public boolean existsUsingJarTypeCache() {
if (getPackageFragmentRoot().isArchive()) {
JavaModelManager manager = JavaModelManager.getJavaModelManager();
IType type = getType();
Object info = manager.getInfo(type);
if (info == JavaModelCache.NON_EXISTING_JAR_TYPE_INFO) return false;
else if (info != null) return true;
// info is null
JavaElementInfo parentInfo = (JavaElementInfo) manager.getInfo(getParent());
if (parentInfo != null) {
// if parent is open, this class file must be in its children
IJavaElement[] children = parentInfo.getChildren();
for (int i = 0, length = children.length; i < length; i++) {
if (this.name.equals(((ClassFile) children[i]).name)) return true;
}
return false;
}
try {
info =
getJarBinaryTypeInfo(
(PackageFragment) getParent(),
true /*fully initialize so as to not keep a reference to the byte array*/);
} catch (CoreException e) {
// leave info null
} catch (IOException e) {
// leave info null
} catch (ClassFormatException e) {
// leave info null
}
manager.putJarTypeInfo(type, info == null ? JavaModelCache.NON_EXISTING_JAR_TYPE_INFO : info);
return info != null;
} else return exists();
}
public byte[] getBytes() throws JavaModelException {
JavaElement pkg = (JavaElement) getParent();
if (pkg instanceof JarPackageFragment) {
JarPackageFragmentRoot root = (JarPackageFragmentRoot) pkg.getParent();
ZipFile zip = null;
try {
zip = root.getJar();
String entryName = Util.concatWith(((PackageFragment) pkg).names, getElementName(), '/');
ZipEntry ze = zip.getEntry(entryName);
if (ze != null) {
return org.eclipse.jdt.internal.compiler.util.Util.getZipEntryByteContent(ze, zip);
}
throw new JavaModelException(
new JavaModelStatus(IJavaModelStatusConstants.ELEMENT_DOES_NOT_EXIST, this));
} catch (IOException ioe) {
throw new JavaModelException(ioe, IJavaModelStatusConstants.IO_EXCEPTION);
} catch (CoreException e) {
if (e instanceof JavaModelException) {
throw (JavaModelException) e;
} else {
throw new JavaModelException(e);
}
} finally {
JavaModelManager.getJavaModelManager().closeZipFile(zip);
}
} else {
IFile file = (IFile) resource();
return Util.getResourceContentsAsByteArray(file);
}
}
private int initializeBuilder(int kind, boolean forBuild) throws CoreException {
// some calls just need the nameEnvironment initialized so skip the rest
this.javaProject = (JavaProject) JavaCore.create(this.currentProject);
this.workspaceRoot = this.currentProject.getWorkspace().getRoot();
if (forBuild) {
// cache the known participants for this project
this.participants =
JavaModelManager.getJavaModelManager()
.compilationParticipants
.getCompilationParticipants(this.javaProject);
if (this.participants != null)
for (int i = 0, l = this.participants.length; i < l; i++)
if (this.participants[i].aboutToBuild(this.javaProject)
== CompilationParticipant.NEEDS_FULL_BUILD) kind = FULL_BUILD;
// Flush the existing external files cache if this is the beginning of a build cycle
String projectName = this.currentProject.getName();
if (builtProjects == null || builtProjects.contains(projectName)) {
builtProjects = new ArrayList();
}
builtProjects.add(projectName);
}
this.binaryLocationsPerProject = new SimpleLookupTable(3);
this.nameEnvironment =
new NameEnvironment(
this.workspaceRoot, this.javaProject, this.binaryLocationsPerProject, this.notifier);
if (forBuild) {
String filterSequence =
this.javaProject.getOption(JavaCore.CORE_JAVA_BUILD_RESOURCE_COPY_FILTER, true);
char[][] filters =
filterSequence != null && filterSequence.length() > 0
? CharOperation.splitAndTrimOn(',', filterSequence.toCharArray())
: null;
if (filters == null) {
this.extraResourceFileFilters = null;
this.extraResourceFolderFilters = null;
} else {
int fileCount = 0, folderCount = 0;
for (int i = 0, l = filters.length; i < l; i++) {
char[] f = filters[i];
if (f.length == 0) continue;
if (f[f.length - 1] == '/') folderCount++;
else fileCount++;
}
this.extraResourceFileFilters = new char[fileCount][];
this.extraResourceFolderFilters = new String[folderCount];
for (int i = 0, l = filters.length; i < l; i++) {
char[] f = filters[i];
if (f.length == 0) continue;
if (f[f.length - 1] == '/')
this.extraResourceFolderFilters[--folderCount] = new String(f, 0, f.length - 1);
else this.extraResourceFileFilters[--fileCount] = f;
}
}
}
return kind;
}
public static IMarker[] getProblemsFor(IResource resource) {
try {
if (resource != null && resource.exists()) {
IMarker[] markers =
resource.findMarkers(
IJavaModelMarker.JAVA_MODEL_PROBLEM_MARKER, false, IResource.DEPTH_INFINITE);
Set markerTypes =
JavaModelManager.getJavaModelManager().compilationParticipants.managedMarkerTypes();
if (markerTypes.isEmpty()) return markers;
ArrayList markerList = new ArrayList(5);
for (int i = 0, length = markers.length; i < length; i++) {
markerList.add(markers[i]);
}
Iterator iterator = markerTypes.iterator();
while (iterator.hasNext()) {
markers = resource.findMarkers((String) iterator.next(), false, IResource.DEPTH_INFINITE);
for (int i = 0, length = markers.length; i < length; i++) {
markerList.add(markers[i]);
}
}
IMarker[] result;
markerList.toArray(result = new IMarker[markerList.size()]);
return result;
}
} catch (CoreException e) {
// assume there are no problems
}
return new IMarker[0];
}
public void build(boolean computeSubtypes) {
JavaModelManager manager = JavaModelManager.getJavaModelManager();
try {
// optimize access to zip files while building hierarchy
manager.cacheZipFiles(this);
if (computeSubtypes) {
// Note by construction there always is a focus type here
IType focusType = getType();
boolean focusIsObject =
focusType.getElementName().equals(new String(IIndexConstants.OBJECT));
int amountOfWorkForSubtypes =
focusIsObject ? 5 : 80; // percentage of work needed to get possible subtypes
IProgressMonitor possibleSubtypesMonitor =
this.hierarchy.progressMonitor == null
? null
: new SubProgressMonitor(this.hierarchy.progressMonitor, amountOfWorkForSubtypes);
HashSet localTypes =
new HashSet(
10); // contains the paths that have potential subtypes that are local/anonymous
// types
String[] allPossibleSubtypes;
if (((Member) focusType).getOuterMostLocalContext() == null) {
// top level or member type
allPossibleSubtypes = determinePossibleSubTypes(localTypes, possibleSubtypesMonitor);
} else {
// local or anonymous type
allPossibleSubtypes = CharOperation.NO_STRINGS;
}
if (allPossibleSubtypes != null) {
IProgressMonitor buildMonitor =
this.hierarchy.progressMonitor == null
? null
: new SubProgressMonitor(
this.hierarchy.progressMonitor, 100 - amountOfWorkForSubtypes);
this.hierarchy.initialize(allPossibleSubtypes.length);
buildFromPotentialSubtypes(allPossibleSubtypes, localTypes, buildMonitor);
}
} else {
this.hierarchy.initialize(1);
buildSupertypes();
}
} finally {
manager.flushZipFiles(this);
}
}
/*
* @see IClassFile
*/
public ICompilationUnit getWorkingCopy(WorkingCopyOwner owner, IProgressMonitor monitor)
throws JavaModelException {
CompilationUnit workingCopy =
new ClassFileWorkingCopy(this, owner == null ? DefaultWorkingCopyOwner.PRIMARY : owner);
JavaModelManager manager = JavaModelManager.getJavaModelManager();
JavaModelManager.PerWorkingCopyInfo perWorkingCopyInfo =
manager.getPerWorkingCopyInfo(
workingCopy,
false /*don't create*/,
true /*record usage*/,
null /*not used since don't create*/);
if (perWorkingCopyInfo != null) {
return perWorkingCopyInfo
.getWorkingCopy(); // return existing handle instead of the one created above
}
BecomeWorkingCopyOperation op = new BecomeWorkingCopyOperation(workingCopy, null);
op.runOperation(monitor);
return workingCopy;
}
private void recordNewState(State state) {
Object[] keyTable = this.binaryLocationsPerProject.keyTable;
for (int i = 0, l = keyTable.length; i < l; i++) {
IProject prereqProject = (IProject) keyTable[i];
if (prereqProject != null && prereqProject != this.currentProject)
state.recordStructuralDependency(prereqProject, getLastState(prereqProject));
}
if (DEBUG) System.out.println("JavaBuilder: Recording new state : " + state); // $NON-NLS-1$
// state.dump();
JavaModelManager.getJavaModelManager().setLastBuiltState(this.currentProject, state);
}
/*
* @see IClassFile#becomeWorkingCopy(IProblemRequestor, WorkingCopyOwner, IProgressMonitor)
*/
public ICompilationUnit becomeWorkingCopy(
IProblemRequestor problemRequestor, WorkingCopyOwner owner, IProgressMonitor monitor)
throws JavaModelException {
JavaModelManager manager = JavaModelManager.getJavaModelManager();
CompilationUnit workingCopy =
new ClassFileWorkingCopy(this, owner == null ? DefaultWorkingCopyOwner.PRIMARY : owner);
JavaModelManager.PerWorkingCopyInfo perWorkingCopyInfo =
manager.getPerWorkingCopyInfo(
workingCopy,
false /*don't create*/,
true /*record usage*/,
null /*no problem requestor needed*/);
if (perWorkingCopyInfo == null) {
// close cu and its children
close();
BecomeWorkingCopyOperation operation =
new BecomeWorkingCopyOperation(workingCopy, problemRequestor);
operation.runOperation(monitor);
return workingCopy;
}
return perWorkingCopyInfo.workingCopy;
}
public static void removeProblemsFor(IResource resource) {
try {
if (resource != null && resource.exists()) {
resource.deleteMarkers(
IJavaModelMarker.JAVA_MODEL_PROBLEM_MARKER, false, IResource.DEPTH_INFINITE);
// delete managed markers
Set markerTypes =
JavaModelManager.getJavaModelManager().compilationParticipants.managedMarkerTypes();
if (markerTypes.size() == 0) return;
Iterator iterator = markerTypes.iterator();
while (iterator.hasNext())
resource.deleteMarkers((String) iterator.next(), false, IResource.DEPTH_INFINITE);
}
} catch (CoreException e) {
// assume there were no problems
}
}
/* Return the list of projects for which it requires a resource delta. This builder's project
* is implicitly included and need not be specified. Builders must re-specify the list
* of interesting projects every time they are run as this is not carried forward
* beyond the next build. Missing projects should be specified but will be ignored until
* they are added to the workspace.
*/
private IProject[] getRequiredProjects(boolean includeBinaryPrerequisites) {
if (this.javaProject == null || this.workspaceRoot == null) return new IProject[0];
ArrayList projects = new ArrayList();
ExternalFoldersManager externalFoldersManager = JavaModelManager.getExternalManager();
try {
IClasspathEntry[] entries = this.javaProject.getExpandedClasspath();
for (int i = 0, l = entries.length; i < l; i++) {
IClasspathEntry entry = entries[i];
IPath path = entry.getPath();
IProject p = null;
switch (entry.getEntryKind()) {
case IClasspathEntry.CPE_PROJECT:
p =
this.workspaceRoot.getProject(
path.lastSegment()); // missing projects are considered too
if (((ClasspathEntry) entry).isOptional()
&& !JavaProject.hasJavaNature(p)) // except if entry is optional
p = null;
break;
case IClasspathEntry.CPE_LIBRARY:
if (includeBinaryPrerequisites && path.segmentCount() > 0) {
// some binary resources on the class path can come from projects that are not
// included in the project references
IResource resource = this.workspaceRoot.findMember(path.segment(0));
if (resource instanceof IProject) {
p = (IProject) resource;
} else {
resource = externalFoldersManager.getFolder(path);
if (resource != null) p = resource.getProject();
}
}
}
if (p != null && !projects.contains(p)) projects.add(p);
}
} catch (JavaModelException e) {
return new IProject[0];
}
IProject[] result = new IProject[projects.size()];
projects.toArray(result);
return result;
}
private IBinaryType getJarBinaryTypeInfo(PackageFragment pkg, boolean fullyInitialize)
throws CoreException, IOException, ClassFormatException {
JarPackageFragmentRoot root = (JarPackageFragmentRoot) pkg.getParent();
ZipFile zip = null;
try {
zip = root.getJar();
String entryName = Util.concatWith(pkg.names, getElementName(), '/');
ZipEntry ze = zip.getEntry(entryName);
if (ze != null) {
byte contents[] =
org.eclipse.jdt.internal.compiler.util.Util.getZipEntryByteContent(ze, zip);
String fileName =
root.getHandleIdentifier() + IDependent.JAR_FILE_ENTRY_SEPARATOR + entryName;
return new ClassFileReader(contents, fileName.toCharArray(), fullyInitialize);
}
} finally {
JavaModelManager.getJavaModelManager().closeZipFile(zip);
}
return null;
}
protected String[] getPathsOfDeclaringType() {
if (this.typeQualification == null && this.typeSimpleName == null) return null;
final PathCollector pathCollector = new PathCollector();
IJavaSearchScope scope = SearchEngine.createWorkspaceScope();
IndexManager indexManager = JavaModelManager.getIndexManager();
SearchPattern searchPattern =
new TypeDeclarationPattern(
this.typeSimpleName != null
? null
: this.typeQualification, // use the qualification only if no simple name
null, // do find member types
this.typeSimpleName,
IIndexConstants.TYPE_SUFFIX,
this.pattern.getMatchRule());
IndexQueryRequestor searchRequestor =
new IndexQueryRequestor() {
public boolean acceptIndexMatch(
String documentPath,
SearchPattern indexRecord,
SearchParticipant participant,
AccessRuleSet access) {
TypeDeclarationPattern record = (TypeDeclarationPattern) indexRecord;
if (record.enclosingTypeNames
!= IIndexConstants.ONE_ZERO_CHAR) { // filter out local and anonymous classes
pathCollector.acceptIndexMatch(documentPath, indexRecord, participant, access);
}
return true;
}
};
indexManager.performConcurrentJob(
new PatternSearchJob(searchPattern, new JavaSearchParticipant(), scope, searchRequestor),
IJavaSearchConstants.WAIT_UNTIL_READY_TO_SEARCH,
progressMonitor == null ? null : new SubProgressMonitor(progressMonitor, 100));
return pathCollector.getPaths();
}
/**
* Find the set of candidate subtypes of a given type.
*
* <p>The requestor is notified of super type references (with actual path of its occurrence) for
* all types which are potentially involved inside a particular hierarchy. The match locator is
* not used here to narrow down the results, the type hierarchy resolver is rather used to compute
* the whole hierarchy at once.
*
* @param type
* @param scope
* @param binariesFromIndexMatches
* @param pathRequestor
* @param waitingPolicy
* @param progressMonitor
*/
public static void searchAllPossibleSubTypes(
IType type,
IJavaSearchScope scope,
final Map binariesFromIndexMatches,
final IPathRequestor pathRequestor,
int waitingPolicy, // WaitUntilReadyToSearch | ForceImmediateSearch | CancelIfNotReadyToSearch
final IProgressMonitor progressMonitor) {
/* embed constructs inside arrays so as to pass them to (inner) collector */
final Queue queue = new Queue();
final HashtableOfObject foundSuperNames = new HashtableOfObject(5);
IndexManager indexManager = JavaModelManager.getIndexManager();
/* use a special collector to collect paths and queue new subtype names */
IndexQueryRequestor searchRequestor =
new IndexQueryRequestor() {
public boolean acceptIndexMatch(
String documentPath,
SearchPattern indexRecord,
SearchParticipant participant,
AccessRuleSet access) {
SuperTypeReferencePattern record = (SuperTypeReferencePattern) indexRecord;
boolean isLocalOrAnonymous = record.enclosingTypeName == IIndexConstants.ONE_ZERO;
pathRequestor.acceptPath(documentPath, isLocalOrAnonymous);
char[] typeName = record.simpleName;
if (documentPath.toLowerCase().endsWith(SUFFIX_STRING_class)) {
int suffix = documentPath.length() - SUFFIX_STRING_class.length();
HierarchyBinaryType binaryType =
(HierarchyBinaryType) binariesFromIndexMatches.get(documentPath);
if (binaryType == null) {
char[] enclosingTypeName = record.enclosingTypeName;
if (isLocalOrAnonymous) {
int lastSlash = documentPath.lastIndexOf('/');
int lastDollar = documentPath.lastIndexOf('$');
if (lastDollar == -1) {
// malformed local or anonymous type: it doesn't contain a $ in its name
// treat it as a top level type
enclosingTypeName = null;
typeName = documentPath.substring(lastSlash + 1, suffix).toCharArray();
} else {
enclosingTypeName =
documentPath.substring(lastSlash + 1, lastDollar).toCharArray();
typeName = documentPath.substring(lastDollar + 1, suffix).toCharArray();
}
}
binaryType =
new HierarchyBinaryType(
record.modifiers,
record.pkgName,
typeName,
enclosingTypeName,
record.typeParameterSignatures,
record.classOrInterface);
binariesFromIndexMatches.put(documentPath, binaryType);
}
binaryType.recordSuperType(
record.superSimpleName, record.superQualification, record.superClassOrInterface);
}
if (!isLocalOrAnonymous // local or anonymous types cannot have subtypes outside the cu
// that define them
&& !foundSuperNames.containsKey(typeName)) {
foundSuperNames.put(typeName, typeName);
queue.add(typeName);
}
return true;
}
};
int superRefKind;
try {
superRefKind =
type.isClass()
? SuperTypeReferencePattern.ONLY_SUPER_CLASSES
: SuperTypeReferencePattern.ALL_SUPER_TYPES;
} catch (JavaModelException e) {
superRefKind = SuperTypeReferencePattern.ALL_SUPER_TYPES;
}
SuperTypeReferencePattern pattern =
new SuperTypeReferencePattern(
null, null, superRefKind, SearchPattern.R_EXACT_MATCH | SearchPattern.R_CASE_SENSITIVE);
MatchLocator.setFocus(pattern, type);
SubTypeSearchJob job =
new SubTypeSearchJob(
pattern,
new JavaSearchParticipant(), // java search only
scope,
searchRequestor);
int ticks = 0;
queue.add(type.getElementName().toCharArray());
try {
while (queue.start <= queue.end) {
if (progressMonitor != null && progressMonitor.isCanceled()) return;
// all subclasses of OBJECT are actually all types
char[] currentTypeName = queue.retrieve();
if (CharOperation.equals(currentTypeName, IIndexConstants.OBJECT)) currentTypeName = null;
// search all index references to a given supertype
pattern.superSimpleName = currentTypeName;
indexManager.performConcurrentJob(
job,
waitingPolicy,
progressMonitor == null
? null
: new NullProgressMonitor() {
// don't report progress since this is too costly for deep hierarchies (see
// https://bugs.eclipse.org/bugs/show_bug.cgi?id=34078 )
// just handle isCanceled() (see
// https://bugs.eclipse.org/bugs/show_bug.cgi?id=179511 )
public void setCanceled(boolean value) {
progressMonitor.setCanceled(value);
}
public boolean isCanceled() {
return progressMonitor.isCanceled();
}
// and handle subTask(...) (see
// https://bugs.eclipse.org/bugs/show_bug.cgi?id=34078 )
public void subTask(String name) {
progressMonitor.subTask(name);
}
});
if (progressMonitor != null && ++ticks <= MAXTICKS) progressMonitor.worked(1);
// in case, we search all subtypes, no need to search further
if (currentTypeName == null) break;
}
} finally {
job.finished();
}
}
public State getLastState(IProject project) {
return (State)
JavaModelManager.getJavaModelManager().getLastBuiltState(project, this.notifier.monitor);
}
private void clearLastState() {
JavaModelManager.getJavaModelManager().setLastBuiltState(this.currentProject, null);
}