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From source file:net.sf.j2s.core.builder.NameEnvironment.java
License:Open Source License
private void computeClasspathLocations(IWorkspaceRoot root, JavaProject javaProject, SimpleLookupTable binaryLocationsPerProject) throws CoreException { /* Update cycle marker */ IMarker cycleMarker = javaProject.getCycleMarker(); if (cycleMarker != null) { int severity = JavaCore.ERROR.equals(javaProject.getOption(JavaCore.CORE_CIRCULAR_CLASSPATH, true)) ? IMarker.SEVERITY_ERROR : IMarker.SEVERITY_WARNING; if (severity != cycleMarker.getAttribute(IMarker.SEVERITY, severity)) cycleMarker.setAttribute(IMarker.SEVERITY, severity); }/* ww w . jav a2 s . c o m*/ IClasspathEntry[] classpathEntries = javaProject.getExpandedClasspath(); ArrayList sLocations = new ArrayList(classpathEntries.length); ArrayList bLocations = new ArrayList(classpathEntries.length); nextEntry: for (int i = 0, l = classpathEntries.length; i < l; i++) { ClasspathEntry entry = (ClasspathEntry) classpathEntries[i]; IPath path = entry.getPath(); Object target = JavaModel.getTarget(path, true); if (target == null) continue nextEntry; switch (entry.getEntryKind()) { case IClasspathEntry.CPE_SOURCE: if (!(target instanceof IContainer)) continue nextEntry; IPath outputPath = entry.getOutputLocation() != null ? entry.getOutputLocation() : javaProject.getOutputLocation(); IContainer outputFolder; if (outputPath.segmentCount() == 1) { outputFolder = javaProject.getProject(); } else { outputFolder = root.getFolder(outputPath); if (!outputFolder.exists()) createOutputFolder(outputFolder); } sLocations.add(ClasspathLocation.forSourceFolder((IContainer) target, outputFolder, entry.fullInclusionPatternChars(), entry.fullExclusionPatternChars(), entry.ignoreOptionalProblems())); continue nextEntry; case IClasspathEntry.CPE_PROJECT: if (!(target instanceof IProject)) continue nextEntry; IProject prereqProject = (IProject) target; if (!JavaProject.hasJavaNature(prereqProject)) continue nextEntry; // if project doesn't have java nature or is not accessible JavaProject prereqJavaProject = (JavaProject) JavaCore.create(prereqProject); IClasspathEntry[] prereqClasspathEntries = prereqJavaProject.getRawClasspath(); ArrayList seen = new ArrayList(); nextPrereqEntry: for (int j = 0, m = prereqClasspathEntries.length; j < m; j++) { IClasspathEntry prereqEntry = prereqClasspathEntries[j]; if (prereqEntry.getEntryKind() == IClasspathEntry.CPE_SOURCE) { Object prereqTarget = JavaModel.getTarget(prereqEntry.getPath(), true); if (!(prereqTarget instanceof IContainer)) continue nextPrereqEntry; IPath prereqOutputPath = prereqEntry.getOutputLocation() != null ? prereqEntry.getOutputLocation() : prereqJavaProject.getOutputLocation(); IContainer binaryFolder = prereqOutputPath.segmentCount() == 1 ? (IContainer) prereqProject : (IContainer) root.getFolder(prereqOutputPath); if (binaryFolder.exists() && !seen.contains(binaryFolder)) { seen.add(binaryFolder); ClasspathLocation bLocation = ClasspathLocation.forBinaryFolder(binaryFolder, true, entry.getAccessRuleSet()); bLocations.add(bLocation); if (binaryLocationsPerProject != null) { // normal builder mode ClasspathLocation[] existingLocations = (ClasspathLocation[]) binaryLocationsPerProject .get(prereqProject); if (existingLocations == null) { existingLocations = new ClasspathLocation[] { bLocation }; } else { int size = existingLocations.length; System.arraycopy(existingLocations, 0, existingLocations = new ClasspathLocation[size + 1], 0, size); existingLocations[size] = bLocation; } binaryLocationsPerProject.put(prereqProject, existingLocations); } } } } continue nextEntry; case IClasspathEntry.CPE_LIBRARY: if (target instanceof IResource) { IResource resource = (IResource) target; ClasspathLocation bLocation = null; if (resource instanceof IFile) { AccessRuleSet accessRuleSet = (JavaCore.IGNORE .equals(javaProject.getOption(JavaCore.COMPILER_PB_FORBIDDEN_REFERENCE, true)) && JavaCore.IGNORE.equals( javaProject.getOption(JavaCore.COMPILER_PB_DISCOURAGED_REFERENCE, true))) ? null : entry.getAccessRuleSet(); bLocation = ClasspathLocation.forLibrary((IFile) resource, accessRuleSet); } else if (resource instanceof IContainer) { AccessRuleSet accessRuleSet = (JavaCore.IGNORE .equals(javaProject.getOption(JavaCore.COMPILER_PB_FORBIDDEN_REFERENCE, true)) && JavaCore.IGNORE.equals( javaProject.getOption(JavaCore.COMPILER_PB_DISCOURAGED_REFERENCE, true))) ? null : entry.getAccessRuleSet(); bLocation = ClasspathLocation.forBinaryFolder((IContainer) target, false, accessRuleSet); // is library folder not output folder } bLocations.add(bLocation); if (binaryLocationsPerProject != null) { // normal builder mode IProject p = resource.getProject(); // can be the project being built ClasspathLocation[] existingLocations = (ClasspathLocation[]) binaryLocationsPerProject .get(p); if (existingLocations == null) { existingLocations = new ClasspathLocation[] { bLocation }; } else { int size = existingLocations.length; System.arraycopy(existingLocations, 0, existingLocations = new ClasspathLocation[size + 1], 0, size); existingLocations[size] = bLocation; } binaryLocationsPerProject.put(p, existingLocations); } } else if (target instanceof File) { AccessRuleSet accessRuleSet = (JavaCore.IGNORE .equals(javaProject.getOption(JavaCore.COMPILER_PB_FORBIDDEN_REFERENCE, true)) && JavaCore.IGNORE.equals( javaProject.getOption(JavaCore.COMPILER_PB_DISCOURAGED_REFERENCE, true))) ? null : entry.getAccessRuleSet(); bLocations.add(ClasspathLocation.forLibrary(path.toString(), accessRuleSet)); } continue nextEntry; } } // now split the classpath locations... place the output folders ahead of the other .class file folders & jars ArrayList outputFolders = new ArrayList(1); this.sourceLocations = new ClasspathMultiDirectory[sLocations.size()]; if (!sLocations.isEmpty()) { sLocations.toArray(this.sourceLocations); // collect the output folders, skipping duplicates next: for (int i = 0, l = this.sourceLocations.length; i < l; i++) { ClasspathMultiDirectory md = this.sourceLocations[i]; IPath outputPath = md.binaryFolder.getFullPath(); for (int j = 0; j < i; j++) { // compare against previously walked source folders if (outputPath.equals(this.sourceLocations[j].binaryFolder.getFullPath())) { md.hasIndependentOutputFolder = this.sourceLocations[j].hasIndependentOutputFolder; continue next; } } outputFolders.add(md); // also tag each source folder whose output folder is an independent folder & is not also a source folder for (int j = 0, m = this.sourceLocations.length; j < m; j++) if (outputPath.equals(this.sourceLocations[j].sourceFolder.getFullPath())) continue next; md.hasIndependentOutputFolder = true; } } // combine the output folders with the binary folders & jars... place the output folders before other .class file folders & jars this.binaryLocations = new ClasspathLocation[outputFolders.size() + bLocations.size()]; int index = 0; for (int i = 0, l = outputFolders.size(); i < l; i++) this.binaryLocations[index++] = (ClasspathLocation) outputFolders.get(i); for (int i = 0, l = bLocations.size(); i < l; i++) this.binaryLocations[index++] = (ClasspathLocation) bLocations.get(i); }
From source file:org.codehaus.groovy.eclipse.wizards.NewClassWizardPage.java
License:Apache License
@Override protected IStatus typeNameChanged() { StatusInfo status = (StatusInfo) super.typeNameChanged(); IPackageFragment pack = getPackageFragment(); if (pack == null) { return status; }/*from w w w .j a v a2s .c o m*/ IJavaProject project = pack.getJavaProject(); try { if (!project.getProject().hasNature(GroovyNature.GROOVY_NATURE)) { status.setWarning(project.getElementName() + " is not a groovy project. Groovy Nature will be added to project upon completion."); } } catch (CoreException e) { status.setError("Exception when accessing project natures for " + project.getElementName()); } String typeName = getTypeNameWithoutParameters(); // must not exist as a .groovy file if (!isEnclosingTypeSelected() && (status.getSeverity() < IStatus.ERROR)) { if (pack != null) { IType type = null; try { type = project.findType(pack.getElementName(), typeName); } catch (JavaModelException e) { // can ignore } if (type != null && type.getPackageFragment().equals(pack)) { status.setError(NewWizardMessages.NewTypeWizardPage_error_TypeNameExists); } } } // lastly, check exclusion filters to see if Groovy files are allowed in // the source folder if (status.getSeverity() < IStatus.ERROR) { try { ClasspathEntry entry = (ClasspathEntry) ((IPackageFragmentRoot) pack.getParent()) .getRawClasspathEntry(); if (entry != null) { char[][] inclusionPatterns = entry.fullInclusionPatternChars(); char[][] exclusionPatterns = entry.fullExclusionPatternChars(); if (Util.isExcluded(pack.getResource().getFullPath().append(getCompilationUnitName(typeName)), inclusionPatterns, exclusionPatterns, false)) { status.setError( "Cannot create Groovy type because of exclusion patterns on the source folder."); } } } catch (JavaModelException e) { status.setError(e.getLocalizedMessage()); GroovyCore.logException("Exception inside new Groovy class wizard", e); } } return status; }
From source file:org.eclipse.ajdt.core.BuildConfig.java
License:Open Source License
/** * Returns all of the currently included source files in a project * This list is cached and reset every build (or on request by calling flushIncludedSourceFileCache) * @param project/* w ww . j ava 2 s.co m*/ * @return a list of IFiles */ public static Set<IFile> getIncludedSourceFiles(IProject project) { if (projectsToIncludedSourceFiles.get(project) instanceof List) { return projectsToIncludedSourceFiles.get(project); } Set<IFile> sourceFiles = new HashSet<IFile>(); try { IJavaProject jp = JavaCore.create(project); IClasspathEntry[] cpes = jp.getRawClasspath(); for (int i = 0; i < cpes.length; i++) { if ((cpes[i] instanceof ClasspathEntry) && (cpes[i].getEntryKind() == IClasspathEntry.CPE_SOURCE)) { ClasspathEntry cp = (ClasspathEntry) cpes[i]; char[][] incl = cp.fullInclusionPatternChars(); char[][] excl = cp.fullExclusionPatternChars(); IPath path = cpes[i].getPath(); IResource res = project.findMember(path.removeFirstSegments(1)); if ((res != null) && (res instanceof IContainer)) { List<IFile> l = allFiles((IContainer) res); for (IFile file : l) { if (!Util.isExcluded(file, incl, excl)) { sourceFiles.add(file); } } } } } } catch (JavaModelException e) { } projectsToIncludedSourceFiles.put(project, sourceFiles); return sourceFiles; }
From source file:org.eclipse.ajdt.core.BuildConfig.java
License:Open Source License
/** * Experimental version of above that uses a set, not a list * @param project//from w w w . j a v a 2 s .c om * @return */ public static Set<IFile> getIncludedSourceFilesSet(IProject project) { if (projectsToIncludedSourceFiles.get(project) instanceof List) { return projectsToIncludedSourceFiles.get(project); } Set<IFile> sourceFiles = new HashSet<IFile>(); try { IJavaProject jp = JavaCore.create(project); IClasspathEntry[] cpes = jp.getRawClasspath(); for (int i = 0; i < cpes.length; i++) { if ((cpes[i] instanceof ClasspathEntry) && (cpes[i].getEntryKind() == IClasspathEntry.CPE_SOURCE)) { ClasspathEntry cp = (ClasspathEntry) cpes[i]; char[][] incl = cp.fullInclusionPatternChars(); char[][] excl = cp.fullExclusionPatternChars(); IPath path = cpes[i].getPath(); IResource res = project.findMember(path.removeFirstSegments(1)); if ((res != null) && (res instanceof IContainer)) { List<IFile> l = allFiles((IContainer) res); for (IFile file : l) { if (!Util.isExcluded(file, incl, excl)) { sourceFiles.add(file); } } } } } } catch (JavaModelException e) { } projectsToIncludedSourceFiles.put(project, sourceFiles); return sourceFiles; }
From source file:org.eclipse.ajdt.internal.core.builder.BuildClasspathResolver.java
License:Open Source License
private void computeClasspathLocations(IWorkspaceRoot root, JavaProject javaProject, SimpleLookupTable binaryLocationsPerProject) throws CoreException { /* Update cycle marker */ IMarker cycleMarker = javaProject.getCycleMarker(); if (cycleMarker != null) { int severity = JavaCore.ERROR.equals(javaProject.getOption(JavaCore.CORE_CIRCULAR_CLASSPATH, true)) ? IMarker.SEVERITY_ERROR : IMarker.SEVERITY_WARNING; if (severity != ((Integer) cycleMarker.getAttribute(IMarker.SEVERITY)).intValue()) cycleMarker.setAttribute(IMarker.SEVERITY, severity); }//from w w w . j av a 2s. co m IClasspathEntry[] classpathEntries = javaProject.getExpandedClasspath(); ArrayList sLocations = new ArrayList(classpathEntries.length); ArrayList bLocations = new ArrayList(classpathEntries.length); nextEntry: for (int i = 0, l = classpathEntries.length; i < l; i++) { ClasspathEntry entry = (ClasspathEntry) classpathEntries[i]; IPath path = entry.getPath(); Object target = JavaModel.getTarget(path, true); if (target == null) continue nextEntry; switch (entry.getEntryKind()) { case IClasspathEntry.CPE_SOURCE: if (!(target instanceof IContainer)) continue nextEntry; IPath outputPath = entry.getOutputLocation() != null ? entry.getOutputLocation() : javaProject.getOutputLocation(); IContainer outputFolder; if (outputPath.segmentCount() == 1) { outputFolder = javaProject.getProject(); } else { outputFolder = root.getFolder(outputPath); // AspectJ Change Begin // This method can be executing on the wrong thread, where createFolder() will hang, so don't do it! // if (!outputFolder.exists()) // createFolder(outputFolder); // AspectJ Change End } sLocations.add(ClasspathLocation.forSourceFolder((IContainer) target, outputFolder, entry.fullInclusionPatternChars(), entry.fullExclusionPatternChars())); continue nextEntry; case IClasspathEntry.CPE_PROJECT: if (!(target instanceof IProject)) continue nextEntry; IProject prereqProject = (IProject) target; if (!JavaProject.hasJavaNature(prereqProject)) continue nextEntry; // if project doesn't have java nature or is not accessible JavaProject prereqJavaProject = (JavaProject) JavaCore.create(prereqProject); IClasspathEntry[] prereqClasspathEntries = prereqJavaProject.getRawClasspath(); ArrayList seen = new ArrayList(); nextPrereqEntry: for (int j = 0, m = prereqClasspathEntries.length; j < m; j++) { IClasspathEntry prereqEntry = prereqClasspathEntries[j]; if (prereqEntry.getEntryKind() == IClasspathEntry.CPE_SOURCE) { Object prereqTarget = JavaModel.getTarget(prereqEntry.getPath(), true); if (!(prereqTarget instanceof IContainer)) continue nextPrereqEntry; IPath prereqOutputPath = prereqEntry.getOutputLocation() != null ? prereqEntry.getOutputLocation() : prereqJavaProject.getOutputLocation(); IContainer binaryFolder = prereqOutputPath.segmentCount() == 1 ? (IContainer) prereqProject : (IContainer) root.getFolder(prereqOutputPath); if (binaryFolder.exists() && !seen.contains(binaryFolder)) { seen.add(binaryFolder); ClasspathLocation bLocation = ClasspathLocation.forBinaryFolder(binaryFolder, true, entry.getAccessRuleSet()); bLocations.add(bLocation); if (binaryLocationsPerProject != null) { // normal builder mode ClasspathLocation[] existingLocations = (ClasspathLocation[]) binaryLocationsPerProject .get(prereqProject); if (existingLocations == null) { existingLocations = new ClasspathLocation[] { bLocation }; } else { int size = existingLocations.length; System.arraycopy(existingLocations, 0, existingLocations = new ClasspathLocation[size + 1], 0, size); existingLocations[size] = bLocation; } binaryLocationsPerProject.put(prereqProject, existingLocations); } } } } continue nextEntry; case IClasspathEntry.CPE_LIBRARY: if (target instanceof IResource) { IResource resource = (IResource) target; ClasspathLocation bLocation = null; if (resource instanceof IFile) { if (!(org.eclipse.jdt.internal.compiler.util.Util .isPotentialZipArchive(path.lastSegment()))) continue nextEntry; AccessRuleSet accessRuleSet = JavaCore.IGNORE.equals( javaProject.getOption(JavaCore.COMPILER_PB_FORBIDDEN_REFERENCE, true)) ? null : entry.getAccessRuleSet(); bLocation = ClasspathLocation.forLibrary((IFile) resource, accessRuleSet); } else if (resource instanceof IContainer) { AccessRuleSet accessRuleSet = JavaCore.IGNORE.equals( javaProject.getOption(JavaCore.COMPILER_PB_FORBIDDEN_REFERENCE, true)) ? null : entry.getAccessRuleSet(); bLocation = ClasspathLocation.forBinaryFolder((IContainer) target, false, accessRuleSet); // is library folder not output folder } bLocations.add(bLocation); if (binaryLocationsPerProject != null) { // normal builder mode IProject p = resource.getProject(); // can be the project being built ClasspathLocation[] existingLocations = (ClasspathLocation[]) binaryLocationsPerProject .get(p); if (existingLocations == null) { existingLocations = new ClasspathLocation[] { bLocation }; } else { int size = existingLocations.length; System.arraycopy(existingLocations, 0, existingLocations = new ClasspathLocation[size + 1], 0, size); existingLocations[size] = bLocation; } binaryLocationsPerProject.put(p, existingLocations); } } else if (target instanceof File) { if (!(org.eclipse.jdt.internal.compiler.util.Util.isPotentialZipArchive(path.lastSegment()))) continue nextEntry; AccessRuleSet accessRuleSet = JavaCore.IGNORE .equals(javaProject.getOption(JavaCore.COMPILER_PB_FORBIDDEN_REFERENCE, true)) ? null : entry.getAccessRuleSet(); bLocations.add(ClasspathLocation.forLibrary(path.toString(), accessRuleSet)); } continue nextEntry; } } // now split the classpath locations... place the output folders ahead of the other .class file folders & jars ArrayList outputFolders = new ArrayList(1); this.sourceLocations = new ClasspathMultiDirectory[sLocations.size()]; if (!sLocations.isEmpty()) { sLocations.toArray(this.sourceLocations); // collect the output folders, skipping duplicates next: for (int i = 0, l = sourceLocations.length; i < l; i++) { ClasspathMultiDirectory md = sourceLocations[i]; IPath outputPath = md.binaryFolder.getFullPath(); for (int j = 0; j < i; j++) { // compare against previously walked source folders if (outputPath.equals(sourceLocations[j].binaryFolder.getFullPath())) { md.hasIndependentOutputFolder = sourceLocations[j].hasIndependentOutputFolder; continue next; } } outputFolders.add(md); // also tag each source folder whose output folder is an independent folder & is not also a source folder for (int j = 0, m = sourceLocations.length; j < m; j++) if (outputPath.equals(sourceLocations[j].sourceFolder.getFullPath())) continue next; md.hasIndependentOutputFolder = true; } } // combine the output folders with the binary folders & jars... place the output folders before other .class file folders & jars this.binaryLocations = new ClasspathLocation[outputFolders.size() + bLocations.size()]; int index = 0; for (int i = 0, l = outputFolders.size(); i < l; i++) this.binaryLocations[index++] = (ClasspathLocation) outputFolders.get(i); for (int i = 0, l = bLocations.size(); i < l; i++) this.binaryLocations[index++] = (ClasspathLocation) bLocations.get(i); }
From source file:org.eclipse.che.jdt.internal.core.PackageFragmentRoot.java
License:Open Source License
public char[][] fullInclusionPatternChars() { try {/*from www.jav a 2s . com*/ if (getKind() != IPackageFragmentRoot.K_SOURCE) return null; ClasspathEntry entry = (ClasspathEntry) getRawClasspathEntry(); if (entry == null) { return null; } else { return entry.fullInclusionPatternChars(); } } catch (JavaModelException e) { return null; } }
From source file:org.jboss.tools.arquillian.core.internal.compiler.ArquillianNameEnvironment.java
License:Open Source License
private void computeClasspathLocations(IWorkspaceRoot root, JavaProject javaProject, SimpleLookupTable binaryLocationsPerProject) throws CoreException { /* Update cycle marker */ IMarker cycleMarker = javaProject.getCycleMarker(); if (cycleMarker != null) { int severity = JavaCore.ERROR.equals(javaProject.getOption(JavaCore.CORE_CIRCULAR_CLASSPATH, true)) ? IMarker.SEVERITY_ERROR : IMarker.SEVERITY_WARNING; if (severity != cycleMarker.getAttribute(IMarker.SEVERITY, severity)) cycleMarker.setAttribute(IMarker.SEVERITY, severity); }/*from ww w. j a v a 2s. com*/ IClasspathEntry[] classpathEntries = javaProject.getExpandedClasspath(); ArrayList sLocations = new ArrayList(classpathEntries.length); ArrayList bLocations = new ArrayList(classpathEntries.length); nextEntry: for (int i = 0, l = classpathEntries.length; i < l; i++) { ClasspathEntry entry = (ClasspathEntry) classpathEntries[i]; IPath path = entry.getPath(); Object target = JavaModel.getTarget(path, true); if (target == null) continue nextEntry; switch (entry.getEntryKind()) { case IClasspathEntry.CPE_SOURCE: if (!(target instanceof IContainer)) continue nextEntry; IPath outputPath = entry.getOutputLocation() != null ? entry.getOutputLocation() : javaProject.getOutputLocation(); IContainer outputFolder; if (outputPath.segmentCount() == 1) { outputFolder = javaProject.getProject(); } else { outputFolder = root.getFolder(outputPath); if (!outputFolder.exists()) createOutputFolder(outputFolder); } sLocations.add(ClasspathLocation.forSourceFolder((IContainer) target, outputFolder, entry.fullInclusionPatternChars(), entry.fullExclusionPatternChars())); continue nextEntry; case IClasspathEntry.CPE_PROJECT: if (!(target instanceof IProject)) continue nextEntry; IProject prereqProject = (IProject) target; if (!JavaProject.hasJavaNature(prereqProject)) continue nextEntry; // if project doesn't have java nature or is not accessible JavaProject prereqJavaProject = (JavaProject) JavaCore.create(prereqProject); IClasspathEntry[] prereqClasspathEntries = prereqJavaProject.getRawClasspath(); ArrayList seen = new ArrayList(); nextPrereqEntry: for (int j = 0, m = prereqClasspathEntries.length; j < m; j++) { IClasspathEntry prereqEntry = prereqClasspathEntries[j]; if (prereqEntry.getEntryKind() == IClasspathEntry.CPE_SOURCE) { Object prereqTarget = JavaModel.getTarget(prereqEntry.getPath(), true); if (!(prereqTarget instanceof IContainer)) continue nextPrereqEntry; IPath prereqOutputPath = prereqEntry.getOutputLocation() != null ? prereqEntry.getOutputLocation() : prereqJavaProject.getOutputLocation(); IContainer binaryFolder = prereqOutputPath.segmentCount() == 1 ? (IContainer) prereqProject : (IContainer) root.getFolder(prereqOutputPath); if (binaryFolder.exists() && !seen.contains(binaryFolder)) { seen.add(binaryFolder); ClasspathLocation bLocation = ClasspathLocation.forBinaryFolder(binaryFolder, true, entry.getAccessRuleSet()); bLocations.add(bLocation); if (binaryLocationsPerProject != null) { // normal builder mode ClasspathLocation[] existingLocations = (ClasspathLocation[]) binaryLocationsPerProject .get(prereqProject); if (existingLocations == null) { existingLocations = new ClasspathLocation[] { bLocation }; } else { int size = existingLocations.length; System.arraycopy(existingLocations, 0, existingLocations = new ClasspathLocation[size + 1], 0, size); existingLocations[size] = bLocation; } binaryLocationsPerProject.put(prereqProject, existingLocations); } } } } continue nextEntry; case IClasspathEntry.CPE_LIBRARY: if (target instanceof IResource) { IResource resource = (IResource) target; ClasspathLocation bLocation = null; if (resource instanceof IFile) { AccessRuleSet accessRuleSet = (JavaCore.IGNORE .equals(javaProject.getOption(JavaCore.COMPILER_PB_FORBIDDEN_REFERENCE, true)) && JavaCore.IGNORE.equals( javaProject.getOption(JavaCore.COMPILER_PB_DISCOURAGED_REFERENCE, true))) ? null : entry.getAccessRuleSet(); bLocation = ClasspathLocation.forLibrary((IFile) resource, accessRuleSet); } else if (resource instanceof IContainer) { AccessRuleSet accessRuleSet = (JavaCore.IGNORE .equals(javaProject.getOption(JavaCore.COMPILER_PB_FORBIDDEN_REFERENCE, true)) && JavaCore.IGNORE.equals( javaProject.getOption(JavaCore.COMPILER_PB_DISCOURAGED_REFERENCE, true))) ? null : entry.getAccessRuleSet(); bLocation = ClasspathLocation.forBinaryFolder((IContainer) target, false, accessRuleSet); // is library folder not output folder } bLocations.add(bLocation); if (binaryLocationsPerProject != null) { // normal builder mode IProject p = resource.getProject(); // can be the project being built ClasspathLocation[] existingLocations = (ClasspathLocation[]) binaryLocationsPerProject .get(p); if (existingLocations == null) { existingLocations = new ClasspathLocation[] { bLocation }; } else { int size = existingLocations.length; System.arraycopy(existingLocations, 0, existingLocations = new ClasspathLocation[size + 1], 0, size); existingLocations[size] = bLocation; } binaryLocationsPerProject.put(p, existingLocations); } } else if (target instanceof File) { AccessRuleSet accessRuleSet = (JavaCore.IGNORE .equals(javaProject.getOption(JavaCore.COMPILER_PB_FORBIDDEN_REFERENCE, true)) && JavaCore.IGNORE.equals( javaProject.getOption(JavaCore.COMPILER_PB_DISCOURAGED_REFERENCE, true))) ? null : entry.getAccessRuleSet(); bLocations.add(ClasspathLocation.forLibrary(path.toString(), accessRuleSet)); } continue nextEntry; } } // now split the classpath locations... place the output folders ahead of the other .class file folders & jars ArrayList outputFolders = new ArrayList(1); this.sourceLocations = new ClasspathMultiDirectory[sLocations.size()]; if (!sLocations.isEmpty()) { sLocations.toArray(this.sourceLocations); // collect the output folders, skipping duplicates next: for (int i = 0, l = this.sourceLocations.length; i < l; i++) { ClasspathMultiDirectory md = this.sourceLocations[i]; IPath outputPath = md.binaryFolder.getFullPath(); for (int j = 0; j < i; j++) { // compare against previously walked source folders if (outputPath.equals(this.sourceLocations[j].binaryFolder.getFullPath())) { md.hasIndependentOutputFolder = this.sourceLocations[j].hasIndependentOutputFolder; continue next; } } outputFolders.add(md); // also tag each source folder whose output folder is an independent folder & is not also a source folder for (int j = 0, m = this.sourceLocations.length; j < m; j++) if (outputPath.equals(this.sourceLocations[j].sourceFolder.getFullPath())) continue next; md.hasIndependentOutputFolder = true; } } // combine the output folders with the binary folders & jars... place the output folders before other .class file folders & jars // this.binaryLocations = new ClasspathLocation[outputFolders.size() + bLocations.size()]; // int index = 0; // for (int i = 0, l = outputFolders.size(); i < l; i++) // this.binaryLocations[index++] = (ClasspathLocation) outputFolders.get(i); // for (int i = 0, l = bLocations.size(); i < l; i++) // this.binaryLocations[index++] = (ClasspathLocation) bLocations.get(i); this.binaryLocations = new ClasspathLocation[bLocations.size()]; int index = 0; // for (int i = 0, l = outputFolders.size(); i < l; i++) // this.binaryLocations[index++] = (ClasspathLocation) outputFolders.get(i); for (int i = 0, l = bLocations.size(); i < l; i++) this.binaryLocations[index++] = (ClasspathLocation) bLocations.get(i); this.baseBinaryLocations = new ClasspathLocation[binaryLocations.length]; System.arraycopy(binaryLocations, 0, baseBinaryLocations, 0, binaryLocations.length); this.baseSourceLocations = new ClasspathMultiDirectory[sourceLocations.length]; System.arraycopy(sourceLocations, 0, baseSourceLocations, 0, sourceLocations.length); }