/******************************************************************************* * Copyright (c) 2000, 2003 IBM Corporation and others. * All rights reserved. This program and the accompanying materials * are made available under the terms of the Common Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/cpl-v10.html * * Contributors: * IBM Corporation - initial API and implementation * IBM Corporation - added the following constants: * COMPILER_PB_DEPRECATION_IN_DEPRECATED_CODE * COMPILER_PB_STATIC_ACCESS_RECEIVER * COMPILER_TASK_TAGS * CORE_CIRCULAR_CLASSPATH * CORE_INCOMPLETE_CLASSPATH * IBM Corporation - added run(IWorkspaceRunnable, IProgressMonitor) * IBM Corporation - added exclusion patterns to source classpath entries * IBM Corporation - added specific output location to source classpath entries * IBM Corporation - added the following constants: * CORE_JAVA_BUILD_CLEAN_OUTPUT_FOLDER * CLEAN * IBM Corporation - added getClasspathContainerInitializer(String) * IBM Corporation - added the following constants: * CODEASSIST_ARGUMENT_PREFIXES * CODEASSIST_ARGUMENT_SUFFIXES * CODEASSIST_FIELD_PREFIXES * CODEASSIST_FIELD_SUFFIXES * CODEASSIST_LOCAL_PREFIXES * CODEASSIST_LOCAL_SUFFIXES * CODEASSIST_STATIC_FIELD_PREFIXES * CODEASSIST_STATIC_FIELD_SUFFIXES * COMPILER_PB_CHAR_ARRAY_IN_STRING_CONCATENATION *******************************************************************************/ package net.sourceforge.phpdt.core; import java.util.Collection; import java.util.Enumeration; import java.util.HashSet; import java.util.Hashtable; import java.util.Map; import net.sourceforge.phpdt.internal.core.BatchOperation; import net.sourceforge.phpdt.internal.core.BufferManager; import net.sourceforge.phpdt.internal.core.JavaModel; import net.sourceforge.phpdt.internal.core.JavaModelManager; import net.sourceforge.phpdt.internal.core.Region; import org.eclipse.core.resources.IFile; import org.eclipse.core.resources.IFolder; import org.eclipse.core.resources.IMarker; import org.eclipse.core.resources.IMarkerDelta; import org.eclipse.core.resources.IProject; import org.eclipse.core.resources.IResource; import org.eclipse.core.resources.IResourceChangeEvent; import org.eclipse.core.resources.IWorkspace; import org.eclipse.core.resources.IWorkspaceRoot; import org.eclipse.core.resources.IWorkspaceRunnable; import org.eclipse.core.resources.ResourcesPlugin; import org.eclipse.core.runtime.CoreException; import org.eclipse.core.runtime.IConfigurationElement; import org.eclipse.core.runtime.IExecutableExtension; import org.eclipse.core.runtime.IPluginDescriptor; import org.eclipse.core.runtime.IProgressMonitor; import org.eclipse.core.runtime.Plugin; import org.eclipse.core.runtime.Preferences; /** * The plug-in runtime class for the Java model plug-in containing the core * (UI-free) support for Java projects. *
* Like all plug-in runtime classes (subclasses of Plugin
), this
* class is automatically instantiated by the platform when the plug-in gets
* activated. Clients must not attempt to instantiate plug-in runtime classes
* directly.
*
* The single instance of this class can be accessed from any plug-in declaring
* the Java model plug-in as a prerequisite via
* JavaCore.getJavaCore()
. The Java model plug-in will be activated
* automatically if not already active.
*
"org.eclipse.jdt.core"
).
*/
public static final String PLUGIN_ID = "org.eclipse.jdt.core" ; //$NON-NLS-1$
/**
* The identifier for the Java builder
* (value "org.eclipse.jdt.core.javabuilder"
).
*/
public static final String BUILDER_ID = PLUGIN_ID + ".javabuilder" ; //$NON-NLS-1$
/**
* The identifier for the Java model
* (value "org.eclipse.jdt.core.javamodel"
).
*/
public static final String MODEL_ID = PLUGIN_ID + ".javamodel" ; //$NON-NLS-1$
/**
* The identifier for the Java nature
* (value "org.eclipse.jdt.core.javanature"
).
* The presence of this nature on a project indicates that it is
* Java-capable.
*
* @see org.eclipse.core.resources.IProject#hasNature(java.lang.String)
*/
public static final String NATURE_ID = PLUGIN_ID + ".javanature" ; //$NON-NLS-1$
/**
* Name of the handle id attribute in a Java marker.
*/
protected static final String ATT_HANDLE_ID =
"org.eclipse.jdt.internal.core.JavaModelManager.handleId" ; //$NON-NLS-1$
// *************** Possible IDs for configurable options. ********************
/**
* Possible configurable option ID.
* @see #getDefaultOptions()
*/
public static final String COMPILER_LOCAL_VARIABLE_ATTR = PLUGIN_ID + ".compiler.debug.localVariable"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions()
*/
public static final String COMPILER_LINE_NUMBER_ATTR = PLUGIN_ID + ".compiler.debug.lineNumber"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_SOURCE_FILE_ATTR = PLUGIN_ID + ".compiler.debug.sourceFile"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_CODEGEN_UNUSED_LOCAL = PLUGIN_ID + ".compiler.codegen.unusedLocal"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_CODEGEN_TARGET_PLATFORM = PLUGIN_ID + ".compiler.codegen.targetPlatform"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_PB_UNREACHABLE_CODE = PLUGIN_ID + ".compiler.problem.unreachableCode"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_PB_INVALID_IMPORT = PLUGIN_ID + ".compiler.problem.invalidImport"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_PB_OVERRIDING_PACKAGE_DEFAULT_METHOD = PLUGIN_ID + ".compiler.problem.overridingPackageDefaultMethod"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_PB_METHOD_WITH_CONSTRUCTOR_NAME = PLUGIN_ID + ".compiler.problem.methodWithConstructorName"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_PB_DEPRECATION = PLUGIN_ID + ".compiler.problem.deprecation"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_PB_DEPRECATION_IN_DEPRECATED_CODE = PLUGIN_ID + ".compiler.problem.deprecationInDeprecatedCode"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_PB_HIDDEN_CATCH_BLOCK = PLUGIN_ID + ".compiler.problem.hiddenCatchBlock"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_PB_UNUSED_LOCAL = PLUGIN_ID + ".compiler.problem.unusedLocal"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_PB_UNUSED_PARAMETER = PLUGIN_ID + ".compiler.problem.unusedParameter"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_PB_UNUSED_PARAMETER_WHEN_IMPLEMENTING_ABSTRACT = PLUGIN_ID + ".compiler.problem.unusedParameterWhenImplementingAbstract"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_PB_UNUSED_PARAMETER_WHEN_OVERRIDING_CONCRETE = PLUGIN_ID + ".compiler.problem.unusedParameterWhenOverridingConcrete"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String COMPILER_PB_UNUSED_IMPORT = PLUGIN_ID + ".compiler.problem.unusedImport"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String COMPILER_PB_SYNTHETIC_ACCESS_EMULATION = PLUGIN_ID + ".compiler.problem.syntheticAccessEmulation"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String COMPILER_PB_NON_NLS_STRING_LITERAL = PLUGIN_ID + ".compiler.problem.nonExternalizedStringLiteral"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String COMPILER_PB_ASSERT_IDENTIFIER = PLUGIN_ID + ".compiler.problem.assertIdentifier"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_PB_STATIC_ACCESS_RECEIVER = PLUGIN_ID + ".compiler.problem.staticAccessReceiver"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_PB_NO_EFFECT_ASSIGNMENT = PLUGIN_ID + ".compiler.problem.noEffectAssignment"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_PB_INCOMPATIBLE_NON_INHERITED_INTERFACE_METHOD = PLUGIN_ID + ".compiler.problem.incompatibleNonInheritedInterfaceMethod"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_PB_UNUSED_PRIVATE_MEMBER = PLUGIN_ID + ".compiler.problem.unusedPrivateMember"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_PB_CHAR_ARRAY_IN_STRING_CONCATENATION = PLUGIN_ID + ".compiler.problem.noImplicitStringConversion"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String COMPILER_PB_MAX_PER_UNIT = PLUGIN_ID + ".compiler.maxProblemPerUnit"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String COMPILER_SOURCE = PLUGIN_ID + ".compiler.source"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String COMPILER_COMPLIANCE = PLUGIN_ID + ".compiler.compliance"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_TASK_PRIORITIES = PLUGIN_ID + ".compiler.taskPriorities"; //$NON-NLS-1$
/**
* Possible configurable option value for COMPILER_TASK_PRIORITIES.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_TASK_PRIORITY_HIGH = "HIGH"; //$NON-NLS-1$
/**
* Possible configurable option value for COMPILER_TASK_PRIORITIES.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_TASK_PRIORITY_LOW = "LOW"; //$NON-NLS-1$
/**
* Possible configurable option value for COMPILER_TASK_PRIORITIES.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_TASK_PRIORITY_NORMAL = "NORMAL"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String COMPILER_TASK_TAGS = PLUGIN_ID + ".compiler.taskTags"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
*/
public static final String CORE_JAVA_BUILD_ORDER = PLUGIN_ID + ".computeJavaBuildOrder"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String CORE_JAVA_BUILD_RESOURCE_COPY_FILTER = PLUGIN_ID + ".builder.resourceCopyExclusionFilter"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CORE_JAVA_BUILD_DUPLICATE_RESOURCE = PLUGIN_ID + ".builder.duplicateResourceTask"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CORE_JAVA_BUILD_CLEAN_OUTPUT_FOLDER = PLUGIN_ID + ".builder.cleanOutputFolder"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CORE_INCOMPLETE_CLASSPATH = PLUGIN_ID + ".incompleteClasspath"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CORE_CIRCULAR_CLASSPATH = PLUGIN_ID + ".circularClasspath"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String CORE_JAVA_BUILD_INVALID_CLASSPATH = PLUGIN_ID + ".builder.invalidClasspath"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String CORE_ENCODING = PLUGIN_ID + ".encoding"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CORE_ENABLE_CLASSPATH_EXCLUSION_PATTERNS = PLUGIN_ID + ".classpath.exclusionPatterns"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CORE_ENABLE_CLASSPATH_MULTIPLE_OUTPUT_LOCATIONS = PLUGIN_ID + ".classpath.multipleOutputLocations"; //$NON-NLS-1$
/**
* Default task tag
* @since 2.1
*/
public static final String DEFAULT_TASK_TAG = "TODO"; //$NON-NLS-1$
/**
* Default task priority
* @since 2.1
*/
public static final String DEFAULT_TASK_PRIORITY = "NORMAL"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String FORMATTER_NEWLINE_OPENING_BRACE = PLUGIN_ID + ".formatter.newline.openingBrace"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String FORMATTER_NEWLINE_CONTROL = PLUGIN_ID + ".formatter.newline.controlStatement"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String FORMATTER_NEWLINE_ELSE_IF = PLUGIN_ID + ".formatter.newline.elseIf"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String FORMATTER_NEWLINE_EMPTY_BLOCK = PLUGIN_ID + ".formatter.newline.emptyBlock"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String FORMATTER_CLEAR_BLANK_LINES = PLUGIN_ID + ".formatter.newline.clearAll"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String FORMATTER_LINE_SPLIT = PLUGIN_ID + ".formatter.lineSplit"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String FORMATTER_COMPACT_ASSIGNMENT = PLUGIN_ID + ".formatter.style.assignment"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String FORMATTER_TAB_CHAR = PLUGIN_ID + ".formatter.tabulation.char"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String FORMATTER_TAB_SIZE = PLUGIN_ID + ".formatter.tabulation.size"; //$NON-NLS-1$
/**
* Possible configurable option ID
* @see #getDefaultOptions
* @since 2.1
*/
public static final String FORMATTER_SPACE_CASTEXPRESSION = PLUGIN_ID + ".formatter.space.castexpression"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String CODEASSIST_VISIBILITY_CHECK = PLUGIN_ID + ".codeComplete.visibilityCheck"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String CODEASSIST_IMPLICIT_QUALIFICATION = PLUGIN_ID + ".codeComplete.forceImplicitQualification"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CODEASSIST_FIELD_PREFIXES = PLUGIN_ID + ".codeComplete.fieldPrefixes"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CODEASSIST_STATIC_FIELD_PREFIXES = PLUGIN_ID + ".codeComplete.staticFieldPrefixes"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CODEASSIST_LOCAL_PREFIXES = PLUGIN_ID + ".codeComplete.localPrefixes"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CODEASSIST_ARGUMENT_PREFIXES = PLUGIN_ID + ".codeComplete.argumentPrefixes"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CODEASSIST_FIELD_SUFFIXES = PLUGIN_ID + ".codeComplete.fieldSuffixes"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CODEASSIST_STATIC_FIELD_SUFFIXES = PLUGIN_ID + ".codeComplete.staticFieldSuffixes"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CODEASSIST_LOCAL_SUFFIXES = PLUGIN_ID + ".codeComplete.localSuffixes"; //$NON-NLS-1$
/**
* Possible configurable option ID.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CODEASSIST_ARGUMENT_SUFFIXES = PLUGIN_ID + ".codeComplete.argumentSuffixes"; //$NON-NLS-1$
// *************** Possible values for configurable options. ********************
/**
* Possible configurable option value.
* @see #getDefaultOptions
*/
public static final String GENERATE = "generate"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
*/
public static final String DO_NOT_GENERATE = "do not generate"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
*/
public static final String PRESERVE = "preserve"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
*/
public static final String OPTIMIZE_OUT = "optimize out"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
*/
public static final String VERSION_1_1 = "1.1"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
*/
public static final String VERSION_1_2 = "1.2"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String VERSION_1_3 = "1.3"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String VERSION_1_4 = "1.4"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String ABORT = "abort"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
*/
public static final String ERROR = "error"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
*/
public static final String WARNING = "warning"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
*/
public static final String IGNORE = "ignore"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
*/
public static final String COMPUTE = "compute"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String INSERT = "insert"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String DO_NOT_INSERT = "do not insert"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String PRESERVE_ONE = "preserve one"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String CLEAR_ALL = "clear all"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String NORMAL = "normal"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String COMPACT = "compact"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String TAB = "tab"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String SPACE = "space"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String ENABLED = "enabled"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.0
*/
public static final String DISABLED = "disabled"; //$NON-NLS-1$
/**
* Possible configurable option value.
* @see #getDefaultOptions
* @since 2.1
*/
public static final String CLEAN = "clean"; //$NON-NLS-1$
/**
* Creates the Java core plug-in.
* @since 2.1
*/
public JavaCore(IPluginDescriptor pluginDescriptor) {
super(pluginDescriptor);
JAVA_CORE_PLUGIN = this;
}
/**
* Adds the given listener for changes to Java elements.
* Has no effect if an identical listener is already registered.
*
* This listener will only be notified during the POST_CHANGE resource change notification
* and any reconcile operation (POST_RECONCILE).
* For finer control of the notification, use addElementChangedListener(IElementChangedListener,int)
,
* which allows to specify a different eventMask.
*
* @see ElementChangedEvent
* @param listener the listener
*/
public static void addElementChangedListener(IElementChangedListener listener) {
addElementChangedListener(listener, ElementChangedEvent.POST_CHANGE | ElementChangedEvent.POST_RECONCILE);
}
/**
* Adds the given listener for changes to Java elements.
* Has no effect if an identical listener is already registered.
* After completion of this method, the given listener will be registered for exactly
* the specified events. If they were previously registered for other events, they
* will be deregistered.
* * Once registered, a listener starts receiving notification of changes to * java elements in the model. The listener continues to receive * notifications until it is replaced or removed. *
*
* Listeners can listen for several types of event as defined in ElementChangeEvent
.
* Clients are free to register for any number of event types however if they register
* for more than one, it is their responsibility to ensure they correctly handle the
* case where the same java element change shows up in multiple notifications.
* Clients are guaranteed to receive only the events for which they are registered.
*
String
,
* value type: String
)
* @param element the Java element for which the marker needs to be configured
*/
public static void addJavaElementMarkerAttributes(
Map attributes,
IJavaElement element) {
// if (element instanceof IMember)
// element = ((IMember) element).getClassFile();
if (attributes != null && element != null)
attributes.put(ATT_HANDLE_ID, element.getHandleIdentifier());
}
/**
* Configures the given marker for the given Java element.
* Used for markers, which denote a Java element rather than a resource.
*
* @param marker the marker to be configured
* @param element the Java element for which the marker needs to be configured
* @exception CoreException if the IMarker.setAttribute
on the marker fails
*/
public void configureJavaElementMarker(IMarker marker, IJavaElement element)
throws CoreException {
// if (element instanceof IMember)
// element = ((IMember) element).getClassFile();
if (marker != null && element != null)
marker.setAttribute(ATT_HANDLE_ID, element.getHandleIdentifier());
}
/**
* Returns the Java model element corresponding to the given handle identifier
* generated by IJavaElement.getHandleIdentifier()
, or
* null
if unable to create the associated element.
*/
public static IJavaElement create(String handleIdentifier) {
if (handleIdentifier == null) {
return null;
}
try {
return JavaModelManager.getJavaModelManager().getHandleFromMemento(handleIdentifier);
} catch (JavaModelException e) {
return null;
}
}
/**
* Returns the Java element corresponding to the given file, or
* null
if unable to associate the given file
* with a Java element.
*
* The file must be one of:
.java
file - the element returned is the corresponding ICompilationUnit
.class
file - the element returned is the corresponding IClassFile
.jar
file - the element returned is the corresponding IPackageFragmentRoot
* Creating a Java element has the side effect of creating and opening all of the
* element's parents if they are not yet open.
*
* @param the given file
* @return the Java element corresponding to the given file, or
* null
if unable to associate the given file
* with a Java element
*/
public static IJavaElement create(IFile file) {
return JavaModelManager.create(file, null);
}
/**
* Returns the package fragment or package fragment root corresponding to the given folder, or
* null
if unable to associate the given folder with a Java element.
*
* Note that a package fragment root is returned rather than a default package. *
* Creating a Java element has the side effect of creating and opening all of the
* element's parents if they are not yet open.
*
* @param the given folder
* @return the package fragment or package fragment root corresponding to the given folder, or
* null
if unable to associate the given folder with a Java element
*/
public static IJavaElement create(IFolder folder) {
return JavaModelManager.create(folder, null);
}
/**
* Returns the Java project corresponding to the given project.
*
* Creating a Java Project has the side effect of creating and opening all of the * project's parents if they are not yet open. *
* Note that no check is done at this time on the existence or the java nature of this project.
*
* @param project the given project
* @return the Java project corresponding to the given project, null if the given project is null
*/
public static IJavaProject create(IProject project) {
if (project == null) {
return null;
}
JavaModel javaModel = JavaModelManager.getJavaModelManager().getJavaModel();
return javaModel.getJavaProject(project);
}
/**
* Returns the Java element corresponding to the given resource, or
* null
if unable to associate the given resource
* with a Java element.
*
* The resource must be one of:
IJavaProject
.java
file - the element returned is the corresponding ICompilationUnit
.class
file - the element returned is the corresponding IClassFile
.jar
file - the element returned is the corresponding IPackageFragmentRoot
IPackageFragmentRoot
* or IPackageFragment
IJavaModel
* Creating a Java element has the side effect of creating and opening all of the
* element's parents if they are not yet open.
*
* @param resource the given resource
* @return the Java element corresponding to the given resource, or
* null
if unable to associate the given resource
* with a Java element
*/
public static IJavaElement create(IResource resource) {
return JavaModelManager.create(resource, null);
}
/**
* Returns the Java model.
*
* @param root the given root
* @return the Java model, or null
if the root is null
*/
public static IJavaModel create(IWorkspaceRoot root) {
if (root == null) {
return null;
}
return JavaModelManager.getJavaModelManager().getJavaModel();
}
/**
* Creates and returns a class file element for
* the given .class
file. Returns null
if unable
* to recognize the class file.
*
* @param file the given .class
file
* @return a class file element for the given .class
file, or null
if unable
* to recognize the class file
*/
// public static IClassFile createClassFileFrom(IFile file) {
// return JavaModelManager.createClassFileFrom(file, null);
// }
/**
* Creates and returns a compilation unit element for
* the given .java
file. Returns null
if unable
* to recognize the compilation unit.
*
* @param file the given .java
file
* @return a compilation unit element for the given .java
file, or null
if unable
* to recognize the compilation unit
*/
public static ICompilationUnit createCompilationUnitFrom(IFile file) {
return JavaModelManager.createCompilationUnitFrom(file, null);
}
/**
* Creates and returns a handle for the given JAR file.
* The Java model associated with the JAR's project may be
* created as a side effect.
*
* @param file the given JAR file
* @return a handle for the given JAR file, or null
if unable to create a JAR package fragment root.
* (for example, if the JAR file represents a non-Java resource)
*/
// public static IPackageFragmentRoot createJarPackageFragmentRootFrom(IFile file) {
// return JavaModelManager.createJarPackageFragmentRootFrom(file, null);
// }
/**
* Answers the project specific value for a given classpath container.
* In case this container path could not be resolved, then will answer null
.
* Both the container path and the project context are supposed to be non-null.
*
* The containerPath is a formed by a first ID segment followed with extra segments, which can be
* used as additional hints for resolution. If no container was ever recorded for this container path
* onto this project (using setClasspathContainer
, then a
* ClasspathContainerInitializer
will be activated if any was registered for this container
* ID onto the extension point "org.eclipse.jdt.core.classpathContainerInitializer".
*
* There is no assumption that the returned container must answer the exact same containerPath
* when requested IClasspathContainer#getPath
.
* Indeed, the containerPath is just an indication for resolving it to an actual container object.
*
* Classpath container values are persisted locally to the workspace, but
* are not preserved from a session to another. It is thus highly recommended to register a
* ClasspathContainerInitializer
for each referenced container
* (through the extension point "org.eclipse.jdt.core.ClasspathContainerInitializer").
*
* @param containerPath the name of the container, which needs to be resolved
* @param project a specific project in which the container is being resolved
* @return the corresponding classpath container or null
if unable to find one.
*
* @exception JavaModelException if an exception occurred while resolving the container, or if the resolved container
* contains illegal entries (contains CPE_CONTAINER entries or null entries).
*
* @see ClasspathContainerInitializer
* @see IClasspathContainer
* @see #setClasspathContainer(IPath, IJavaProject[], IClasspathContainer[], IProgressMonitor)
* @since 2.0
*/
// public static IClasspathContainer getClasspathContainer(final IPath containerPath, final IJavaProject project) throws JavaModelException {
//
// IClasspathContainer container = JavaModelManager.containerGet(project, containerPath);
// if (container == JavaModelManager.ContainerInitializationInProgress) return null; // break cycle
//
// if (container == null){
// final ClasspathContainerInitializer initializer = JavaCore.getClasspathContainerInitializer(containerPath.segment(0));
// if (initializer != null){
// if (JavaModelManager.CP_RESOLVE_VERBOSE){
// System.out.println("CPContainer INIT - triggering initialization of: ["+project.getElementName()+"] " + containerPath + " using initializer: "+ initializer); //$NON-NLS-1$ //$NON-NLS-2$//$NON-NLS-3$
// new Exception("FAKE exception for dumping current CPContainer (["+project.getElementName()+"] "+ containerPath+ ")INIT invocation stack trace").printStackTrace(); //$NON-NLS-1$//$NON-NLS-2$//$NON-NLS-3$
// }
// JavaModelManager.containerPut(project, containerPath, JavaModelManager.ContainerInitializationInProgress); // avoid initialization cycles
// boolean ok = false;
// try {
// // wrap initializer call with Safe runnable in case initializer would be causing some grief
// Platform.run(new ISafeRunnable() {
// public void handleException(Throwable exception) {
// Util.log(exception, "Exception occurred in classpath container initializer: "+initializer); //$NON-NLS-1$
// }
// public void run() throws Exception {
// initializer.initialize(containerPath, project);
// }
// });
//
// // retrieve value (if initialization was successful)
// container = JavaModelManager.containerGet(project, containerPath);
// if (container == JavaModelManager.ContainerInitializationInProgress) return null; // break cycle
// ok = true;
// } finally {
// if (!ok) JavaModelManager.containerPut(project, containerPath, null); // flush cache
// }
// if (JavaModelManager.CP_RESOLVE_VERBOSE){
// System.out.print("CPContainer INIT - after resolution: ["+project.getElementName()+"] " + containerPath + " --> "); //$NON-NLS-2$//$NON-NLS-1$//$NON-NLS-3$
// if (container != null){
// System.out.print("container: "+container.getDescription()+" {"); //$NON-NLS-2$//$NON-NLS-1$
// IClasspathEntry[] entries = container.getClasspathEntries();
// if (entries != null){
// for (int i = 0; i < entries.length; i++){
// if (i > 0) System.out.println(", ");//$NON-NLS-1$
// System.out.println(entries[i]);
// }
// }
// System.out.println("}");//$NON-NLS-1$
// } else {
// System.out.println("{unbound}");//$NON-NLS-1$
// }
// }
// } else {
// if (JavaModelManager.CP_RESOLVE_VERBOSE){
// System.out.println("CPContainer INIT - no initializer found for: "+project.getElementName()+"] " + containerPath); //$NON-NLS-1$ //$NON-NLS-2$
// }
// }
// }
// return container;
// }
/**
* Helper method finding the classpath container initializer registered for a given classpath container ID
* or null
if none was found while iterating over the contributions to extension point to
* the extension point "org.eclipse.jdt.core.classpathContainerInitializer".
*
* A containerID is the first segment of any container path, used to identify the registered container initializer. *
* @param String - a containerID identifying a registered initializer
* @return ClasspathContainerInitializer - the registered classpath container initializer or
* Classpath variable values are persisted locally to the workspace, and
* are preserved from session to session.
*
* Note that classpath variables can be contributed registered initializers for,
* using the extension point "org.eclipse.jdt.core.classpathVariableInitializer".
* If an initializer is registered for a variable, its persisted value will be ignored:
* its initializer will thus get the opportunity to rebind the variable differently on
* each session.
*
* @param variableName the name of the classpath variable
* @return the path, or
* @param the given variable
* @return ClasspathVariableInitializer - the registered classpath variable initializer or
* Classpath variable values are persisted locally to the workspace, and
* are preserved from session to session.
*
*
* @return the list of classpath variable names
* @see #setClasspathVariable
*/
// public static String[] getClasspathVariableNames() {
// return JavaModelManager.variableNames();
// }
/**
* Returns a table of all known configurable options with their default values.
* These options allow to configure the behaviour of the underlying components.
* The client may safely use the result as a template that they can modify and
* then pass to
* For a complete description of the configurable options, see
* For a complete description of the configurable options, see
* Variable source attachment path and root path are also resolved and recorded in the resulting classpath entry.
*
* NOTE: This helper method does not handle classpath containers, for which should rather be used
*
*
* @param entry the given variable entry
* @return the resolved library or project classpath entry, or
* A container entry allows to express indirect references to a set of libraries, projects and variable entries,
* which can be interpreted differently for each Java project where it is used.
* A classpath container entry can be resolved using
* A container is exclusively resolved by a
* A container path must be formed of at least one segment, where:
* Example of an ClasspathContainerInitializer for a classpath container denoting a default JDK container:
*
* containerEntry = JavaCore.newContainerEntry(new Path("MyProvidedJDK/default"));
*
*
* Note that this operation does not attempt to validate classpath containers
* or access the resources at the given paths.
*
* The resulting entry is not exported to dependent projects. This method is equivalent to
*
* @param containerPath the path identifying the container, it must be formed of two
* segments
* @return a new container classpath entry
*
* @see JavaCore#getClasspathContainer(IPath, IJavaProject)
* @see JavaCore#newContainerEntry(IPath, boolean)
* @since 2.0
*/
// public static IClasspathEntry newContainerEntry(IPath containerPath) {
//
// return newContainerEntry(containerPath, false);
// }
/**
* Creates and returns a new classpath entry of kind
* A container entry allows to express indirect references to a set of libraries, projects and variable entries,
* which can be interpreted differently for each Java project where it is used.
* A classpath container entry can be resolved using
* A container is exclusively resolved by a
* A container path must be formed of at least one segment, where:
* Example of an ClasspathContainerInitializer for a classpath container denoting a default JDK container:
*
* containerEntry = JavaCore.newContainerEntry(new Path("MyProvidedJDK/default"));
*
*
* Note that this operation does not attempt to validate classpath containers
* or access the resources at the given paths.
*
* @param containerPath the path identifying the container, it must be formed of at least
* one segment (ID+hints)
* @param isExported a boolean indicating whether this entry is contributed to dependent
* projects in addition to the output location
* @return a new container classpath entry
*
* @see JavaCore#getClasspathContainer(IPath, IJavaProject)
* @see JavaCore#setClasspathContainer(IPath, IJavaProject[], IClasspathContainer[], IProgressMonitor)
* @see JavaCore#newContainerEntry(IPath, boolean)
* @since 2.0
*/
// public static IClasspathEntry newContainerEntry(IPath containerPath, boolean isExported) {
//
// if (containerPath == null || containerPath.segmentCount() < 1) {
// Assert.isTrue(
// false,
// "Illegal classpath container path: \'" + containerPath.makeRelative().toString() + "\', must have at least one segment (containerID+hints)"); //$NON-NLS-1$//$NON-NLS-2$
// }
// return new ClasspathEntry(
// IPackageFragmentRoot.K_SOURCE,
// IClasspathEntry.CPE_CONTAINER,
// containerPath,
// ClasspathEntry.NO_EXCLUSION_PATTERNS,
// null, // source attachment
// null, // source attachment root
// null, // specific output folder
// isExported);
// }
/**
* Creates and returns a new non-exported classpath entry of kind
* A library entry is used to denote a prerequisite JAR or root folder containing binaries.
* The target JAR or folder can either be defined internally to the workspace (absolute path relative
* to the workspace root) or externally to the workspace (absolute path in the file system).
*
* e.g. Here are some examples of binary path usage
* The resulting entry is not exported to dependent projects. This method is equivalent to
*
*
* @param path the absolute path of the binary archive
* @param sourceAttachmentPath the absolute path of the corresponding source archive or folder,
* or
* A library entry is used to denote a prerequisite JAR or root folder containing binaries.
* The target JAR or folder can either be defined internally to the workspace (absolute path relative
* to the workspace root) or externally to the workspace (absolute path in the file system).
*
* e.g. Here are some examples of binary path usage
*
* @param path the absolute path of the binary archive
* @param sourceAttachmentPath the absolute path of the corresponding source archive or folder,
* or
* A project entry is used to denote a prerequisite project on a classpath.
* The referenced project will be contributed as a whole, either as sources (in the Java Model, it
* contributes all its package fragment roots) or as binaries (when building, it contributes its
* whole output location).
*
* A project reference allows to indirect through another project, independently from its internal layout.
*
* The prerequisite project is referred to using an absolute path relative to the workspace root.
*
* The resulting entry is not exported to dependent projects. This method is equivalent to
*
*
* @param path the absolute path of the binary archive
* @return a new project classpath entry
*
* @see JavaCore#newProjectEntry(IPath, boolean)
*/
// public static IClasspathEntry newProjectEntry(IPath path) {
// return newProjectEntry(path, false);
// }
/**
* Creates and returns a new classpath entry of kind
* A project entry is used to denote a prerequisite project on a classpath.
* The referenced project will be contributed as a whole, either as sources (in the Java Model, it
* contributes all its package fragment roots) or as binaries (when building, it contributes its
* whole output location).
*
* A project reference allows to indirect through another project, independently from its internal layout.
*
* The prerequisite project is referred to using an absolute path relative to the workspace root.
*
*
* @param path the absolute path of the prerequisite project
* @param isExported indicates whether this entry is contributed to dependent
* projects in addition to the output location
* @return a new project classpath entry
* @since 2.0
*/
// public static IClasspathEntry newProjectEntry(IPath path, boolean isExported) {
//
// if (!path.isAbsolute()) Assert.isTrue(false, "Path for IClasspathEntry must be absolute"); //$NON-NLS-1$
//
// return new ClasspathEntry(
// IPackageFragmentRoot.K_SOURCE,
// IClasspathEntry.CPE_PROJECT,
// path,
// ClasspathEntry.NO_EXCLUSION_PATTERNS,
// null, // source attachment
// null, // source attachment root
// null, // specific output folder
// isExported);
// }
/**
* Returns a new empty region.
*
* @return a new empty region
*/
public static IRegion newRegion() {
return new Region();
}
/**
* Creates and returns a new classpath entry of kind
* The source folder is referred to using an absolute path relative to the
* workspace root, e.g.
* The source classpath entry created by this method includes all source
* files below the given workspace-relative path. To selectively exclude
* some of these source files, use the factory method
*
* Note that all sources/binaries inside a project are contributed as a whole through
* a project entry (see
* The source folder is referred to using an absolute path relative to the
* workspace root, e.g.
* The source classpath entry created by this method includes all source
* files below the given workspace-relative path except for those matched
* by one (or more) of the given exclusion patterns. Each exclusion pattern
* is represented by a relative path, which is interpreted as relative to
* the source folder. For example, if the source folder path is
*
* Note that all sources/binaries inside a project are contributed as a whole through
* a project entry (see
* The source folder is referred to using an absolute path relative to the
* workspace root, e.g.
* The source classpath entry created by this method includes all source
* files below the given workspace-relative path except for those matched
* by one (or more) of the given exclusion patterns. Each exclusion pattern
* is represented by a relative path, which is interpreted as relative to
* the source folder. For example, if the source folder path is
*
* Additionally, a source entry can be associated with a specific output location.
* By doing so, the Java builder will ensure that the generated ".class" files will
* be issued inside this output location, as opposed to be generated into the
* project default output location (when output location is
* Also note that all sources/binaries inside a project are contributed as a whole through
* a project entry (see
* A variable entry allows to express indirect references on a classpath to other projects or libraries,
* depending on what the classpath variable is referring.
*
* It is possible to register an automatic initializer (
* e.g. Here are some examples of variable path usage
* The resulting entry is not exported to dependent projects. This method is equivalent to
*
*
* @param variablePath the path of the binary archive; first segment is the
* name of a classpath variable
* @param variableSourceAttachmentPath the path of the corresponding source archive,
* or
* A variable entry allows to express indirect references on a classpath to other projects or libraries,
* depending on what the classpath variable is referring.
*
* It is possible to register an automatic initializer (
* e.g. Here are some examples of variable path usage
*
* @param variablePath the path of the binary archive; first segment is the
* name of a classpath variable
* @param variableSourceAttachmentPath the path of the corresponding source archive,
* or
* This functionality cannot be used while the resource tree is locked.
*
* Classpath variable values are persisted locally to the workspace, and
* are preserved from session to session.
*
*
* @param variableName the name of the classpath variable
* @see #setClasspathVariable
*
* @deprecated - use version with extra IProgressMonitor
*/
// public static void removeClasspathVariable(String variableName) {
// removeClasspathVariable(variableName, null);
// }
/**
* Removed the given classpath variable. Does nothing if no value was
* set for this classpath variable.
*
* This functionality cannot be used while the resource tree is locked.
*
* Classpath variable values are persisted locally to the workspace, and
* are preserved from session to session.
*
*
* @param variableName the name of the classpath variable
* @param monitor the progress monitor to report progress
* @see #setClasspathVariable
*/
// public static void removeClasspathVariable(
// String variableName,
// IProgressMonitor monitor) {
//
// try {
// updateVariableValues(new String[]{ variableName}, new IPath[]{ null }, monitor);
// } catch (JavaModelException e) {
// }
// }
/**
* Removes the given element changed listener.
* Has no affect if an identical listener is not registered.
*
* @param listener the listener
*/
public static void removeElementChangedListener(IElementChangedListener listener) {
JavaModelManager.getJavaModelManager().removeElementChangedListener(listener);
}
/**
* Runs the given action as an atomic Java model operation.
*
* After running a method that modifies Java elements,
* registered listeners receive after-the-fact notification of
* what just transpired, in the form of a element changed event.
* This method allows clients to call a number of
* methods that modify java elements and only have element
* changed event notifications reported at the end of the entire
* batch.
*
* If this method is called outside the dynamic scope of another such
* call, this method runs the action and then reports a single
* element changed event describing the net effect of all changes
* done to java elements by the action.
*
* If this method is called in the dynamic scope of another such
* call, this method simply runs the action.
*
*
* There is no assumption that each individual container value passed in argument
* (
* In reaction to changing container values, the JavaModel will be updated to reflect the new
* state of the updated container.
*
* This functionality cannot be used while the resource tree is locked.
*
* Classpath container values are persisted locally to the workspace, but
* are not preserved from a session to another. It is thus highly recommended to register a
*
* Note: setting a container to
* @param containerPath - the name of the container reference, which is being updated
* @param affectedProjects - the set of projects for which this container is being bound
* @param respectiveContainers - the set of respective containers for the affected projects
* @param monitor a monitor to report progress
*
* @see ClasspathContainerInitializer
* @see #getClasspathContainer(IPath, IJavaProject)
* @see IClasspathContainer
* @since 2.0
*/
// public static void setClasspathContainer(final IPath containerPath, IJavaProject[] affectedProjects, IClasspathContainer[] respectiveContainers, IProgressMonitor monitor) throws JavaModelException {
//
// if (affectedProjects.length != respectiveContainers.length) Assert.isTrue(false, "Projects and containers collections should have the same size"); //$NON-NLS-1$
//
// if (monitor != null && monitor.isCanceled()) return;
//
// if (JavaModelManager.CP_RESOLVE_VERBOSE){
// System.out.println("CPContainer SET - setting container: ["+containerPath+"] for projects: {" //$NON-NLS-1$ //$NON-NLS-2$
// + (Util.toString(affectedProjects,
// new Util.Displayable(){
// public String displayString(Object o) { return ((IJavaProject) o).getElementName(); }
// }))
// + "} with values: " //$NON-NLS-1$
// + (Util.toString(respectiveContainers,
// new Util.Displayable(){
// public String displayString(Object o) { return ((IClasspathContainer) o).getDescription(); }
// }))
// );
// }
//
// final int projectLength = affectedProjects.length;
// final IJavaProject[] modifiedProjects;
// System.arraycopy(affectedProjects, 0, modifiedProjects = new IJavaProject[projectLength], 0, projectLength);
// final IClasspathEntry[][] oldResolvedPaths = new IClasspathEntry[projectLength][];
//
// // filter out unmodified project containers
// int remaining = 0;
// for (int i = 0; i < projectLength; i++){
//
// if (monitor != null && monitor.isCanceled()) return;
//
// IJavaProject affectedProject = affectedProjects[i];
// IClasspathContainer newContainer = respectiveContainers[i];
// if (newContainer == null) newContainer = JavaModelManager.ContainerInitializationInProgress; // 30920 - prevent infinite loop
// boolean found = false;
// if (JavaProject.hasJavaNature(affectedProject.getProject())){
// IClasspathEntry[] rawClasspath = affectedProject.getRawClasspath();
// for (int j = 0, cpLength = rawClasspath.length; j
* Classpath variable values are persisted locally to the workspace, and
* are preserved from session to session.
*
*
* @param variableName the name of the classpath variable
* @param path the path
* @see #getClasspathVariable
*
* @deprecated - use API with IProgressMonitor
*/
// public static void setClasspathVariable(String variableName, IPath path)
// throws JavaModelException {
//
// setClasspathVariable(variableName, path, null);
// }
/**
* Sets the value of the given classpath variable.
* The path must not be null.
*
* This functionality cannot be used while the resource tree is locked.
*
* Classpath variable values are persisted locally to the workspace, and
* are preserved from session to session.
*
* Updating a variable with the same value has no effect.
*
* @param variableName the name of the classpath variable
* @param path the path
* @param monitor a monitor to report progress
* @see #getClasspathVariable
*/
// public static void setClasspathVariable(
// String variableName,
// IPath path,
// IProgressMonitor monitor)
// throws JavaModelException {
//
// if (path == null) Assert.isTrue(false, "Variable path cannot be null"); //$NON-NLS-1$
// setClasspathVariables(new String[]{variableName}, new IPath[]{ path }, monitor);
// }
/**
* Sets the values of all the given classpath variables at once.
* Null paths can be used to request corresponding variable removal.
*
* This functionality cannot be used while the resource tree is locked.
*
* Classpath variable values are persisted locally to the workspace, and
* are preserved from session to session.
*
* Updating a variable with the same value has no effect.
*
* @param variableNames an array of names for the updated classpath variables
* @param paths an array of path updates for the modified classpath variables (null
* meaning that the corresponding value will be removed
* @param monitor a monitor to report progress
* @see #getClasspathVariable
* @since 2.0
*/
// public static void setClasspathVariables(
// String[] variableNames,
// IPath[] paths,
// IProgressMonitor monitor)
// throws JavaModelException {
//
// if (variableNames.length != paths.length) Assert.isTrue(false, "Variable names and paths collections should have the same size"); //$NON-NLS-1$
// //TODO: should check that null cannot be used as variable paths
// updateVariableValues(variableNames, paths, monitor);
// }
/* (non-Javadoc)
* Method declared on IExecutableExtension.
* Record any necessary initialization data from the plugin.
*/
public void setInitializationData(
IConfigurationElement cfig,
String propertyName,
Object data)
throws CoreException {
}
/**
* Sets the current table of options. All and only the options explicitly included in the given table
* are remembered; all previous option settings are forgotten, including ones not explicitly
* mentioned.
*
* For a complete description of the configurable options, see
* De-registers the JavaModelManager as a resource changed listener and save participant.
*
* @see org.eclipse.core.runtime.Plugin#shutdown()
*/
public void shutdown() {
savePluginPreferences();
IWorkspace workspace = ResourcesPlugin.getWorkspace();
workspace.removeResourceChangeListener(JavaModelManager.getJavaModelManager().deltaProcessor);
workspace.removeSaveParticipant(this);
((JavaModelManager) JavaModelManager.getJavaModelManager()).shutdown();
}
/**
* Initiate the background indexing process.
* This should be deferred after the plugin activation.
*/
// private void startIndexing() {
//
// JavaModelManager.getJavaModelManager().getIndexManager().reset();
// }
/**
* Startup of the JavaCore plug-in.
*
* Registers the JavaModelManager as a resource changed listener and save participant.
* Starts the background indexing, and restore saved classpath variable values.
*
* @see org.eclipse.core.runtime.Plugin#startup()
*/
public void startup() {
JavaModelManager manager = JavaModelManager.getJavaModelManager();
try {
manager.configurePluginDebugOptions();
// request state folder creation (workaround 19885)
JavaCore.getPlugin().getStateLocation();
// retrieve variable values
JavaCore.getPlugin().getPluginPreferences().addPropertyChangeListener(new JavaModelManager.PluginPreferencesListener());
// TODO khartlage temp-del
// manager.loadVariablesAndContainers();
IWorkspace workspace = ResourcesPlugin.getWorkspace();
workspace.addResourceChangeListener(
manager.deltaProcessor,
IResourceChangeEvent.PRE_AUTO_BUILD
| IResourceChangeEvent.POST_AUTO_BUILD
| IResourceChangeEvent.POST_CHANGE
| IResourceChangeEvent.PRE_DELETE
| IResourceChangeEvent.PRE_CLOSE);
// startIndexing();
workspace.addSaveParticipant(this, manager);
} catch (CoreException e) {
} catch (RuntimeException e) {
manager.shutdown();
throw e;
}
}
/**
* Internal updating of a variable values (null path meaning removal), allowing to change multiple variable values at once.
*/
// private static void updateVariableValues(
// String[] variableNames,
// IPath[] variablePaths,
// IProgressMonitor monitor) throws JavaModelException {
//
// if (monitor != null && monitor.isCanceled()) return;
//
// if (JavaModelManager.CP_RESOLVE_VERBOSE){
// System.out.println("CPVariable SET - setting variables: {" + Util.toString(variableNames) //$NON-NLS-1$
// + "} with values: " + Util.toString(variablePaths)); //$NON-NLS-1$
// }
//
// int varLength = variableNames.length;
//
// // gather classpath information for updating
// final HashMap affectedProjects = new HashMap(5);
// JavaModelManager manager = JavaModelManager.getJavaModelManager();
// IJavaModel model = manager.getJavaModel();
//
// // filter out unmodified variables
// int discardCount = 0;
// for (int i = 0; i < varLength; i++){
// String variableName = variableNames[i];
// IPath oldPath = (IPath)JavaModelManager.variableGet(variableName); // if reentering will provide previous session value
// if (oldPath == JavaModelManager.VariableInitializationInProgress){
// IPath previousPath = (IPath)JavaModelManager.PreviousSessionVariables.get(variableName);
// if (previousPath != null){
// if (JavaModelManager.CP_RESOLVE_VERBOSE){
// System.out.println("CPVariable INIT - reentering access to variable: " + variableName+ " during its initialization, will see previous value: "+ previousPath); //$NON-NLS-1$ //$NON-NLS-2$
// }
// JavaModelManager.variablePut(variableName, previousPath); // replace value so reentering calls are seeing old value
// }
// oldPath = null; //33695 - cannot filter out restored variable, must update affected project to reset cached CP
// }
// if (oldPath != null && oldPath.equals(variablePaths[i])){
// variableNames[i] = null;
// discardCount++;
// }
// }
// if (discardCount > 0){
// if (discardCount == varLength) return;
// int changedLength = varLength - discardCount;
// String[] changedVariableNames = new String[changedLength];
// IPath[] changedVariablePaths = new IPath[changedLength];
// for (int i = 0, index = 0; i < varLength; i++){
// if (variableNames[i] != null){
// changedVariableNames[index] = variableNames[i];
// changedVariablePaths[index] = variablePaths[i];
// index++;
// }
// }
// variableNames = changedVariableNames;
// variablePaths = changedVariablePaths;
// varLength = changedLength;
// }
//
// if (monitor != null && monitor.isCanceled()) return;
//
// if (model != null) {
// IJavaProject[] projects = model.getJavaProjects();
// nextProject : for (int i = 0, projectLength = projects.length; i < projectLength; i++){
// IJavaProject project = projects[i];
//
// // check to see if any of the modified variables is present on the classpath
// IClasspathEntry[] classpath = project.getRawClasspath();
// for (int j = 0, cpLength = classpath.length; j < cpLength; j++){
//
// IClasspathEntry entry = classpath[j];
// for (int k = 0; k < varLength; k++){
//
// String variableName = variableNames[k];
// if (entry.getEntryKind() == IClasspathEntry.CPE_VARIABLE){
//
// if (variableName.equals(entry.getPath().segment(0))){
// affectedProjects.put(project, project.getResolvedClasspath(true));
// continue nextProject;
// }
// IPath sourcePath, sourceRootPath;
// if (((sourcePath = entry.getSourceAttachmentPath()) != null && variableName.equals(sourcePath.segment(0)))
// || ((sourceRootPath = entry.getSourceAttachmentRootPath()) != null && variableName.equals(sourceRootPath.segment(0)))) {
//
// affectedProjects.put(project, project.getResolvedClasspath(true));
// continue nextProject;
// }
// }
// }
// }
// }
// }
// // update variables
// for (int i = 0; i < varLength; i++){
// JavaModelManager.variablePut(variableNames[i], variablePaths[i]);
// }
// final String[] dbgVariableNames = variableNames;
//
// // update affected project classpaths
// if (!affectedProjects.isEmpty()) {
// try {
// JavaCore.run(
// new IWorkspaceRunnable() {
// public void run(IProgressMonitor monitor) throws CoreException {
// // propagate classpath change
// Iterator projectsToUpdate = affectedProjects.keySet().iterator();
// while (projectsToUpdate.hasNext()) {
//
// if (monitor != null && monitor.isCanceled()) return;
//
// JavaProject project = (JavaProject) projectsToUpdate.next();
//
// if (JavaModelManager.CP_RESOLVE_VERBOSE){
// System.out.println("CPVariable SET - updating affected project: ["+project.getElementName()+"] due to setting variables: "+ Util.toString(dbgVariableNames)); //$NON-NLS-1$ //$NON-NLS-2$
// }
//
// project
// .setRawClasspath(
// project.getRawClasspath(),
// SetClasspathOperation.ReuseOutputLocation,
// null, // don't call beginTask on the monitor (see http://bugs.eclipse.org/bugs/show_bug.cgi?id=3717)
// !ResourcesPlugin.getWorkspace().isTreeLocked(), // can change resources
// (IClasspathEntry[]) affectedProjects.get(project),
// false, // updating - no validation
// false); // updating - no need to save
// }
// }
// },
// monitor);
// } catch (CoreException e) {
// if (JavaModelManager.CP_RESOLVE_VERBOSE){
// System.out.println("CPVariable SET - FAILED DUE TO EXCEPTION: "+Util.toString(dbgVariableNames)); //$NON-NLS-1$
// e.printStackTrace();
// }
// if (e instanceof JavaModelException) {
// throw (JavaModelException)e;
// } else {
// throw new JavaModelException(e);
// }
// }
// }
// }
}null
if
* none was found.
* @since 2.1
*/
// public static ClasspathContainerInitializer getClasspathContainerInitializer(String containerID){
//
// Plugin jdtCorePlugin = JavaCore.getPlugin();
// if (jdtCorePlugin == null) return null;
//
// IExtensionPoint extension = jdtCorePlugin.getDescriptor().getExtensionPoint(JavaModelManager.CPCONTAINER_INITIALIZER_EXTPOINT_ID);
// if (extension != null) {
// IExtension[] extensions = extension.getExtensions();
// for(int i = 0; i < extensions.length; i++){
// IConfigurationElement [] configElements = extensions[i].getConfigurationElements();
// for(int j = 0; j < configElements.length; j++){
// String initializerID = configElements[j].getAttribute("id"); //$NON-NLS-1$
// if (initializerID != null && initializerID.equals(containerID)){
// if (JavaModelManager.CP_RESOLVE_VERBOSE) {
// System.out.println("CPContainer INIT - found initializer: "+containerID +" --> " + configElements[j].getAttribute("class"));//$NON-NLS-3$//$NON-NLS-2$//$NON-NLS-1$
// }
// try {
// Object execExt = configElements[j].createExecutableExtension("class"); //$NON-NLS-1$
// if (execExt instanceof ClasspathContainerInitializer){
// return (ClasspathContainerInitializer)execExt;
// }
// } catch(CoreException e) {
// }
// }
// }
// }
// }
// return null;
// }
/**
* Returns the path held in the given classpath variable.
* Returns null
if none
* @see #setClasspathVariable
*/
// public static IPath getClasspathVariable(final String variableName) {
//
// IPath variablePath = JavaModelManager.variableGet(variableName);
// if (variablePath == JavaModelManager.VariableInitializationInProgress) return null; // break cycle
//
// if (variablePath != null) {
// return variablePath;
// }
//
// // even if persisted value exists, initializer is given priority, only if no initializer is found the persisted value is reused
// final ClasspathVariableInitializer initializer = JavaCore.getClasspathVariableInitializer(variableName);
// if (initializer != null){
// if (JavaModelManager.CP_RESOLVE_VERBOSE){
// System.out.println("CPVariable INIT - triggering initialization of: " + variableName+ " using initializer: "+ initializer); //$NON-NLS-1$ //$NON-NLS-2$
// new Exception("FAKE exception for dumping current CPVariable ("+variableName+ ")INIT invocation stack trace").printStackTrace(); //$NON-NLS-1$//$NON-NLS-2$
// }
// JavaModelManager.variablePut(variableName, JavaModelManager.VariableInitializationInProgress); // avoid initialization cycles
// boolean ok = false;
// try {
// // wrap initializer call with Safe runnable in case initializer would be causing some grief
// Platform.run(new ISafeRunnable() {
// public void handleException(Throwable exception) {
// Util.log(exception, "Exception occurred in classpath variable initializer: "+initializer+" while initializing variable: "+variableName); //$NON-NLS-1$ //$NON-NLS-2$
// }
// public void run() throws Exception {
// initializer.initialize(variableName);
// }
// });
// variablePath = (IPath) JavaModelManager.variableGet(variableName); // initializer should have performed side-effect
// if (variablePath == JavaModelManager.VariableInitializationInProgress) return null; // break cycle (initializer did not init or reentering call)
// if (JavaModelManager.CP_RESOLVE_VERBOSE){
// System.out.println("CPVariable INIT - after initialization: " + variableName + " --> " + variablePath); //$NON-NLS-2$//$NON-NLS-1$
// }
// ok = true;
// } finally {
// if (!ok) JavaModelManager.variablePut(variableName, null); // flush cache
// }
// } else {
// if (JavaModelManager.CP_RESOLVE_VERBOSE){
// System.out.println("CPVariable INIT - no initializer found for: " + variableName); //$NON-NLS-1$
// }
// }
// return variablePath;
// }
/**
* Helper method finding the classpath variable initializer registered for a given classpath variable name
* or null
if none was found while iterating over the contributions to extension point to
* the extension point "org.eclipse.jdt.core.classpathVariableInitializer".
* null
if
* none was found.
* @since 2.1
*/
// public static ClasspathVariableInitializer getClasspathVariableInitializer(String variable){
//
// Plugin jdtCorePlugin = JavaCore.getPlugin();
// if (jdtCorePlugin == null) return null;
//
// IExtensionPoint extension = jdtCorePlugin.getDescriptor().getExtensionPoint(JavaModelManager.CPVARIABLE_INITIALIZER_EXTPOINT_ID);
// if (extension != null) {
// IExtension[] extensions = extension.getExtensions();
// for(int i = 0; i < extensions.length; i++){
// IConfigurationElement [] configElements = extensions[i].getConfigurationElements();
// for(int j = 0; j < configElements.length; j++){
// try {
// String varAttribute = configElements[j].getAttribute("variable"); //$NON-NLS-1$
// if (variable.equals(varAttribute)) {
// if (JavaModelManager.CP_RESOLVE_VERBOSE) {
// System.out.println("CPVariable INIT - found initializer: "+variable+" --> " + configElements[j].getAttribute("class"));//$NON-NLS-3$//$NON-NLS-2$//$NON-NLS-1$
// }
// Object execExt = configElements[j].createExecutableExtension("class"); //$NON-NLS-1$
// if (execExt instanceof ClasspathVariableInitializer){
// return (ClasspathVariableInitializer)execExt;
// }
// }
// } catch(CoreException e){
// }
// }
// }
// }
// return null;
// }
/**
* Returns the names of all known classpath variables.
* setOptions
.
*
* Helper constants have been defined on JavaCore for each of the option ID and
* their possible constant values.
*
* Note: more options might be added in further releases.
*
* RECOGNIZED OPTIONS:
* COMPILER / Generating Local Variable Debug Attribute
* When generated, this attribute will enable local variable names
* to be displayed in debugger, only in place where variables are
* definitely assigned (.class file is then bigger)
* - option id: "org.eclipse.jdt.core.compiler.debug.localVariable"
* - possible values: { "generate", "do not generate" }
* - default: "generate"
*
* COMPILER / Generating Line Number Debug Attribute
* When generated, this attribute will enable source code highlighting in debugger
* (.class file is then bigger).
* - option id: "org.eclipse.jdt.core.compiler.debug.lineNumber"
* - possible values: { "generate", "do not generate" }
* - default: "generate"
*
* COMPILER / Generating Source Debug Attribute
* When generated, this attribute will enable the debugger to present the
* corresponding source code.
* - option id: "org.eclipse.jdt.core.compiler.debug.sourceFile"
* - possible values: { "generate", "do not generate" }
* - default: "generate"
*
* COMPILER / Preserving Unused Local Variables
* Unless requested to preserve unused local variables (that is, never read), the
* compiler will optimize them out, potentially altering debugging
* - option id: "org.eclipse.jdt.core.compiler.codegen.unusedLocal"
* - possible values: { "preserve", "optimize out" }
* - default: "preserve"
*
* COMPILER / Defining Target Java Platform
* For binary compatibility reason, .class files can be tagged to with certain VM versions and later.
* Note that "1.4" target require to toggle compliance mode to "1.4" too.
* - option id: "org.eclipse.jdt.core.compiler.codegen.targetPlatform"
* - possible values: { "1.1", "1.2", "1.3", "1.4" }
* - default: "1.1"
*
* COMPILER / Reporting Unreachable Code
* Unreachable code can optionally be reported as an error, warning or simply
* ignored. The bytecode generation will always optimized it out.
* - option id: "org.eclipse.jdt.core.compiler.problem.unreachableCode"
* - possible values: { "error", "warning", "ignore" }
* - default: "error"
*
* COMPILER / Reporting Invalid Import
* An import statement that cannot be resolved might optionally be reported
* as an error, as a warning or ignored.
* - option id: "org.eclipse.jdt.core.compiler.problem.invalidImport"
* - possible values: { "error", "warning", "ignore" }
* - default: "error"
*
* COMPILER / Reporting Attempt to Override Package-Default Method
* A package default method is not visible in a different package, and thus
* cannot be overridden. When enabling this option, the compiler will signal
* such scenarii either as an error or a warning.
* - option id: "org.eclipse.jdt.core.compiler.problem.overridingPackageDefaultMethod"
* - possible values: { "error", "warning", "ignore" }
* - default: "warning"
*
* COMPILER / Reporting Method With Constructor Name
* Naming a method with a constructor name is generally considered poor
* style programming. When enabling this option, the compiler will signal such
* scenarii either as an error or a warning.
* - option id: "org.eclipse.jdt.core.compiler.problem.methodWithConstructorName"
* - possible values: { "error", "warning", "ignore" }
* - default: "warning"
*
* COMPILER / Reporting Deprecation
* When enabled, the compiler will signal use of deprecated API either as an
* error or a warning.
* - option id: "org.eclipse.jdt.core.compiler.problem.deprecation"
* - possible values: { "error", "warning", "ignore" }
* - default: "warning"
*
* COMPILER / Reporting Deprecation Inside Deprecated Code
* When enabled, the compiler will signal use of deprecated API inside deprecated code.
* The severity of the problem is controlled with option "org.eclipse.jdt.core.compiler.problem.deprecation".
* - option id: "org.eclipse.jdt.core.compiler.problem.deprecationInDeprecatedCode"
* - possible values: { "enabled", "disabled" }
* - default: "disabled"
*
* COMPILER / Reporting Hidden Catch Block
* Locally to a try statement, some catch blocks may hide others . For example,
* try { throw new java.io.CharConversionException();
* } catch (java.io.CharConversionException e) {
* } catch (java.io.IOException e) {}.
* When enabling this option, the compiler will issue an error or a warning for hidden
* catch blocks corresponding to checked exceptions
* - option id: "org.eclipse.jdt.core.compiler.problem.hiddenCatchBlock"
* - possible values: { "error", "warning", "ignore" }
* - default: "warning"
*
* COMPILER / Reporting Unused Local
* When enabled, the compiler will issue an error or a warning for unused local
* variables (that is, variables never read from)
* - option id: "org.eclipse.jdt.core.compiler.problem.unusedLocal"
* - possible values: { "error", "warning", "ignore" }
* - default: "ignore"
*
* COMPILER / Reporting Unused Parameter
* When enabled, the compiler will issue an error or a warning for unused method
* parameters (that is, parameters never read from)
* - option id: "org.eclipse.jdt.core.compiler.problem.unusedParameter"
* - possible values: { "error", "warning", "ignore" }
* - default: "ignore"
*
* COMPILER / Reporting Unused Parameter if Implementing Abstract Method
* When enabled, the compiler will signal unused parameters in abstract method implementations.
* The severity of the problem is controlled with option "org.eclipse.jdt.core.compiler.problem.unusedParameter".
* - option id: "org.eclipse.jdt.core.compiler.problem.unusedParameterWhenImplementingAbstract"
* - possible values: { "enabled", "disabled" }
* - default: "disabled"
*
* COMPILER / Reporting Unused Parameter if Overriding Concrete Method
* When enabled, the compiler will signal unused parameters in methods overriding concrete ones.
* The severity of the problem is controlled with option "org.eclipse.jdt.core.compiler.problem.unusedParameter".
* - option id: "org.eclipse.jdt.core.compiler.problem.unusedParameterWhenOverridingConcrete"
* - possible values: { "enabled", "disabled" }
* - default: "disabled"
*
* COMPILER / Reporting Unused Import
* When enabled, the compiler will issue an error or a warning for unused import
* reference
* - option id: "org.eclipse.jdt.core.compiler.problem.unusedImport"
* - possible values: { "error", "warning", "ignore" }
* - default: "warning"
*
* COMPILER / Reporting Unused Private Members
* When enabled, the compiler will issue an error or a warning whenever a private
* method or field is declared but never used within the same unit.
* - option id: "org.eclipse.jdt.core.compiler.problem.unusedPrivateMember"
* - possible values: { "error", "warning", "ignore" }
* - default: "ignore"
*
* COMPILER / Reporting Synthetic Access Emulation
* When enabled, the compiler will issue an error or a warning whenever it emulates
* access to a non-accessible member of an enclosing type. Such access can have
* performance implications.
* - option id: "org.eclipse.jdt.core.compiler.problem.syntheticAccessEmulation"
* - possible values: { "error", "warning", "ignore" }
* - default: "ignore"
*
* COMPILER / Reporting Non-Externalized String Literal
* When enabled, the compiler will issue an error or a warning for non externalized
* String literal (that is, not tagged with //$NON-NLS-
*
* @return a mutable table containing the default settings of all known options
* (key type: String
; value type: String
)
* @see #setOptions
*/
public static Hashtable getDefaultOptions(){
Hashtable defaultOptions = new Hashtable(10);
// see #initializeDefaultPluginPreferences() for changing default settings
Preferences preferences = getPlugin().getPluginPreferences();
HashSet optionNames = JavaModelManager.OptionNames;
// get preferences set to their default
String[] defaultPropertyNames = preferences.defaultPropertyNames();
for (int i = 0; i < defaultPropertyNames.length; i++){
String propertyName = defaultPropertyNames[i];
if (optionNames.contains(propertyName)) {
defaultOptions.put(propertyName, preferences.getDefaultString(propertyName));
}
}
// get preferences not set to their default
String[] propertyNames = preferences.propertyNames();
for (int i = 0; i < propertyNames.length; i++){
String propertyName = propertyNames[i];
if (optionNames.contains(propertyName)) {
defaultOptions.put(propertyName, preferences.getDefaultString(propertyName));
}
}
// get encoding through resource plugin
defaultOptions.put(CORE_ENCODING, ResourcesPlugin.getEncoding());
return defaultOptions;
}
/**
* Returns the single instance of the Java core plug-in runtime class.
* Equivalent to (JavaCore) getPlugin()
.
*
* @return the single instance of the Java core plug-in runtime class
*/
public static JavaCore getJavaCore() {
return (JavaCore) getPlugin();
}
/**
* Helper method for returning one option value only. Equivalent to (String)JavaCore.getOptions().get(optionName)
* Note that it may answer null
if this option does not exist.
* getDefaultOptions
.
* getDefaultOptions
.
* String
; value type: String
)
* @see JavaCore#getDefaultOptions
*/
public static Hashtable getOptions() {
Hashtable options = new Hashtable(10);
// see #initializeDefaultPluginPreferences() for changing default settings
Plugin plugin = getPlugin();
if (plugin != null) {
Preferences preferences = getPlugin().getPluginPreferences();
HashSet optionNames = JavaModelManager.OptionNames;
// get preferences set to their default
String[] defaultPropertyNames = preferences.defaultPropertyNames();
for (int i = 0; i < defaultPropertyNames.length; i++){
String propertyName = defaultPropertyNames[i];
if (optionNames.contains(propertyName)){
options.put(propertyName, preferences.getDefaultString(propertyName));
}
}
// get preferences not set to their default
String[] propertyNames = preferences.propertyNames();
for (int i = 0; i < propertyNames.length; i++){
String propertyName = propertyNames[i];
if (optionNames.contains(propertyName)){
options.put(propertyName, preferences.getString(propertyName).trim());
}
}
// get encoding through resource plugin
options.put(CORE_ENCODING, ResourcesPlugin.getEncoding());
}
return options;
}
/**
* Returns the single instance of the Java core plug-in runtime class.
*
* @return the single instance of the Java core plug-in runtime class
*/
public static Plugin getPlugin() {
return JAVA_CORE_PLUGIN;
}
/**
* This is a helper method, which returns the resolved classpath entry denoted
* by a given entry (if it is a variable entry). It is obtained by resolving the variable
* reference in the first segment. Returns
*
* null
null
JavaCore#getClasspathContainer(IPath, IJavaProject)
.
* null
* if the given variable entry could not be resolved to a valid classpath entry
*/
// public static IClasspathEntry getResolvedClasspathEntry(IClasspathEntry entry) {
//
// if (entry.getEntryKind() != IClasspathEntry.CPE_VARIABLE)
// return entry;
//
// IWorkspaceRoot workspaceRoot = ResourcesPlugin.getWorkspace().getRoot();
// IPath resolvedPath = JavaCore.getResolvedVariablePath(entry.getPath());
// if (resolvedPath == null)
// return null;
//
// Object target = JavaModel.getTarget(workspaceRoot, resolvedPath, false);
// if (target == null)
// return null;
//
// // inside the workspace
// if (target instanceof IResource) {
// IResource resolvedResource = (IResource) target;
// if (resolvedResource != null) {
// switch (resolvedResource.getType()) {
//
// case IResource.PROJECT :
// // internal project
// return JavaCore.newProjectEntry(resolvedPath, entry.isExported());
//
// case IResource.FILE :
// if (Util.isArchiveFileName(resolvedResource.getName())) {
// // internal binary archive
// return JavaCore.newLibraryEntry(
// resolvedPath,
// getResolvedVariablePath(entry.getSourceAttachmentPath()),
// getResolvedVariablePath(entry.getSourceAttachmentRootPath()),
// entry.isExported());
// }
// break;
//
// case IResource.FOLDER :
// // internal binary folder
// return JavaCore.newLibraryEntry(
// resolvedPath,
// getResolvedVariablePath(entry.getSourceAttachmentPath()),
// getResolvedVariablePath(entry.getSourceAttachmentRootPath()),
// entry.isExported());
// }
// }
// }
// // outside the workspace
// if (target instanceof File) {
// File externalFile = (File) target;
// if (externalFile.isFile()) {
// String fileName = externalFile.getName().toLowerCase();
// if (fileName.endsWith(".jar" //$NON-NLS-1$
// ) || fileName.endsWith(".zip" //$NON-NLS-1$
// )) { // external binary archive
// return JavaCore.newLibraryEntry(
// resolvedPath,
// getResolvedVariablePath(entry.getSourceAttachmentPath()),
// getResolvedVariablePath(entry.getSourceAttachmentRootPath()),
// entry.isExported());
// }
// } else { // external binary folder
// if (resolvedPath.isAbsolute()){
// return JavaCore.newLibraryEntry(
// resolvedPath,
// getResolvedVariablePath(entry.getSourceAttachmentPath()),
// getResolvedVariablePath(entry.getSourceAttachmentRootPath()),
// entry.isExported());
// }
// }
// }
// return null;
// }
/**
* Resolve a variable path (helper method).
*
* @param variablePath the given variable path
* @return the resolved variable path or null
if none
*/
// public static IPath getResolvedVariablePath(IPath variablePath) {
//
// if (variablePath == null)
// return null;
// int count = variablePath.segmentCount();
// if (count == 0)
// return null;
//
// // lookup variable
// String variableName = variablePath.segment(0);
// IPath resolvedPath = JavaCore.getClasspathVariable(variableName);
// if (resolvedPath == null)
// return null;
//
// // append path suffix
// if (count > 1) {
// resolvedPath = resolvedPath.append(variablePath.removeFirstSegments(1));
// }
// return resolvedPath;
// }
/**
* Answers the shared working copies currently registered for this buffer factory.
* Working copies can be shared by several clients using the same buffer factory,see
* IWorkingCopy.getSharedWorkingCopy
.
*
* @param factory the given buffer factory
* @return the list of shared working copies for a given buffer factory
* @see IWorkingCopy
* @since 2.0
*/
public static IWorkingCopy[] getSharedWorkingCopies(IBufferFactory factory){
// if factory is null, default factory must be used
if (factory == null) factory = BufferManager.getDefaultBufferManager().getDefaultBufferFactory();
Map sharedWorkingCopies = JavaModelManager.getJavaModelManager().sharedWorkingCopies;
Map perFactoryWorkingCopies = (Map) sharedWorkingCopies.get(factory);
if (perFactoryWorkingCopies == null) return JavaModelManager.NoWorkingCopy;
Collection copies = perFactoryWorkingCopies.values();
IWorkingCopy[] result = new IWorkingCopy[copies.size()];
copies.toArray(result);
return result;
}
/**
* Initializes the default preferences settings for this plug-in.
*/
protected void initializeDefaultPluginPreferences() {
Preferences preferences = getPluginPreferences();
HashSet optionNames = JavaModelManager.OptionNames;
// Compiler settings
preferences.setDefault(COMPILER_LOCAL_VARIABLE_ATTR, GENERATE);
optionNames.add(COMPILER_LOCAL_VARIABLE_ATTR);
preferences.setDefault(COMPILER_LINE_NUMBER_ATTR, GENERATE);
optionNames.add(COMPILER_LINE_NUMBER_ATTR);
preferences.setDefault(COMPILER_SOURCE_FILE_ATTR, GENERATE);
optionNames.add(COMPILER_SOURCE_FILE_ATTR);
preferences.setDefault(COMPILER_CODEGEN_UNUSED_LOCAL, PRESERVE);
optionNames.add(COMPILER_CODEGEN_UNUSED_LOCAL);
preferences.setDefault(COMPILER_CODEGEN_TARGET_PLATFORM, VERSION_1_1);
optionNames.add(COMPILER_CODEGEN_TARGET_PLATFORM);
preferences.setDefault(COMPILER_PB_UNREACHABLE_CODE, ERROR);
optionNames.add(COMPILER_PB_UNREACHABLE_CODE);
preferences.setDefault(COMPILER_PB_INVALID_IMPORT, ERROR);
optionNames.add(COMPILER_PB_INVALID_IMPORT);
preferences.setDefault(COMPILER_PB_OVERRIDING_PACKAGE_DEFAULT_METHOD, WARNING);
optionNames.add(COMPILER_PB_OVERRIDING_PACKAGE_DEFAULT_METHOD);
preferences.setDefault(COMPILER_PB_METHOD_WITH_CONSTRUCTOR_NAME, WARNING);
optionNames.add(COMPILER_PB_METHOD_WITH_CONSTRUCTOR_NAME);
preferences.setDefault(COMPILER_PB_DEPRECATION, WARNING);
optionNames.add(COMPILER_PB_DEPRECATION);
preferences.setDefault(COMPILER_PB_DEPRECATION_IN_DEPRECATED_CODE, DISABLED);
optionNames.add(COMPILER_PB_DEPRECATION_IN_DEPRECATED_CODE);
preferences.setDefault(COMPILER_PB_HIDDEN_CATCH_BLOCK, WARNING);
optionNames.add(COMPILER_PB_HIDDEN_CATCH_BLOCK);
preferences.setDefault(COMPILER_PB_UNUSED_LOCAL, IGNORE);
optionNames.add(COMPILER_PB_UNUSED_LOCAL);
preferences.setDefault(COMPILER_PB_UNUSED_PARAMETER, IGNORE);
optionNames.add(COMPILER_PB_UNUSED_PARAMETER);
preferences.setDefault(COMPILER_PB_UNUSED_PARAMETER_WHEN_IMPLEMENTING_ABSTRACT, DISABLED);
optionNames.add(COMPILER_PB_UNUSED_PARAMETER_WHEN_IMPLEMENTING_ABSTRACT);
preferences.setDefault(COMPILER_PB_UNUSED_PARAMETER_WHEN_OVERRIDING_CONCRETE, DISABLED);
optionNames.add(COMPILER_PB_UNUSED_PARAMETER_WHEN_OVERRIDING_CONCRETE);
preferences.setDefault(COMPILER_PB_UNUSED_IMPORT, WARNING);
optionNames.add(COMPILER_PB_UNUSED_IMPORT);
preferences.setDefault(COMPILER_PB_UNUSED_PRIVATE_MEMBER, IGNORE);
optionNames.add(COMPILER_PB_UNUSED_PRIVATE_MEMBER);
preferences.setDefault(COMPILER_PB_SYNTHETIC_ACCESS_EMULATION, IGNORE);
optionNames.add(COMPILER_PB_SYNTHETIC_ACCESS_EMULATION);
preferences.setDefault(COMPILER_PB_NON_NLS_STRING_LITERAL, IGNORE);
optionNames.add(COMPILER_PB_NON_NLS_STRING_LITERAL);
preferences.setDefault(COMPILER_PB_ASSERT_IDENTIFIER, IGNORE);
optionNames.add(COMPILER_PB_ASSERT_IDENTIFIER);
preferences.setDefault(COMPILER_PB_STATIC_ACCESS_RECEIVER, WARNING);
optionNames.add(COMPILER_PB_STATIC_ACCESS_RECEIVER);
preferences.setDefault(COMPILER_PB_NO_EFFECT_ASSIGNMENT, WARNING);
optionNames.add(COMPILER_PB_NO_EFFECT_ASSIGNMENT);
preferences.setDefault(COMPILER_PB_INCOMPATIBLE_NON_INHERITED_INTERFACE_METHOD, WARNING);
optionNames.add(COMPILER_PB_INCOMPATIBLE_NON_INHERITED_INTERFACE_METHOD);
preferences.setDefault(COMPILER_PB_CHAR_ARRAY_IN_STRING_CONCATENATION, WARNING);
optionNames.add(COMPILER_PB_CHAR_ARRAY_IN_STRING_CONCATENATION);
preferences.setDefault(COMPILER_TASK_TAGS, DEFAULT_TASK_TAG); //$NON-NLS-1$
optionNames.add(COMPILER_TASK_TAGS);
preferences.setDefault(COMPILER_TASK_PRIORITIES, DEFAULT_TASK_PRIORITY); //$NON-NLS-1$
optionNames.add(COMPILER_TASK_PRIORITIES);
preferences.setDefault(COMPILER_SOURCE, VERSION_1_3);
optionNames.add(COMPILER_SOURCE);
preferences.setDefault(COMPILER_COMPLIANCE, VERSION_1_3);
optionNames.add(COMPILER_COMPLIANCE);
preferences.setDefault(COMPILER_PB_MAX_PER_UNIT, "100"); //$NON-NLS-1$
optionNames.add(COMPILER_PB_MAX_PER_UNIT);
// Builder settings
preferences.setDefault(CORE_JAVA_BUILD_RESOURCE_COPY_FILTER, ""); //$NON-NLS-1$
optionNames.add(CORE_JAVA_BUILD_RESOURCE_COPY_FILTER);
preferences.setDefault(CORE_JAVA_BUILD_INVALID_CLASSPATH, ABORT);
optionNames.add(CORE_JAVA_BUILD_INVALID_CLASSPATH);
preferences.setDefault(CORE_JAVA_BUILD_DUPLICATE_RESOURCE, WARNING);
optionNames.add(CORE_JAVA_BUILD_DUPLICATE_RESOURCE);
preferences.setDefault(CORE_JAVA_BUILD_CLEAN_OUTPUT_FOLDER, CLEAN);
optionNames.add(CORE_JAVA_BUILD_CLEAN_OUTPUT_FOLDER);
// JavaCore settings
preferences.setDefault(CORE_JAVA_BUILD_ORDER, IGNORE);
optionNames.add(CORE_JAVA_BUILD_ORDER);
preferences.setDefault(CORE_CIRCULAR_CLASSPATH, ERROR);
optionNames.add(CORE_CIRCULAR_CLASSPATH);
preferences.setDefault(CORE_INCOMPLETE_CLASSPATH, ERROR);
optionNames.add(CORE_INCOMPLETE_CLASSPATH);
preferences.setDefault(CORE_ENABLE_CLASSPATH_EXCLUSION_PATTERNS, ENABLED);
optionNames.add(CORE_ENABLE_CLASSPATH_EXCLUSION_PATTERNS);
preferences.setDefault(CORE_ENABLE_CLASSPATH_MULTIPLE_OUTPUT_LOCATIONS, ENABLED);
optionNames.add(CORE_ENABLE_CLASSPATH_MULTIPLE_OUTPUT_LOCATIONS);
// encoding setting comes from resource plug-in
optionNames.add(CORE_ENCODING);
// Formatter settings
preferences.setDefault(FORMATTER_NEWLINE_OPENING_BRACE, DO_NOT_INSERT);
optionNames.add(FORMATTER_NEWLINE_OPENING_BRACE);
preferences.setDefault(FORMATTER_NEWLINE_CONTROL, DO_NOT_INSERT);
optionNames.add(FORMATTER_NEWLINE_CONTROL);
preferences.setDefault(FORMATTER_CLEAR_BLANK_LINES, PRESERVE_ONE);
optionNames.add(FORMATTER_CLEAR_BLANK_LINES);
preferences.setDefault(FORMATTER_NEWLINE_ELSE_IF, DO_NOT_INSERT);
optionNames.add(FORMATTER_NEWLINE_ELSE_IF);
preferences.setDefault(FORMATTER_NEWLINE_EMPTY_BLOCK, INSERT);
optionNames.add(FORMATTER_NEWLINE_EMPTY_BLOCK);
preferences.setDefault(FORMATTER_LINE_SPLIT, "80"); //$NON-NLS-1$
optionNames.add(FORMATTER_LINE_SPLIT);
preferences.setDefault(FORMATTER_COMPACT_ASSIGNMENT, NORMAL);
optionNames.add(FORMATTER_COMPACT_ASSIGNMENT);
preferences.setDefault(FORMATTER_TAB_CHAR, TAB);
optionNames.add(FORMATTER_TAB_CHAR);
preferences.setDefault(FORMATTER_TAB_SIZE, "4"); //$NON-NLS-1$
optionNames.add(FORMATTER_TAB_SIZE);
preferences.setDefault(FORMATTER_SPACE_CASTEXPRESSION, INSERT); //$NON-NLS-1$
optionNames.add(FORMATTER_SPACE_CASTEXPRESSION);
// CodeAssist settings
preferences.setDefault(CODEASSIST_VISIBILITY_CHECK, DISABLED); //$NON-NLS-1$
optionNames.add(CODEASSIST_VISIBILITY_CHECK);
preferences.setDefault(CODEASSIST_IMPLICIT_QUALIFICATION, DISABLED); //$NON-NLS-1$
optionNames.add(CODEASSIST_IMPLICIT_QUALIFICATION);
preferences.setDefault(CODEASSIST_FIELD_PREFIXES, ""); //$NON-NLS-1$
optionNames.add(CODEASSIST_FIELD_PREFIXES);
preferences.setDefault(CODEASSIST_STATIC_FIELD_PREFIXES, ""); //$NON-NLS-1$
optionNames.add(CODEASSIST_STATIC_FIELD_PREFIXES);
preferences.setDefault(CODEASSIST_LOCAL_PREFIXES, ""); //$NON-NLS-1$
optionNames.add(CODEASSIST_LOCAL_PREFIXES);
preferences.setDefault(CODEASSIST_ARGUMENT_PREFIXES, ""); //$NON-NLS-1$
optionNames.add(CODEASSIST_ARGUMENT_PREFIXES);
preferences.setDefault(CODEASSIST_FIELD_SUFFIXES, ""); //$NON-NLS-1$
optionNames.add(CODEASSIST_FIELD_SUFFIXES);
preferences.setDefault(CODEASSIST_STATIC_FIELD_SUFFIXES, ""); //$NON-NLS-1$
optionNames.add(CODEASSIST_STATIC_FIELD_SUFFIXES);
preferences.setDefault(CODEASSIST_LOCAL_SUFFIXES, ""); //$NON-NLS-1$
optionNames.add(CODEASSIST_LOCAL_SUFFIXES);
preferences.setDefault(CODEASSIST_ARGUMENT_SUFFIXES, ""); //$NON-NLS-1$
optionNames.add(CODEASSIST_ARGUMENT_SUFFIXES);
}
/**
* Returns whether the given marker references the given Java element.
* Used for markers, which denote a Java element rather than a resource.
*
* @param element the element
* @param marker the marker
* @return true
if the marker references the element, false otherwise
* @exception CoreException if the IMarker.getAttribute
on the marker fails
*/
public static boolean isReferencedBy(IJavaElement element, IMarker marker) throws CoreException {
// only match units or classfiles
if (element instanceof IMember){
IMember member = (IMember) element;
if (member.isBinary()){
element = null; //member.getClassFile();
} else {
element = member.getCompilationUnit();
}
}
if (element == null) return false;
if (marker == null) return false;
String markerHandleId = (String)marker.getAttribute(ATT_HANDLE_ID);
if (markerHandleId == null) return false;
IJavaElement markerElement = JavaCore.create(markerHandleId);
// while (true){
if (element.equals(markerElement)) return true; // external elements may still be equal with different handleIDs.
// cycle through enclosing types in case marker is associated with a classfile (15568)
// if (markerElement instanceof IClassFile){
// IType enclosingType = ((IClassFile)markerElement).getType().getDeclaringType();
// if (enclosingType != null){
// markerElement = enclosingType.getClassFile(); // retry with immediate enclosing classfile
// continue;
// }
// }
// break;
// }
return false;
}
/**
* Returns whether the given marker delta references the given Java element.
* Used for markers deltas, which denote a Java element rather than a resource.
*
* @param element the element
* @param markerDelta the marker delta
* @return true
if the marker delta references the element
* @exception CoreException if the IMarkerDelta.getAttribute
on the marker delta fails
*/
public static boolean isReferencedBy(IJavaElement element, IMarkerDelta markerDelta) throws CoreException {
// only match units or classfiles
if (element instanceof IMember){
IMember member = (IMember) element;
if (member.isBinary()){
element = null; //member.getClassFile();
} else {
element = member.getCompilationUnit();
}
}
if (element == null) return false;
if (markerDelta == null) return false;
String markerDeltarHandleId = (String)markerDelta.getAttribute(ATT_HANDLE_ID);
if (markerDeltarHandleId == null) return false;
IJavaElement markerElement = JavaCore.create(markerDeltarHandleId);
// while (true){
if (element.equals(markerElement)) return true; // external elements may still be equal with different handleIDs.
// cycle through enclosing types in case marker is associated with a classfile (15568)
// if (markerElement instanceof IClassFile){
// IType enclosingType = ((IClassFile)markerElement).getType().getDeclaringType();
// if (enclosingType != null){
// markerElement = enclosingType.getClassFile(); // retry with immediate enclosing classfile
// continue;
// }
// }
// break;
// }
return false;
}
/**
* Creates and returns a new classpath entry of kind CPE_CONTAINER
* for the given path. The path of the container will be used during resolution so as to map this
* container entry to a set of other classpath entries the container is acting for.
* JavaCore.getResolvedClasspathContainer
,
* and updated with JavaCore.classpathContainerChanged
* ClasspathContainerInitializer
registered onto the
* extension point "org.eclipse.jdt.core.classpathContainerInitializer".
*
*
* newContainerEntry(-,false)
.
* CPE_CONTAINER
* for the given path. The path of the container will be used during resolution so as to map this
* container entry to a set of other classpath entries the container is acting for.
* JavaCore.getResolvedClasspathContainer
,
* and updated with JavaCore.classpathContainerChanged
* ClasspathContainerInitializer
registered onto the
* extension point "org.eclipse.jdt.core.classpathContainerInitializer".
*
*
* CPE_LIBRARY
for the
* JAR or folder identified by the given absolute path. This specifies that all package fragments
* within the root will have children of type IClassFile
.
*
*
* Note that this operation does not attempt to validate or access the
* resources at the given paths.
* "c:/jdk1.2.2/jre/lib/rt.jar"
- reference to an external JAR "/Project/someLib.jar"
- reference to an internal JAR "c:/classes/"
- reference to an external binary foldernewLibraryEntry(-,-,-,false)
.
* null
if none
* @param sourceAttachmentRootPath the location of the root within the source archive or folder
* or null
if this location should be automatically detected.
* @return a new library classpath entry
*
* @see #newLibraryEntry(IPath, IPath, IPath, boolean)
*/
// public static IClasspathEntry newLibraryEntry(
// IPath path,
// IPath sourceAttachmentPath,
// IPath sourceAttachmentRootPath) {
//
// return newLibraryEntry(path, sourceAttachmentPath, sourceAttachmentRootPath, false);
// }
/**
* Creates and returns a new classpath entry of kind CPE_LIBRARY
for the JAR or folder
* identified by the given absolute path. This specifies that all package fragments within the root
* will have children of type IClassFile
.
*
*
* Note that this operation does not attempt to validate or access the
* resources at the given paths.
* "c:/jdk1.2.2/jre/lib/rt.jar"
- reference to an external JAR "/Project/someLib.jar"
- reference to an internal JAR "c:/classes/"
- reference to an external binary foldernull
if none
* @param sourceAttachmentRootPath the location of the root within the source archive or folder
* or null
if this location should be automatically detected.
* @param isExported indicates whether this entry is contributed to dependent
* projects in addition to the output location
* @return a new library classpath entry
* @since 2.0
*/
// public static IClasspathEntry newLibraryEntry(
// IPath path,
// IPath sourceAttachmentPath,
// IPath sourceAttachmentRootPath,
// boolean isExported) {
//
// if (!path.isAbsolute()) Assert.isTrue(false, "Path for IClasspathEntry must be absolute"); //$NON-NLS-1$
//
// return new ClasspathEntry(
// IPackageFragmentRoot.K_BINARY,
// IClasspathEntry.CPE_LIBRARY,
// JavaProject.canonicalizedPath(path),
// ClasspathEntry.NO_EXCLUSION_PATTERNS,
// sourceAttachmentPath,
// sourceAttachmentRootPath,
// null, // specific output folder
// isExported);
// }
/**
* Creates and returns a new non-exported classpath entry of kind CPE_PROJECT
* for the project identified by the given absolute path.
* newProjectEntry(_,false)
.
* CPE_PROJECT
* for the project identified by the given absolute path.
* CPE_SOURCE
* for the project's source folder identified by the given absolute
* workspace-relative path. This specifies that all package fragments
* within the root will have children of type ICompilationUnit
.
* /Project/src
. A project's source
* folders are located with that project. That is, a source classpath
* entry specifying the path /P1/src
is only usable for
* project P1
.
* JavaCore.newSourceEntry(IPath,IPath[])
instead.
* JavaCore.newProjectEntry
). Particular
* source entries cannot be selectively exported.
* CPE_SOURCE
* for the project's source folder identified by the given absolute
* workspace-relative path but excluding all source files with paths
* matching any of the given patterns. This specifies that all package
* fragments within the root will have children of type
* ICompilationUnit
.
* /Project/src
. A project's source
* folders are located with that project. That is, a source classpath
* entry specifying the path /P1/src
is only usable for
* project P1
.
* /Project/src
and the exclusion pattern is
* com/xyz/tests/**
, then source files
* like /Project/src/com/xyz/Foo.java
* and /Project/src/com/xyz/utils/Bar.java
would be included,
* whereas /Project/src/com/xyz/tests/T1.java
* and /Project/src/com/xyz/tests/quick/T2.java
would be
* excluded. Exclusion patterns can contain can contain '**', '*' or '?'
* wildcards; see IClasspathEntry.getExclusionPatterns
* for the full description of the syntax and semantics of exclusion
* patterns.
* JavaCore.newSourceEntry(IPath)
.
* JavaCore.newProjectEntry
). Particular
* source entries cannot be selectively exported.
* CPE_SOURCE
* for the project's source folder identified by the given absolute
* workspace-relative path but excluding all source files with paths
* matching any of the given patterns, and associated with a specific output location
* (that is, ".class" files are not going to the project default output location).
* All package fragments within the root will have children of type
* ICompilationUnit
.
* /Project/src
. A project's source
* folders are located with that project. That is, a source classpath
* entry specifying the path /P1/src
is only usable for
* project P1
.
* /Project/src
and the exclusion pattern is
* com/xyz/tests/**
, then source files
* like /Project/src/com/xyz/Foo.java
* and /Project/src/com/xyz/utils/Bar.java
would be included,
* whereas /Project/src/com/xyz/tests/T1.java
* and /Project/src/com/xyz/tests/quick/T2.java
would be
* excluded. Exclusion patterns can contain can contain '**', '*' or '?'
* wildcards; see IClasspathEntry.getExclusionPatterns
* for the full description of the syntax and semantics of exclusion
* patterns.
* JavaCore.newSourceEntry(IPath)
.
* null
).
* Note that multiple source entries may target the same output location.
* The output location is referred to using an absolute path relative to the
* workspace root, e.g. "/Project/bin"
, it must be located inside
* the same project as the source folder.
* JavaCore.newProjectEntry
). Particular
* source entries cannot be selectively exported.
* null
if using project default ouput location)
* @return a new source classpath entry with the given exclusion patterns
* @see #newSourceEntry(org.eclipse.core.runtime.IPath)
* @see IClasspathEntry#getExclusionPatterns
* @see IClasspathEntry#getOutputLocation()
*
* @since 2.1
*/
// public static IClasspathEntry newSourceEntry(IPath path, IPath[] exclusionPatterns, IPath specificOutputLocation) {
//
// if (!path.isAbsolute()) Assert.isTrue(false, "Path for IClasspathEntry must be absolute"); //$NON-NLS-1$
// if (exclusionPatterns == null) Assert.isTrue(false, "Exclusion pattern set cannot be null"); //$NON-NLS-1$
//
// return new ClasspathEntry(
// IPackageFragmentRoot.K_SOURCE,
// IClasspathEntry.CPE_SOURCE,
// path,
// exclusionPatterns,
// null, // source attachment
// null, // source attachment root
// specificOutputLocation, // custom output location
// false);
// }
/**
* Creates and returns a new non-exported classpath entry of kind CPE_VARIABLE
* for the given path. The first segment of the path is the name of a classpath variable.
* The trailing segments of the path will be appended to resolved variable path.
* ClasspathVariableInitializer
),
* which will be invoked through the extension point "org.eclipse.jdt.core.classpathVariableInitializer".
* After resolution, a classpath variable entry may either correspond to a project or a library entry.
*
*
* Note that this operation does not attempt to validate classpath variables
* or access the resources at the given paths.
* JDTCORE
is
* bound to "c:/jars/jdtcore.jar". The resolved classpath entry is denoting the library "c:\jars\jdtcore.jar"JDTCORE
is
* bound to "/Project_JDTCORE". The resolved classpath entry is denoting the project "/Project_JDTCORE"PLUGINS
* is bound to "c:/eclipse/plugins". The resolved classpath entry is denoting the library "c:/eclipse/plugins/com.example/example.jar"newVariableEntry(-,-,-,false)
.
* null
if none; if present, the first segment is the
* name of a classpath variable (not necessarily the same variable
* as the one that begins variablePath
)
* @param sourceAttachmentRootPath the location of the root within the source archive
* or null
if archivePath
is also null
* @return a new library classpath entry
*
* @see JavaCore#newVariableEntry(IPath, IPath, IPath, boolean)
*/
// public static IClasspathEntry newVariableEntry(
// IPath variablePath,
// IPath variableSourceAttachmentPath,
// IPath sourceAttachmentRootPath) {
//
// return newVariableEntry(variablePath, variableSourceAttachmentPath, sourceAttachmentRootPath, false);
// }
/**
* Creates and returns a new non-exported classpath entry of kind CPE_VARIABLE
* for the given path. The first segment of the path is the name of a classpath variable.
* The trailing segments of the path will be appended to resolved variable path.
* ClasspathVariableInitializer
),
* which will be invoked through the extension point "org.eclipse.jdt.core.classpathVariableInitializer".
* After resolution, a classpath variable entry may either correspond to a project or a library entry.
*
*
* Note that this operation does not attempt to validate classpath variables
* or access the resources at the given paths.
* JDTCORE
is
* bound to "c:/jars/jdtcore.jar". The resolved classpath entry is denoting the library "c:\jars\jdtcore.jar"JDTCORE
is
* bound to "/Project_JDTCORE". The resolved classpath entry is denoting the project "/Project_JDTCORE"PLUGINS
* is bound to "c:/eclipse/plugins". The resolved classpath entry is denoting the library "c:/eclipse/plugins/com.example/example.jar"null
if none; if present, the first segment is the
* name of a classpath variable (not necessarily the same variable
* as the one that begins variablePath
)
* @param sourceAttachmentRootPath the location of the root within the source archive
* or null
if archivePath
is also null
* @param isExported indicates whether this entry is contributed to dependent
* projects in addition to the output location
* @return a new variable classpath entry
* @since 2.0
*/
// public static IClasspathEntry newVariableEntry(
// IPath variablePath,
// IPath variableSourceAttachmentPath,
// IPath variableSourceAttachmentRootPath,
// boolean isExported) {
//
// if (variablePath == null || variablePath.segmentCount() < 1) {
// Assert.isTrue(
// false,
// "Illegal classpath variable path: \'" + variablePath.makeRelative().toString() + "\', must have at least one segment"); //$NON-NLS-1$//$NON-NLS-2$
// }
//
// return new ClasspathEntry(
// IPackageFragmentRoot.K_SOURCE,
// IClasspathEntry.CPE_VARIABLE,
// variablePath,
// ClasspathEntry.NO_EXCLUSION_PATTERNS,
// variableSourceAttachmentPath, // source attachment
// variableSourceAttachmentRootPath, // source attachment root
// null, // specific output folder
// isExported);
// }
/**
* Removed the given classpath variable. Does nothing if no value was
* set for this classpath variable.
* null
if progress
* reporting and cancellation are not desired
* @exception CoreException if the operation failed.
* @since 2.1
*/
public static void run(IWorkspaceRunnable action, IProgressMonitor monitor) throws CoreException {
IWorkspace workspace = ResourcesPlugin.getWorkspace();
if (workspace.isTreeLocked()) {
new BatchOperation(action).run(monitor);
} else {
// use IWorkspace.run(...) to ensure that a build will be done in autobuild mode
workspace.run(new BatchOperation(action), monitor);
}
}
/**
* Bind a container reference path to some actual containers (IClasspathContainer
).
* This API must be invoked whenever changes in container need to be reflected onto the JavaModel.
* Containers can have distinct values in different projects, therefore this API considers a
* set of projects with their respective containers.
* containerPath
is the path under which these values can be referenced through
* container classpath entries (IClasspathEntry#CPE_CONTAINER
). A container path
* is formed by a first ID segment followed with extra segments, which can be used as additional hints
* for the resolution. The container ID is used to identify a ClasspathContainerInitializer
* registered on the extension point "org.eclipse.jdt.core.classpathContainerInitializer".
* respectiveContainers
) must answer the exact same path when requested
* IClasspathContainer#getPath
.
* Indeed, the containerPath is just an indication for resolving it to an actual container object. It can be
* delegated to a ClasspathContainerInitializer
, which can be activated through the extension
* point "org.eclipse.jdt.core.ClasspathContainerInitializer").
* ClasspathContainerInitializer
for each referenced container
* (through the extension point "org.eclipse.jdt.core.ClasspathContainerInitializer").
* null
will cause it to be lazily resolved again whenever
* its value is required. In particular, this will cause a registered initializer to be invoked
* again.
* getDefaultOptions
.
* String
; value type: String
),
* or null
to reset all options to their default values
* @see JavaCore#getDefaultOptions
*/
public static void setOptions(Hashtable newOptions) {
// see #initializeDefaultPluginPreferences() for changing default settings
Preferences preferences = getPlugin().getPluginPreferences();
if (newOptions == null){
newOptions = JavaCore.getDefaultOptions();
}
Enumeration keys = newOptions.keys();
while (keys.hasMoreElements()){
String key = (String)keys.nextElement();
if (!JavaModelManager.OptionNames.contains(key)) continue; // unrecognized option
if (key.equals(CORE_ENCODING)) continue; // skipped, contributed by resource prefs
String value = (String)newOptions.get(key);
preferences.setValue(key, value);
}
// persist options
getPlugin().savePluginPreferences();
}
/**
* Shutdown the JavaCore plug-in.
*