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]; }
private void addProjectSourceContainers(IProject project, ArrayList result) throws CoreException { if (project == null || !project.hasNature(JavaCore.NATURE_ID)) return; IJavaProject jProject = JavaCore.create(project); result.add(JavaRuntime.newProjectRuntimeClasspathEntry(jProject)); IClasspathEntry[] entries = jProject.getRawClasspath(); for (int i = 0; i < entries.length; i++) { IClasspathEntry entry = entries[i]; if (entry.getEntryKind() == IClasspathEntry.CPE_LIBRARY) { IRuntimeClasspathEntry rte = convertClasspathEntry(entry); if (rte != null) result.add(rte); } } }
protected void finishedWith( String sourceLocator, CompilationResult result, char[] mainTypeName, ArrayList definedTypeNames, ArrayList duplicateTypeNames) { char[][] previousTypeNames = this.newState.getDefinedTypeNamesFor(sourceLocator); if (previousTypeNames == null) previousTypeNames = new char[][] {mainTypeName}; IPath packagePath = null; next: for (int i = 0, l = previousTypeNames.length; i < l; i++) { char[] previous = previousTypeNames[i]; for (int j = 0, m = definedTypeNames.size(); j < m; j++) if (CharOperation.equals(previous, (char[]) definedTypeNames.get(j))) continue next; SourceFile sourceFile = (SourceFile) result.getCompilationUnit(); if (packagePath == null) { int count = sourceFile.sourceLocation.sourceFolder.getFullPath().segmentCount(); packagePath = sourceFile.resource.getFullPath().removeFirstSegments(count).removeLastSegments(1); } if (this.secondaryTypesToRemove == null) this.secondaryTypesToRemove = new SimpleLookupTable(); ArrayList types = (ArrayList) this.secondaryTypesToRemove.get(sourceFile.sourceLocation.binaryFolder); if (types == null) types = new ArrayList(definedTypeNames.size()); types.add(packagePath.append(new String(previous))); this.secondaryTypesToRemove.put(sourceFile.sourceLocation.binaryFolder, types); } super.finishedWith(sourceLocator, result, mainTypeName, definedTypeNames, duplicateTypeNames); }
protected void compile( SourceFile[] units, SourceFile[] additionalUnits, boolean compilingFirstGroup) { if (compilingFirstGroup && additionalUnits != null) { // add any source file from additionalUnits to units if it defines secondary types // otherwise its possible during testing with MAX_AT_ONCE == 1 that a secondary type // can cause an infinite loop as it alternates between not found and defined, see bug 146324 ArrayList extras = null; for (int i = 0, l = additionalUnits.length; i < l; i++) { SourceFile unit = additionalUnits[i]; if (unit != null && this.newState.getDefinedTypeNamesFor(unit.typeLocator()) != null) { if (JavaBuilder.DEBUG) System.out.println( "About to compile file with secondary types " + unit.typeLocator()); // $NON-NLS-1$ if (extras == null) extras = new ArrayList(3); extras.add(unit); } } if (extras != null) { int oldLength = units.length; int toAdd = extras.size(); System.arraycopy(units, 0, units = new SourceFile[oldLength + toAdd], 0, oldLength); for (int i = 0; i < toAdd; i++) units[oldLength++] = (SourceFile) extras.get(i); } } super.compile(units, additionalUnits, compilingFirstGroup); }
ISourceContainer[] getSourceContainers(String location, String id) throws CoreException { ISourceContainer[] containers = (ISourceContainer[]) fSourceContainerMap.get(location); if (containers != null) { return containers; } ArrayList result = new ArrayList(); ModelEntry entry = MonitorRegistry.findEntry(id); boolean match = false; IMonitorModelBase[] models = entry.getWorkspaceModels(); for (int i = 0; i < models.length; i++) { if (isPerfectMatch(models[i], new Path(location))) { IResource resource = models[i].getUnderlyingResource(); // if the plug-in matches a workspace model, // add the project and any libraries not coming via a container // to the list of source containers, in that order if (resource != null) { addProjectSourceContainers(resource.getProject(), result); } match = true; break; } } if (!match) { File file = new File(location); if (file.isFile()) { // in case of linked plug-in projects that map to an external JARd plug-in, // use source container that maps to the library in the linked project. ISourceContainer container = getArchiveSourceContainer(location); if (container != null) { containers = new ISourceContainer[] {container}; fSourceContainerMap.put(location, containers); return containers; } } models = entry.getExternalModels(); for (int i = 0; i < models.length; i++) { if (isPerfectMatch(models[i], new Path(location))) { // try all source zips found in the source code locations IClasspathEntry[] entries = MDEClasspathContainer.getExternalEntries(models[i]); for (int j = 0; j < entries.length; j++) { IRuntimeClasspathEntry rte = convertClasspathEntry(entries[j]); if (rte != null) result.add(rte); } break; } } } IRuntimeClasspathEntry[] entries = (IRuntimeClasspathEntry[]) result.toArray(new IRuntimeClasspathEntry[result.size()]); containers = JavaRuntime.getSourceContainers(entries); fSourceContainerMap.put(location, containers); return containers; }
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; }
protected boolean findSourceFiles(IResourceDelta delta) throws CoreException { ArrayList visited = this.makeOutputFolderConsistent ? new ArrayList(this.sourceLocations.length) : null; for (int i = 0, l = this.sourceLocations.length; i < l; i++) { ClasspathMultiDirectory md = this.sourceLocations[i]; if (this.makeOutputFolderConsistent && md.hasIndependentOutputFolder && !visited.contains(md.binaryFolder)) { // even a project which acts as its own source folder can have an independent/nested output // folder visited.add(md.binaryFolder); IResourceDelta binaryDelta = delta.findMember(md.binaryFolder.getProjectRelativePath()); if (binaryDelta != null) { int segmentCount = binaryDelta.getFullPath().segmentCount(); IResourceDelta[] children = binaryDelta.getAffectedChildren(); for (int j = 0, m = children.length; j < m; j++) if (!checkForClassFileChanges(children[j], md, segmentCount)) return false; } } if (md.sourceFolder.equals(this.javaBuilder.currentProject)) { // skip nested source & output folders when the project is a source folder int segmentCount = delta.getFullPath().segmentCount(); IResourceDelta[] children = delta.getAffectedChildren(); for (int j = 0, m = children.length; j < m; j++) if (!isExcludedFromProject(children[j].getFullPath())) if (!findSourceFiles(children[j], md, segmentCount)) return false; } else { IResourceDelta sourceDelta = delta.findMember(md.sourceFolder.getProjectRelativePath()); if (sourceDelta != null) { if (sourceDelta.getKind() == IResourceDelta.REMOVED) { if (JavaBuilder.DEBUG) System.out.println( "ABORTING incremental build... found removed source folder"); //$NON-NLS-1$ return false; // removed source folder should not make it here, but handle anyways // (ADDED is supported) } int segmentCount = sourceDelta.getFullPath().segmentCount(); IResourceDelta[] children = sourceDelta.getAffectedChildren(); try { for (int j = 0, m = children.length; j < m; j++) if (!findSourceFiles(children[j], md, segmentCount)) return false; } catch (CoreException e) { // catch the case that a package has been renamed and collides on disk with an // as-yet-to-be-deleted package if (e.getStatus().getCode() == IResourceStatus.CASE_VARIANT_EXISTS) { if (JavaBuilder.DEBUG) System.out.println( "ABORTING incremental build... found renamed package"); //$NON-NLS-1$ return false; } throw e; // rethrow } } } this.notifier.checkCancel(); } return true; }
/* 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; }
/** * Returns the children of <code>source</code> which are affected by this operation. If <code> * source</code> is a <code>K_SOURCE</code>, these are the <code>.java</code> files, if it is a * <code>K_BINARY</code>, they are the <code>.class</code> files. */ private IResource[] collectResourcesOfInterest(IPackageFragment source) throws JavaModelException { IJavaElement[] children = source.getChildren(); int childOfInterest = IJavaElement.COMPILATION_UNIT; if (source.getKind() == IPackageFragmentRoot.K_BINARY) { childOfInterest = IJavaElement.CLASS_FILE; } ArrayList correctKindChildren = new ArrayList(children.length); for (int i = 0; i < children.length; i++) { IJavaElement child = children[i]; if (child.getElementType() == childOfInterest) { correctKindChildren.add(((JavaElement) child).resource()); } } // Gather non-java resources Object[] nonJavaResources = source.getNonJavaResources(); int actualNonJavaResourceCount = 0; for (int i = 0, max = nonJavaResources.length; i < max; i++) { if (nonJavaResources[i] instanceof IResource) actualNonJavaResourceCount++; } IResource[] actualNonJavaResources = new IResource[actualNonJavaResourceCount]; for (int i = 0, max = nonJavaResources.length, index = 0; i < max; i++) { if (nonJavaResources[i] instanceof IResource) actualNonJavaResources[index++] = (IResource) nonJavaResources[i]; } if (actualNonJavaResourceCount != 0) { int correctKindChildrenSize = correctKindChildren.size(); IResource[] result = new IResource[correctKindChildrenSize + actualNonJavaResourceCount]; correctKindChildren.toArray(result); System.arraycopy( actualNonJavaResources, 0, result, correctKindChildrenSize, actualNonJavaResourceCount); return result; } else { IResource[] result = new IResource[correctKindChildren.size()]; correctKindChildren.toArray(result); return result; } }
private ArrayList convertPkgList(ArrayList pkgList) { ArrayList conList = new ArrayList(); Iterator it = pkgList.iterator(); while (it.hasNext()) { CallData cd = (CallData) it.next(); TestNode tn = null; if (alreadyDone.containsKey(cd)) { tn = (TestNode) alreadyDone.get(cd); } else { tn = new TestNode(); tn.setData(cd.getData()); alreadyDone.put(cd, tn); if (cd.getChildren().size() != 0) { tn.setChildren(convertPkgList(cd.getChildren())); } if (cd.getOutputs().size() != 0) { tn.setOutputs(convertPkgList(cd.getOutputs())); } } conList.add(tn); } return conList; }
/** Configure this type hierarchy based on the given potential subtypes. */ private void buildFromPotentialSubtypes( String[] allPotentialSubTypes, HashSet localTypes, IProgressMonitor monitor) { IType focusType = getType(); // substitute compilation units with working copies HashMap wcPaths = new HashMap(); // a map from path to working copies int wcLength; org.eclipse.jdt.core.ICompilationUnit[] workingCopies = this.hierarchy.workingCopies; if (workingCopies != null && (wcLength = workingCopies.length) > 0) { String[] newPaths = new String[wcLength]; for (int i = 0; i < wcLength; i++) { org.eclipse.jdt.core.ICompilationUnit workingCopy = workingCopies[i]; String path = workingCopy.getPath().toString(); wcPaths.put(path, workingCopy); newPaths[i] = path; } int potentialSubtypesLength = allPotentialSubTypes.length; System.arraycopy( allPotentialSubTypes, 0, allPotentialSubTypes = new String[potentialSubtypesLength + wcLength], 0, potentialSubtypesLength); System.arraycopy(newPaths, 0, allPotentialSubTypes, potentialSubtypesLength, wcLength); } int length = allPotentialSubTypes.length; // inject the compilation unit of the focus type (so that types in // this cu have special visibility permission (this is also usefull // when the cu is a working copy) Openable focusCU = (Openable) focusType.getCompilationUnit(); String focusPath = null; if (focusCU != null) { focusPath = focusCU.getPath().toString(); if (length > 0) { System.arraycopy( allPotentialSubTypes, 0, allPotentialSubTypes = new String[length + 1], 0, length); allPotentialSubTypes[length] = focusPath; } else { allPotentialSubTypes = new String[] {focusPath}; } length++; } /* * Sort in alphabetical order so that potential subtypes are grouped per project */ Arrays.sort(allPotentialSubTypes); ArrayList potentialSubtypes = new ArrayList(); try { // create element infos for subtypes HandleFactory factory = new HandleFactory(); IJavaProject currentProject = null; if (monitor != null) monitor.beginTask( "", length * 2 /* 1 for build binding, 1 for connect hierarchy*/); // $NON-NLS-1$ for (int i = 0; i < length; i++) { try { String resourcePath = allPotentialSubTypes[i]; // skip duplicate paths (e.g. if focus path was injected when it was already a potential // subtype) if (i > 0 && resourcePath.equals(allPotentialSubTypes[i - 1])) continue; Openable handle; org.eclipse.jdt.core.ICompilationUnit workingCopy = (org.eclipse.jdt.core.ICompilationUnit) wcPaths.get(resourcePath); if (workingCopy != null) { handle = (Openable) workingCopy; } else { handle = resourcePath.equals(focusPath) ? focusCU : factory.createOpenable(resourcePath, this.scope); if (handle == null) continue; // match is outside classpath } IJavaProject project = handle.getJavaProject(); if (currentProject == null) { currentProject = project; potentialSubtypes = new ArrayList(5); } else if (!currentProject.equals(project)) { // build current project buildForProject( (JavaProject) currentProject, potentialSubtypes, workingCopies, localTypes, monitor); currentProject = project; potentialSubtypes = new ArrayList(5); } potentialSubtypes.add(handle); } catch (JavaModelException e) { continue; } } // build last project try { if (currentProject == null) { // case of no potential subtypes currentProject = focusType.getJavaProject(); if (focusType.isBinary()) { potentialSubtypes.add(focusType.getClassFile()); } else { potentialSubtypes.add(focusType.getCompilationUnit()); } } buildForProject( (JavaProject) currentProject, potentialSubtypes, workingCopies, localTypes, monitor); } catch (JavaModelException e) { // ignore } // Compute hierarchy of focus type if not already done (case of a type with potential subtypes // that are not real subtypes) if (!this.hierarchy.contains(focusType)) { try { currentProject = focusType.getJavaProject(); potentialSubtypes = new ArrayList(); if (focusType.isBinary()) { potentialSubtypes.add(focusType.getClassFile()); } else { potentialSubtypes.add(focusType.getCompilationUnit()); } buildForProject( (JavaProject) currentProject, potentialSubtypes, workingCopies, localTypes, monitor); } catch (JavaModelException e) { // ignore } } // Add focus if not already in (case of a type with no explicit super type) if (!this.hierarchy.contains(focusType)) { this.hierarchy.addRootClass(focusType); } } finally { if (monitor != null) monitor.done(); } }