/**
* Returns a description for a value's single property. Subclasses may use this in creating a
* property descriptor, and user subclasses may override it to provide a specific name.
*/
protected String getPropertyDescription() {
return KommaEditPlugin.INSTANCE.getString("_UI_ValueProperty_description");
}
/**
* A basic implementation of <code>IWrapperProvider</code> from which others can extend. This class
* provides all the methods required to implement the following item provider interfaces:
*
* <ul>
* <li>{@link IStructuredItemContentProvider}
* <li>{@link ITreeItemContentProvider}
* <li>{@link IItemLabelProvider}
* <li>{@link IItemFontProvider}
* <li>{@link IItemColorProvider}
* <li>{@link IItemPropertySource}
* <li>{@link IEditingDomainItemProvider}
* </ul>
*
* <p>Subclasses should declare which of these interfaces they are meant to implement, and override
* methods as needed. In addition, a partial implementation for {@link IUpdateableItemText} is
* provided, along with additional methods and classes that are useful in implementing multiple
* subclasses.
*/
public class WrapperItemProvider implements IWrapperItemProvider {
/** The wrapped value. */
protected Object value;
/** The object that owns the value. */
protected Object owner;
/** The structural feature, if applicable, through which the value can be set and retrieved. */
protected IReference property;
/**
* The index at which the value is located. If {@link #property} is non-null, this index is within
* that feature.
*/
protected int index;
/** The adapter factory for the owner's item provider. */
protected IAdapterFactory adapterFactory;
/**
* Creates an instance. The adapter factory of the owner's item provider may be needed for echoing
* notifications and providing property descriptors.
*/
public WrapperItemProvider(
Object value, Object owner, IReference property, int index, IAdapterFactory adapterFactory) {
this.value = value;
this.owner = owner;
this.property = property;
this.index = index;
this.adapterFactory = adapterFactory;
}
/**
* Disposes the wrapper by deactivating any notification that this wrapper may provide. Since this
* implementation does not provide any notification, this method does nothing.
*/
public void dispose() {
// Do nothing.
}
/** Returns the wrapped value. */
public Object getValue() {
return value;
}
/** Returns the object that owns the value. */
public Object getOwner() {
return owner;
}
/**
* Returns the structural feature through which the value can be set and retrieved, or null if the
* feature is unknown or not applicable.
*/
public IReference getProperty() {
return property;
}
/**
* The index at which the value is located, or {@link
* net.enilink.komma.edit.command.CommandParameter#NO_INDEX} if the index isn't known to the
* wrapper. If {@link #property} is non-null, this index is within that feature.
*/
public int getIndex() {
return index;
}
/** Sets the index. Has no effect if the index isn't known to the wrapper. */
public void setIndex(int index) {
this.index = index;
}
/**
* {@link IStructuredItemContentProvider#getElements IStructuredItemContentProvider.getElements}
* is implemented by forwarding the call to {@link #getChildren getChildren}.
*/
public Collection<?> getElements(Object object) {
return getChildren(object);
}
/**
* {@link ITreeItemContentProvider#getChildren ITreeItemContentProvider.getChildren} is
* implemented to return an empty list. Subclasses may override it to return something else.
*/
public Collection<?> getChildren(Object object) {
return Collections.emptyList();
}
/**
* {@link ITreeItemContentProvider#hasChildren ITreeItemContentProvider.hasChildren} is
* implemented by testing whether the collection returned by {@link #getChildren getChildren} is
* non-empty.
*/
public boolean hasChildren(Object object) {
return !getChildren(object).isEmpty();
}
/**
* {@link ITreeItemContentProvider#getParent ITreeItemContentProvider.getParent} is implemented by
* returning the {@link #owner}.
*/
public Object getParent(Object object) {
return owner;
}
/**
* {@link net.enilink.komma.edit.provider.IItemLabelProvider#getText IItemLabelProvider.getText}
* is implemented by returning a non-null value, as a string, or "null".
*/
public String getText(Object object) {
return value != null ? value.toString() : "null";
}
/**
* {@link net.enilink.komma.edit.provider.IItemLabelProvider#getImage IItemLabelProvider.getImage}
* is implemented by returning the default icon for an EMF.Edit item.
*/
public Object getImage(Object object) {
return KommaEditPlugin.INSTANCE.getImage("full/obj16/Item");
}
/**
* {@link net.enilink.komma.edit.provider.IItemFontProvider#getFont IItemFontProvider.getFont} is
* implemented by returning null.
*/
public Object getFont(Object object) {
return null;
}
/**
* {@link net.enilink.komma.edit.provider.IItemColorProvider#getForeground
* IItemColorProvider.getForeground} is implemented by returning null.
*/
public Object getForeground(Object object) {
return null;
}
/**
* {@link net.enilink.komma.edit.provider.IItemColorProvider#getBackground
* IItemColorProvider.getBackground} is implemented by returning null.
*/
public Object getBackground(Object object) {
return null;
}
/**
* {@link IUpdateableItemText#getUpdateableText IUpdateableItemText.getUpdateableText} is
* implemented by forwarding the call to {@link #getText getText}.
*/
public String getUpdateableText(Object object) {
return getText(object);
}
/**
* {@link IItemPropertySource#getPropertyDescriptors IItemPropertySource.getPropertyDescriptors}
* is implemented to return an empty list. Subclasses may override it to return something else.
*/
public List<IItemPropertyDescriptor> getPropertyDescriptors(Object object) {
return Collections.emptyList();
}
/**
* {@link IItemPropertySource#getPropertyDescriptor IItemPropertySource.getPropertyDescriptor} is
* implemented by iterating over the descriptors returned by {@link #getPropertyDescriptors
* getPropertyDescriptors}, and returning the first descriptor whose {@link
* IItemPropertyDescriptor#getId(Object) ID} or {@link IItemPropertyDescriptor#getProperty(Object)
* feature} matches the specified ID, or <code>null</code> if none match.
*/
public IItemPropertyDescriptor getPropertyDescriptor(Object object, Object propertyId) {
for (IItemPropertyDescriptor descriptor : getPropertyDescriptors(object)) {
if (propertyId.equals(descriptor.getId(object))
|| propertyId.equals(descriptor.getProperty(object))) {
return descriptor;
}
}
return null;
}
/**
* {@link IItemPropertySource#getEditableValue IItemPropertySource.getEditableValue} is
* implemented to return the value, itself.
*/
public Object getEditableValue(Object object) {
return value;
}
/**
* Returns a name for a value's single property. Subclasses may use this in creating a property
* descriptor, and user subclasses may override it to provide a specific name.
*/
protected String getPropertyName() {
return KommaEditPlugin.INSTANCE.getString("_UI_ValueProperty_name");
}
/**
* Returns a description for a value's single property. Subclasses may use this in creating a
* property descriptor, and user subclasses may override it to provide a specific name.
*/
protected String getPropertyDescription() {
return KommaEditPlugin.INSTANCE.getString("_UI_ValueProperty_description");
}
/**
* Returns whether a value's single property is settable. By default, this returns whether the
* structural feature is {@link org.eclipse.emf.ecore.EStructuralFeature#isChangeable changeable}.
* Subclasses may use this in creating a property descriptor, and user subclasses may override it
* to restrict or allow setting of the property.
*/
protected boolean isPropertySettable() {
return true;
// return property.isChangeable();
}
/**
* Returns whether value's single property consists of multi-line text. By default, false is
* returned. Subclasses may use this in creating a property descriptor, and user subclasses may
* override it to enable multi-line text editing.
*/
protected boolean isPropertyMultiLine() {
return false;
}
/**
* Returns whether value's single property should sort its choices for selection. By default,
* false is returned. Subclasses may use this in creating a property descriptor, and user
* subclasses may override it to enable sorting.
*/
protected boolean isPropertySortChoices() {
return false;
}
/**
* Returns an image for a value's single property. By default, a standard property icon is
* selected based on the type of the structural feature. Subclasses may use this in creating a
* property descriptor, and user subclasses may override it to select a different icon.
*/
protected Object getPropertyImage() {
IProperty property =
(IProperty) ((IResource) getOwner()).getEntityManager().find(this.property);
Set<String> ranges = new HashSet<String>();
for (net.enilink.vocab.rdfs.Class rangeClass : property.getRdfsRanges()) {
ranges.add(rangeClass.getURI().toString());
}
return getPropertyImage(ranges);
}
/**
* Returns the property image for the specified type. Implementations of {@link
* #getPropertyImage() getPropertyImage} typically call this method.
*/
protected Object getPropertyImage(Collection<String> ranges) {
if (ranges.contains(XMLSCHEMA.TYPE_BOOLEAN.toString())) {
return ItemPropertyDescriptor.BOOLEAN_VALUE_IMAGE;
} else if (ranges.contains(XMLSCHEMA.TYPE_BYTE.toString())
|| ranges.contains(XMLSCHEMA.TYPE_INTEGER.toString())
|| ranges.contains(XMLSCHEMA.TYPE_LONG.toString())
|| ranges.contains(XMLSCHEMA.TYPE_SHORT.toString())) {
return ItemPropertyDescriptor.INTEGRAL_VALUE_IMAGE;
} else if (ranges.contains(XMLSCHEMA.TYPE_STRING.toString())) {
return ItemPropertyDescriptor.TEXT_VALUE_IMAGE;
} else if (ranges.contains(XMLSCHEMA.TYPE_DOUBLE.toString())
|| ranges.contains(XMLSCHEMA.TYPE_FLOAT.toString())) {
return ItemPropertyDescriptor.REAL_VALUE_IMAGE;
}
return ItemPropertyDescriptor.GENERIC_VALUE_IMAGE;
}
/**
* Returns a category for a value's single property. By default, null is returned. Subclasses may
* use this in creating a property descriptor, and user subclasses may override it to actually
* provide a category.
*/
protected String getPropertyCategory() {
return null;
}
/**
* Returns filter flags for a value's single property. By default, null is returned. Subclasses
* may use this in creating a property descriptor, and user subclasses may override it to actually
* provide filter flags.
*/
protected String[] getPropertyFilterFlags() {
return null;
}
/**
* {@link IEditingDomainItemProvider#getNewChildDescriptors
* IEditingDomainItemProvider.getNewChildDescriptors} is implemented to return an empty list.
* Subclasses may override it to return something else.
*/
public void getNewChildDescriptors(
Object object,
IEditingDomain editingDomain,
Object sibling,
ICollector<Object> descriptors) {}
/**
* {IEditingDomainItemProvider#createCommand IEditingDomainItemProvider.createCommand} is
* implemented via {@link #baseCreateCommand baseCreateCommand} to create set, copy, and
* drag-and-drop commands, only.
*/
public ICommand createCommand(
Object object,
IEditingDomain domain,
Class<? extends ICommand> commandClass,
CommandParameter commandParameter) {
return baseCreateCommand(object, domain, commandClass, commandParameter);
}
/**
* Implements creation of a set, copy, or drag-and-drop command by calling out to {@link
* #createSetCommand createSetCommand}, {@link #createCopyCommand createCopyCommand}, or {@link
* #createDragAndDropCommand createDragAndDropCommand}.
*/
public ICommand baseCreateCommand(
Object object,
IEditingDomain domain,
Class<? extends ICommand> commandClass,
CommandParameter commandParameter) {
if (commandClass == SetCommand.class) {
return createSetCommand(
domain,
commandParameter.getOwner(),
commandParameter.getProperty(),
commandParameter.getValue(),
commandParameter.getIndex());
} else if (commandClass == CopyCommand.class) {
return createCopyCommand(
domain, commandParameter.getOwner(), (CopyCommand.Helper) commandParameter.getValue());
} else if (commandClass == DragAndDropCommand.class) {
DragAndDropCommand.Detail detail = (DragAndDropCommand.Detail) commandParameter.getProperty();
return createDragAndDropCommand(
domain,
commandParameter.getOwner(),
detail.location,
detail.operations,
detail.operation,
commandParameter.getCollection());
} else {
return UnexecutableCommand.INSTANCE;
}
}
/**
* Return an {@link net.enilink.komma.common.command.UnexecutableCommand}. Subclasses should
* override this to map this into a real set on a model object.
*/
protected ICommand createSetCommand(
IEditingDomain domain, Object owner, Object feature, Object value, int index) {
return UnexecutableCommand.INSTANCE;
}
/**
* Returns an {@link net.enilink.komma.common.command.UnexecutableCommand}. An ordinary {@link
* net.enilink.komma.edit.command.CopyCommand} is only useful for copying model objects, so it
* would be inappropriate here. Subclasses should override it to return something more useful,
* like a concrete subclass of a {@link SimpleCopyCommand} or {@link WrappingCopyCommand}.
*/
protected ICommand createCopyCommand(
IEditingDomain domain, Object owner, CopyCommand.Helper helper) {
return UnexecutableCommand.INSTANCE;
}
/** Creates a {@link net.enilink.komma.edit.command.DragAndDropCommand} . */
protected ICommand createDragAndDropCommand(
IEditingDomain domain,
Object owner,
float location,
int operations,
int operation,
Collection<?> collection) {
return new DragAndDropCommand(domain, owner, location, operations, operation, collection);
}
/**
* A label for copy command inner classes, the same one used by {@link
* net.enilink.komma.edit.command.CopyCommand}.
*/
protected static final String COPY_COMMAND_LABEL =
KommaEditPlugin.INSTANCE.getString("_UI_CopyCommand_label");
/**
* A description for copy command inner classes, the same as in {@link
* net.enilink.komma.edit.command.CopyCommand}.
*/
protected static final String COPY_COMMAND_DESCRIPTION =
KommaEditPlugin.INSTANCE.getString("_UI_CopyCommand_description");
/**
* A command base class for copying a simple value and the wrapper. This is useful when the value
* isn't able provide an adapter to return a copy command, itself. This class just provides the
* scaffolding; concrete subclasses must implement {@link #copy copy} to do the copying.
*/
protected abstract class SimpleCopyCommand extends AbstractOverrideableCommand {
protected Collection<?> affectedObjects;
/** Creates an instance for the given domain. */
public SimpleCopyCommand(IEditingDomain domain) {
super(domain, COPY_COMMAND_LABEL, COPY_COMMAND_DESCRIPTION);
}
/** Returns true; this command can requires now preparation and can always be executed. */
@Override
protected boolean prepare() {
return true;
}
/**
* Calls {@link #copy} to do the copying, {@link IDisposable#dispose disposes} the copy, and
* sets it to be the result of the command. Since the copy has not been created within the
* viewed model, it should never do any kind of notification, which is why it is immediately
* disposed.
*/
@Override
protected CommandResult doExecuteWithResult(IProgressMonitor progressMonitor, IAdaptable info)
throws ExecutionException {
IWrapperItemProvider copy = copy();
copy.dispose();
return CommandResult.newOKCommandResult(Collections.singletonList(copy));
}
/** Concrete subclasses must implement this to copy and return the value and wrapper. */
public abstract IWrapperItemProvider copy();
/** Returns a list containing only the original wrapper itself. */
@Override
public Collection<?> doGetAffectedObjects() {
if (affectedObjects == null) {
affectedObjects = Collections.singletonList(WrapperItemProvider.this);
}
return affectedObjects;
}
}
/**
* A command base class for copying the wrapper for a value that is partly copied by another
* command. This is useful when the value includes a model object that is able provide an adapter
* to return a copy command, but also includes an element that is not adaptable, such as a feature
* map entry. This command copies the non-adapter element and the wrapper, which ensures the copy
* can be copied again.
*/
protected abstract class WrappingCopyCommand extends CommandWrapper {
protected Collection<?> affectedObjects;
/** Creates an instance where some adaptable value is copied by the given command. */
public WrappingCopyCommand(ICommand command) {
super(command);
}
/**
* Executes the adaptable-value-copying command, then calls {@link #copy copy} to copy the rest
* of the value and the wrapper, {@link IDisposable#dispose disposes} the copy, and sets it to
* be the result of the command. Since the copy has not been created within the viewed model, it
* should never do any kind of notification, which is why it is immediately disposed.
*/
@Override
protected CommandResult doExecuteWithResult(IProgressMonitor progressMonitor, IAdaptable info)
throws ExecutionException {
super.doExecuteWithResult(progressMonitor, info);
IWrapperItemProvider copy = copy();
copy.dispose();
return CommandResult.newOKCommandResult(Collections.singletonList(copy));
}
/**
* Concrete subclasses must implement this to copy and return the value and wrapper. The result
* of the adaptable-value-copying command is available from <code>getCommand().getResult()
* </code>.
*/
public abstract IWrapperItemProvider copy();
/** Returns a list containing only the original wrapper itself. */
@Override
public Collection<?> getAffectedObjects() {
if (affectedObjects == null) {
affectedObjects = Collections.singletonList(WrapperItemProvider.this);
}
return affectedObjects;
}
}
/**
* Returns the {@link #adapterFactory}, if non-composeable, otherwise, returns its root adapter
* factory.
*/
protected IAdapterFactory getRootAdapterFactory() {
return adapterFactory instanceof IComposeableAdapterFactory
? ((IComposeableAdapterFactory) adapterFactory).getRootAdapterFactory()
: adapterFactory;
}
/**
* An item property descriptor for the single property of a wrapper for a simple value. This
* extends the base implementation and substitutes the wrapper's owner for the selected object
* (the wrapper itself) in the call to {@link #getPropertyValue getPropertyValue}. Thus, the owner
* must be an EObject to use this class. The property's name, description, settable flag, static
* image, category, and filter flags are obtained by calling out to various template methods, so
* can be easily changed by deriving a subclass.
*/
protected class WrapperItemPropertyDescriptor extends ItemPropertyDescriptor {
public WrapperItemPropertyDescriptor(IResourceLocator resourceLocator, IReference property) {
super(
WrapperItemProvider.this.adapterFactory,
resourceLocator,
getPropertyName(),
getPropertyDescription(),
property,
isPropertySettable(),
isPropertyMultiLine(),
isPropertySortChoices(),
getPropertyImage(),
getPropertyCategory(),
getPropertyFilterFlags());
}
/**
* Substitutes the wrapper owner for the selected object and invokes the base implementation.
* The actual value returned depends on the implementation of {@link #getValue getValue}.
*/
@Override
public Object getPropertyValue(Object object) {
return super.getPropertyValue(owner);
}
/**
* Substitutes the wrapper owner for the selected object and invokes the base implementation.
*/
@Override
public boolean canSetProperty(Object object) {
return super.canSetProperty(owner);
}
/**
* Returns <code>true</code>, as the property of a value wrapper is always considered to be set.
*/
@Override
public boolean isPropertySet(Object object) {
return true;
}
/** Does nothing, as resetting the property of a value wrapper is not meaningful. */
@Override
public void resetPropertyValue(Object object) {
// Do nothing
}
/**
* Sets the property value. If an editing domain can be obtained, the command returned by {@link
* #createSetCommand createSetcommand} is executed; otherwise, {@link #setValue setValue} is
* called to set the value.
*/
@Override
public void setPropertyValue(Object object, Object value) {
IEditingDomain editingDomain = getEditingDomain(owner);
if (editingDomain == null) {
setValue((IResource) object, property, value);
} else {
try {
editingDomain
.getCommandStack()
.execute(
createSetCommand(editingDomain, (IResource) object, property, value), null, null);
} catch (ExecutionException e) {
Log.error(KommaEditPlugin.getPlugin(), 0, "Error while setting property value", e);
}
}
}
/**
* Returns a value from a model object. If the feature is multi-valued, only the single value
* that the wrapper represents is returned.
*/
@Override
protected Object getValue(IResource object, IReference property) {
// When the value is changed, the property sheet page doesn't update
// the property sheet viewer input
// before refreshing, and this gets called on the obsolete wrapper.
// So, we need to read directly from the
// model object.
//
// return value;
Object result = object.get(property);
if (object.getApplicableCardinality(property).getSecond() != 1) {
// If the last object was deleted and the selection was in the
// property sheet view, the obsolete wrapper will
// reference past the end of the list.
//
List<?> list = (List<?>) result;
result = index >= 0 && index < list.size() ? list.get(index) : value;
}
return result;
}
/**
* Sets a value on a model object. If the feature is multi-valued, only the single value that
* the wrapper represents is set.
*/
protected void setValue(IResource object, IReference property, Object value) {
if (object.getApplicableCardinality(property).getSecond() != 1) {
@SuppressWarnings("unchecked")
List<Object> list = ((List<Object>) object.get(property));
list.set(index, value);
} else {
object.set(property, value);
}
}
/**
* Returns a command that will set the value on the model object. The wrapper is used as the
* owner of the command, unless overridden, so that it can specialize the command that
* eventually gets created.
*/
protected ICommand createSetCommand(
IEditingDomain domain, Object owner, Object feature, Object value) {
return SetCommand.create(domain, getCommandOwner(WrapperItemProvider.this), null, value);
}
/**
* Returns <code>false</code>, as the property only represents a single value, even if the
* feature is multi-valued.
*/
@Override
public boolean isMany(Object object) {
return false;
}
/**
* Substitutes the wrapper owner for the selected object and invokes the base implementation.
*/
@Override
public Collection<?> getChoiceOfValues(Object object) {
return super.getChoiceOfValues(owner);
}
}
/**
* A <code>ReplacementAffectedObjectCommand</code> wraps another command to return as its affected
* objects the single wrapper that replaces this wrapper. That is, it obtains the children of the
* wrapper's owner, and returns a collection containing the first wrapper whose feature and index
* match this one's.
*/
protected class ReplacementAffectedObjectCommand extends CommandWrapper {
public ReplacementAffectedObjectCommand(ICommand command) {
super(command);
}
/**
* Obtains the children of the wrapper's owner, and returns a collection containing the first
* wrapper whose feature and index match this one's.
*/
@Override
public Collection<?> getAffectedObjects() {
Collection<?> children = Collections.EMPTY_LIST;
// Either the IEditingDomainItemProvider or ITreeItemContentProvider
// item provider interface can give us
// the children.
//
Object adapter = adapterFactory.adapt(owner, IEditingDomainItemProvider.class);
if (adapter instanceof IEditingDomainItemProvider) {
children = ((IEditingDomainItemProvider) adapter).getChildren(owner);
} else {
adapter = adapterFactory.adapt(owner, ITreeItemContentProvider.class);
if (adapter instanceof ITreeItemContentProvider) {
children = ((ITreeItemContentProvider) adapter).getChildren(owner);
}
}
for (Object child : children) {
if (child instanceof IWrapperItemProvider) {
IWrapperItemProvider wrapper = (IWrapperItemProvider) child;
if (wrapper.getProperty() == property && wrapper.getIndex() == index) {
return Collections.singletonList(child);
}
}
}
return Collections.EMPTY_LIST;
}
}
@Override
public boolean isInferred() {
return false;
}
}
/**
* Returns a name for a value's single property. Subclasses may use this in creating a property
* descriptor, and user subclasses may override it to provide a specific name.
*/
protected String getPropertyName() {
return KommaEditPlugin.INSTANCE.getString("_UI_ValueProperty_name");
}