of the relationship is the specified
		// type (since it will be readded
		// when the type is woven)
		Set sourcehandlesSet = mapper.getEntries();
		List relationshipsToRemove = new ArrayList();
		for (String hid : sourcehandlesSet) {
			if (isPhantomHandle(hid)) {
				// inpath handle - but for which type?
				// TODO promote cache for reuse during one whole model update
				if (!getTypeNameFromHandle(hid, handleToTypenameCache).equals(typename)) {
					continue;
				}
			}
			IProgramElement sourceElement = hierarchy.getElement(hid);
			if (sourceElement == null || sameType(hid, sourceElement, typeNode)) {
				// worth continuing as there may be a relationship to remove
				relationshipsToRemove.clear();
				List relationships = mapper.get(hid);
				for (IRelationship relationship : relationships) {
					if (relationship.getKind() == IRelationship.Kind.USES_POINTCUT) {
						continue; // these relationships are added at compile
					}
					// time, argh
					if (relationship.isAffects()) {
						continue; // we want 'affected by' relationships - (e.g.
					}
					// advised by)
					relationshipsToRemove.add(relationship); // all the relationships can
					// be removed, regardless of
					// the target(s)
				}
				// Now, were any relationships emptied during that processing
				// and so need removing for this source handle
				if (relationshipsToRemove.size() > 0) {
					didsomething = true;
					if (relationshipsToRemove.size() == relationships.size()) {
						sourcesToRemove.add(hid);
					} else {
						for (int i = 0; i < relationshipsToRemove.size(); i++) {
							relationships.remove(relationshipsToRemove.get(i));
						}
					}
				}
			}
		}
		// Remove sources that have no valid relationships any more
		for (String hid : sourcesToRemove) {
			// System.err.println(
			// "  source handle: all relationships have gone for "+hid);
			mapper.removeAll(hid);
			IProgramElement ipe = hierarchy.getElement(hid);
			if (ipe != null) {
				// If the relationship was hanging off a 'code' node, delete it.
				if (ipe.getKind().equals(IProgramElement.Kind.CODE)) {
					if (debug) {
						System.err.println("  source handle: it was code node, removing that as well... code=" + ipe + " parent="
								+ ipe.getParent());
					}
					removeSingleNode(ipe);
				}
			}
		}

		if (debug) {
			dumprelsStderr("after processing 'affectedby'");
		}
		if (didsomething) { // did we do anything?
			sourcesToRemove.clear();
			// removing 'affects' relationships
			if (debug) {
				dumprelsStderr("before processing 'affects'");
			}
			// Iterate over the source handles in the relationships map
			sourcehandlesSet = mapper.getEntries();
			for (String hid : sourcehandlesSet) {
				relationshipsToRemove.clear();
				List relationships = mapper.get(hid);
				for (IRelationship rel : relationships) {
					if (rel.getKind() == IRelationship.Kind.USES_POINTCUT) {
						continue; // these relationships are added at compile
					}
					// time, argh
					if (!rel.isAffects()) {
						continue;
					}
					List targets = rel.getTargets();
					List targetsToRemove = new ArrayList();

					// find targets that target the type we are interested in,
					// they need removing
					for (String targethid : targets) {
						if (isPhantomHandle(hid) && !getTypeNameFromHandle(hid, handleToTypenameCache).equals(typename)) {
							continue;
						}
						// Does this point to the same type?
						IProgramElement existingTarget = hierarchy.getElement(targethid);
						if (existingTarget == null || sameType(targethid, existingTarget, typeNode)) {
							targetsToRemove.add(targethid);
						}
					}

					if (targetsToRemove.size() != 0) {
						if (targetsToRemove.size() == targets.size()) {
							relationshipsToRemove.add(rel);
						} else {
							// Remove all the targets that are no longer valid
							for (String togo : targetsToRemove) {
								targets.remove(togo);
							}
						}
					}
				}
				// Now, were any relationships emptied during that processing
				// and so need removing for this source handle
				if (relationshipsToRemove.size() > 0) {
					// Are we removing *all* of the relationships for this
					// source handle?
					if (relationshipsToRemove.size() == relationships.size()) {
						sourcesToRemove.add(hid);
					} else {
						for (int i = 0; i < relationshipsToRemove.size(); i++) {
							relationships.remove(relationshipsToRemove.get(i));
						}
					}
				}
			}
			// Remove sources that have no valid relationships any more
			for (String hid : sourcesToRemove) {
				// System.err.println(
				// "  source handle: all relationships have gone for "+hid);
				mapper.removeAll(hid);
				IProgramElement ipe = hierarchy.getElement(hid);
				if (ipe != null) {
					// If the relationship was hanging off a 'code' node, delete
					// it.
					if (ipe.getKind().equals(IProgramElement.Kind.CODE)) {
						if (debug) {
							System.err.println("  source handle: it was code node, removing that as well... code=" + ipe
									+ " parent=" + ipe.getParent());
						}
						removeSingleNode(ipe);
					}
				}
			}
			if (debug) {
				dumprelsStderr("after processing 'affects'");
			}
		}

		if (debug) {
			System.err.println("< sourcesToRemove = new HashSet();
			Set nonExistingHandles = new HashSet(); // Cache of handles that we
			// *know* are invalid
//			int srchandlecounter = 0;
//			int tgthandlecounter = 0;

			// Iterate over the source handles in the relationships map
			Set keyset = mapper.getEntries(); // These are source handles
			for (String hid : keyset) {
//				srchandlecounter++;

				// Do we already know this handle points to nowhere?
				if (nonExistingHandles.contains(hid)) {
					sourcesToRemove.add(hid);
				} else if (!isPhantomHandle(hid)) {
					// We better check if it actually exists
					IProgramElement existingElement = hierarchy.getElement(hid);
					if (dumpDeltaProcessing) {
						fw.write("Looking for handle [" + hid + "] in model, found: " + existingElement + "\n");
					}
					// Did we find it?
					if (existingElement == null) {
						// No, so delete this relationship
						sourcesToRemove.add(hid);
						nonExistingHandles.add(hid); // Speed up a bit you swine
					} else {
						// Ok, so the source is valid, what about the targets?
						List relationships = mapper.get(hid);
						List relationshipsToRemove = new ArrayList();
						// Iterate through the relationships against this source
						// handle
						for (Iterator reliter = relationships.iterator(); reliter.hasNext();) {
							IRelationship rel = reliter.next();
							List targets = rel.getTargets();
							List targetsToRemove = new ArrayList();

							// Iterate through the targets for this relationship
							for (Iterator targetIter = targets.iterator(); targetIter.hasNext();) {
								String targethid = targetIter.next();
//								tgthandlecounter++;
								// Do we already know it doesn't exist?
								if (nonExistingHandles.contains(targethid)) {
									if (dumpDeltaProcessing) {
										fw.write("Target handle [" + targethid + "] for srchid[" + hid + "]rel[" + rel.getName()
												+ "] does not exist\n");
									}
									targetsToRemove.add(targethid);
								} else if (!isPhantomHandle(targethid)) {
									// We better check
									IProgramElement existingTarget = hierarchy.getElement(targethid);
									if (existingTarget == null) {
										if (dumpDeltaProcessing) {
											fw.write("Target handle [" + targethid + "] for srchid[" + hid + "]rel["
													+ rel.getName() + "] does not exist\n");
										}
										targetsToRemove.add(targethid);
										nonExistingHandles.add(targethid);
									}
								}
							}

							// Do we have some targets that need removing?
							if (targetsToRemove.size() != 0) {
								// Are we removing *all* of the targets for this
								// relationship (i.e. removing the relationship)
								if (targetsToRemove.size() == targets.size()) {
									if (dumpDeltaProcessing) {
										fw.write("No targets remain for srchid[" + hid + "] rel[" + rel.getName()
												+ "]: removing it\n");
									}
									relationshipsToRemove.add(rel);
								} else {
									// Remove all the targets that are no longer
									// valid
									for (String togo : targetsToRemove) {
										targets.remove(togo);
									}
									// Should have already been caught above,
									// but lets double check ...
									if (targets.size() == 0) {
										if (dumpDeltaProcessing) {
											fw.write("No targets remain for srchid[" + hid + "] rel[" + rel.getName()
													+ "]: removing it\n");
										}
										relationshipsToRemove.add(rel); // TODO
										// Should
										// only
										// remove
										// this
										// relationship
										// for
										// the
										// srchid
										// ?
									}
								}
							}
						}
						// Now, were any relationships emptied during that
						// processing and so need removing for this source
						// handle
						if (relationshipsToRemove.size() > 0) {
							// Are we removing *all* of the relationships for
							// this source handle?
							if (relationshipsToRemove.size() == relationships.size()) {
								// We know they are all going to go, so just
								// delete the source handle.
								sourcesToRemove.add(hid);
							} else {
								// MEMORY LEAK - we don't remove the
								// relationships !!
								for (int i = 0; i < relationshipsToRemove.size(); i++) {
									IRelationship irel = relationshipsToRemove.get(i);
									verifyAssumption(mapper.remove(hid, irel), "Failed to remove relationship " + irel.getName()
											+ " for shid " + hid);
								}
								List rels = mapper.get(hid);
								if (rels == null || rels.size() == 0) {
									sourcesToRemove.add(hid);
								}
							}
						}
					}
				}
			}
			// Remove sources that have no valid relationships any more
			for (Iterator srciter = sourcesToRemove.iterator(); srciter.hasNext();) {
				String hid = srciter.next();
				mapper.removeAll(hid);
				IProgramElement ipe = hierarchy.getElement(hid);
				if (ipe != null) {
					// If the relationship was hanging off a 'code' node, delete
					// it.
					if (ipe.getKind().equals(IProgramElement.Kind.CODE)) {
						// System.err.println("Deleting code node");
						removeSingleNode(ipe);
					}
				}
			}
		} catch (IOException ioe) {
			System.err.println("Failed to repair relationships:");
			ioe.printStackTrace();
		}
	}

	/**
	 * Removes a specified program element from the structure model. We go to the parent of the program element, ask for all its
	 * children and remove the node we want to delete from the list of children.
	 */
	private void removeSingleNode(IProgramElement progElem) {
		if (progElem == null) {
			throw new IllegalStateException("AsmManager.removeNode(): programElement unexpectedly null");
		}
		boolean deleteOK = false;
		IProgramElement parent = progElem.getParent();
		List kids = parent.getChildren();
		for (int i = 0, max = kids.size(); i < max; i++) {
			if (kids.get(i).equals(progElem)) {
				kids.remove(i);
				deleteOK = true;
				break;
			}
		}
		if (!deleteOK) {
			System.err.println("unexpectedly failed to delete node from model.  hid=" + progElem.getHandleIdentifier());
		}
	}

	/**
	 * Removes a specified program element from the structure model. Two processing stages:
	 * 

* First: We go to the parent of the program element, ask for all its children and remove the node we want to delete from the * list of children. *

* Second:We check if that parent has any other children. If it has no other children and it is either a CODE node or a PACKAGE * node, we delete it too. */ private void removeNode(IProgramElement progElem) { // StringBuffer flightrecorder = new StringBuffer(); try { // flightrecorder.append("In removeNode, about to chuck away: "+ // progElem+"\n"); if (progElem == null) { throw new IllegalStateException("AsmManager.removeNode(): programElement unexpectedly null"); } // boolean deleteOK = false; IProgramElement parent = progElem.getParent(); // flightrecorder.append("Parent of it is "+parent+"\n"); List kids = parent.getChildren(); // flightrecorder.append("Which has "+kids.size()+" kids\n"); for (int i = 0; i < kids.size(); i++) { // flightrecorder.append("Comparing with "+kids.get(i)+"\n"); if (kids.get(i).equals(progElem)) { kids.remove(i); // flightrecorder.append("Removing it\n"); // deleteOK=true; break; } } // verifyAssumption(deleteOK,flightrecorder.toString()); // Are there any kids left for this node? if (parent.getChildren().size() == 0 && parent.getParent() != null && (parent.getKind().equals(IProgramElement.Kind.CODE) || parent.getKind().equals(IProgramElement.Kind.PACKAGE))) { // This node is on its own, we should trim it too *as long as // its not a structural node* which we currently check by // making sure its a code node // We should trim if it // System.err.println("Deleting parent:"+parent); removeNode(parent); } } catch (NullPointerException npe) { // Occurred when commenting out other 2 ras classes in wsif?? // reproducable? // System.err.println(flightrecorder.toString()); npe.printStackTrace(); } } public static void verifyAssumption(boolean b, String info) { if (!b) { System.err.println("=========== ASSERTION IS NOT TRUE =========v"); System.err.println(info); Thread.dumpStack(); System.err.println("=========== ASSERTION IS NOT TRUE =========^"); throw new RuntimeException("Assertion is false"); } } public static void verifyAssumption(boolean b) { if (!b) { Thread.dumpStack(); throw new RuntimeException("Assertion is false"); } } // ===================== DELTA PROCESSING CODE ============== end // ==========// /** * A ModelInfo object captures basic information about the structure model. It is used for testing and producing debug info. */ public static class ModelInfo { private final Hashtable nodeTypeCount = new Hashtable(); private final Properties extraProperties = new Properties(); private ModelInfo(IHierarchy hierarchy, IRelationshipMap relationshipMap) { IProgramElement ipe = hierarchy.getRoot(); walkModel(ipe); recordStat("FileMapSize", new Integer(hierarchy.getFileMapEntrySet().size()).toString()); recordStat("RelationshipMapSize", new Integer(relationshipMap.getEntries().size()).toString()); } private void walkModel(IProgramElement ipe) { countNode(ipe); for (IProgramElement child : ipe.getChildren()) { walkModel(child); } } private void countNode(IProgramElement ipe) { String node = ipe.getKind().toString(); Integer ctr = nodeTypeCount.get(node); if (ctr == null) { nodeTypeCount.put(node, new Integer(1)); } else { ctr = new Integer(ctr.intValue() + 1); nodeTypeCount.put(node, ctr); } } public String toString() { StringBuffer sb = new StringBuffer(); sb.append("Model node summary:\n"); Enumeration nodeKeys = nodeTypeCount.keys(); while (nodeKeys.hasMoreElements()) { String key = nodeKeys.nextElement(); Integer ct = nodeTypeCount.get(key); sb.append(key + "=" + ct + "\n"); } sb.append("Model stats:\n"); Enumeration ks = extraProperties.keys(); while (ks.hasMoreElements()) { String k = (String) ks.nextElement(); String v = extraProperties.getProperty(k); sb.append(k + "=" + v + "\n"); } return sb.toString(); } public Properties getProperties() { Properties p = new Properties(); for (Map.Entry entry : nodeTypeCount.entrySet()) { p.setProperty(entry.getKey(), entry.getValue().toString()); } p.putAll(extraProperties); return p; } public void recordStat(String string, String string2) { extraProperties.setProperty(string, string2); } } public ModelInfo summarizeModel() { return new ModelInfo(getHierarchy(), getRelationshipMap()); } /** * Set to indicate whether we are currently building a structure model, should be set up front. */ // public static void setCreatingModel(boolean b) { // creatingModel = b; // } // // /** // * returns true if we are currently generating a structure model, enables guarding of expensive operations on an empty/null // * model. // */ // public static boolean isCreatingModel() { // return creatingModel; // } public static void setCompletingTypeBindings(boolean b) { completingTypeBindings = b; } public static boolean isCompletingTypeBindings() { return completingTypeBindings; } // public void setRelationshipMap(IRelationshipMap irm) { // mapper = irm; // } // // public void setHierarchy(IHierarchy ih) { // hierarchy = ih; // } public void resetDeltaProcessing() { lastBuildChanges.clear(); aspectsWeavingInLastBuild.clear(); } /** * @return the Set of files for which the structure model was modified (they may have been removed or otherwise rebuilt). Set is * empty for a full build. */ public Set getModelChangesOnLastBuild() { return lastBuildChanges; } /** * @return the Set of aspects that wove files on the last build (either incremental or full build) */ public Set getAspectsWeavingFilesOnLastBuild() { return aspectsWeavingInLastBuild; } public void addAspectInEffectThisBuild(File f) { aspectsWeavingInLastBuild.add(f); } public static void setLastActiveStructureModel(AsmManager structureModel) { if (recordingLastActiveStructureModel) { lastActiveStructureModel = structureModel; } } public String getHandleElementForInpath(String binaryPath) { return inpathMap.get(new File(binaryPath)); } }