EJB3SessionOperationParameterFacadeLogic.java
// license-header java merge-point
//
// Attention: generated code (by MetafacadeLogic.vsl) - do not modify!
//
package org.andromda.cartridges.ejb3.metafacades;
import java.util.Collection;
import org.andromda.core.common.Introspector;
import org.andromda.core.metafacade.MetafacadeBase;
import org.andromda.core.metafacade.MetafacadeFactory;
import org.andromda.core.metafacade.ModelValidationMessage;
import org.andromda.metafacades.uml.ClassifierFacade;
import org.andromda.metafacades.uml.ConstraintFacade;
import org.andromda.metafacades.uml.DependencyFacade;
import org.andromda.metafacades.uml.EventFacade;
import org.andromda.metafacades.uml.ModelElementFacade;
import org.andromda.metafacades.uml.ModelFacade;
import org.andromda.metafacades.uml.OperationFacade;
import org.andromda.metafacades.uml.PackageFacade;
import org.andromda.metafacades.uml.ParameterFacade;
import org.andromda.metafacades.uml.StateMachineFacade;
import org.andromda.metafacades.uml.StereotypeFacade;
import org.andromda.metafacades.uml.TaggedValueFacade;
import org.andromda.metafacades.uml.TemplateParameterFacade;
import org.andromda.metafacades.uml.TypeMappings;
/**
* TODO: Model Documentation for
* org.andromda.cartridges.ejb3.metafacades.EJB3SessionOperationParameterFacade
* MetafacadeLogic for EJB3SessionOperationParameterFacade
*
* @see EJB3SessionOperationParameterFacade
*/
public abstract class EJB3SessionOperationParameterFacadeLogic
extends MetafacadeBase
implements EJB3SessionOperationParameterFacade
{
/**
* The underlying UML object
* @see Object
*/
protected Object metaObject;
/** Create Metafacade implementation instance using the MetafacadeFactory from the context
* @param metaObjectIn
* @param context
*/
protected EJB3SessionOperationParameterFacadeLogic(Object metaObjectIn, String context)
{
super(metaObjectIn, getContext(context));
this.superParameterFacade =
(ParameterFacade)
MetafacadeFactory.getInstance().createFacadeImpl(
"org.andromda.metafacades.uml.ParameterFacade",
metaObjectIn,
getContext(context));
this.metaObject = metaObjectIn;
}
/**
* Gets the context for this metafacade logic instance.
* @param context String. Set to EJB3SessionOperationParameterFacade if null
* @return context String
*/
private static String getContext(String context)
{
if (context == null)
{
context = "org.andromda.cartridges.ejb3.metafacades.EJB3SessionOperationParameterFacade";
}
return context;
}
private ParameterFacade superParameterFacade;
private boolean superParameterFacadeInitialized = false;
/**
* Gets the ParameterFacade parent instance.
* @return this.superParameterFacade ParameterFacade
*/
private ParameterFacade getSuperParameterFacade()
{
if (!this.superParameterFacadeInitialized)
{
((MetafacadeBase)this.superParameterFacade).setMetafacadeContext(this.getMetafacadeContext());
this.superParameterFacadeInitialized = true;
}
return this.superParameterFacade;
}
/** Reset context only for non-root metafacades
* @param context
* @see org.andromda.core.metafacade.MetafacadeBase#resetMetafacadeContext(String context)
*/
@Override
public void resetMetafacadeContext(String context)
{
if (!this.contextRoot) // reset context only for non-root metafacades
{
context = getContext(context); // to have same value as in original constructor call
setMetafacadeContext (context);
if (this.superParameterFacadeInitialized)
{
((MetafacadeBase)this.superParameterFacade).resetMetafacadeContext(context);
}
}
}
/**
* @return boolean true always
* @see EJB3SessionOperationParameterFacade
*/
public boolean isEJB3SessionOperationParameterFacadeMetaType()
{
return true;
}
// --------------- attributes ---------------------
/**
* @see org.andromda.cartridges.ejb3.metafacades.EJB3SessionOperationParameterFacade#isSeamAsynchronousDuration()
* @return boolean
*/
protected abstract boolean handleIsSeamAsynchronousDuration();
private boolean __seamAsynchronousDuration1a;
private boolean __seamAsynchronousDuration1aSet = false;
/**
* Specifies that a parameter of the asynchronous call is the duration before the call is
* processed (or first processed for recurring calls).
* @return (boolean)handleIsSeamAsynchronousDuration()
*/
public final boolean isSeamAsynchronousDuration()
{
boolean seamAsynchronousDuration1a = this.__seamAsynchronousDuration1a;
if (!this.__seamAsynchronousDuration1aSet)
{
// seamAsynchronousDuration has no pre constraints
seamAsynchronousDuration1a = handleIsSeamAsynchronousDuration();
// seamAsynchronousDuration has no post constraints
this.__seamAsynchronousDuration1a = seamAsynchronousDuration1a;
if (isMetafacadePropertyCachingEnabled())
{
this.__seamAsynchronousDuration1aSet = true;
}
}
return seamAsynchronousDuration1a;
}
/**
* @see org.andromda.cartridges.ejb3.metafacades.EJB3SessionOperationParameterFacade#isSeamAsynchronousExpiration()
* @return boolean
*/
protected abstract boolean handleIsSeamAsynchronousExpiration();
private boolean __seamAsynchronousExpiration2a;
private boolean __seamAsynchronousExpiration2aSet = false;
/**
* Specifies that a parameter of the asynchronous call is the datetime at which the call is
* processed (or first processed for recurring calls).
* @return (boolean)handleIsSeamAsynchronousExpiration()
*/
public final boolean isSeamAsynchronousExpiration()
{
boolean seamAsynchronousExpiration2a = this.__seamAsynchronousExpiration2a;
if (!this.__seamAsynchronousExpiration2aSet)
{
// seamAsynchronousExpiration has no pre constraints
seamAsynchronousExpiration2a = handleIsSeamAsynchronousExpiration();
// seamAsynchronousExpiration has no post constraints
this.__seamAsynchronousExpiration2a = seamAsynchronousExpiration2a;
if (isMetafacadePropertyCachingEnabled())
{
this.__seamAsynchronousExpiration2aSet = true;
}
}
return seamAsynchronousExpiration2a;
}
/**
* @see org.andromda.cartridges.ejb3.metafacades.EJB3SessionOperationParameterFacade#isSeamAsynchronousIntervalDuration()
* @return boolean
*/
protected abstract boolean handleIsSeamAsynchronousIntervalDuration();
private boolean __seamAsynchronousIntervalDuration3a;
private boolean __seamAsynchronousIntervalDuration3aSet = false;
/**
* Specifies that an asynchronous method call recurs, and that the annotationed parameter is
* duration between recurrences.
* @return (boolean)handleIsSeamAsynchronousIntervalDuration()
*/
public final boolean isSeamAsynchronousIntervalDuration()
{
boolean seamAsynchronousIntervalDuration3a = this.__seamAsynchronousIntervalDuration3a;
if (!this.__seamAsynchronousIntervalDuration3aSet)
{
// seamAsynchronousIntervalDuration has no pre constraints
seamAsynchronousIntervalDuration3a = handleIsSeamAsynchronousIntervalDuration();
// seamAsynchronousIntervalDuration has no post constraints
this.__seamAsynchronousIntervalDuration3a = seamAsynchronousIntervalDuration3a;
if (isMetafacadePropertyCachingEnabled())
{
this.__seamAsynchronousIntervalDuration3aSet = true;
}
}
return seamAsynchronousIntervalDuration3a;
}
/**
* @return true
* @see ParameterFacade
*/
public boolean isParameterFacadeMetaType()
{
return true;
}
/**
* @return true
* @see ModelElementFacade
*/
public boolean isModelElementFacadeMetaType()
{
return true;
}
// ----------- delegates to ParameterFacade ------------
/**
* Copies all tagged values from the given ModelElementFacade to this model element facade.
* @see ModelElementFacade#copyTaggedValues(ModelElementFacade element)
*/
public void copyTaggedValues(ModelElementFacade element)
{
this.getSuperParameterFacade().copyTaggedValues(element);
}
/**
* Finds the tagged value with the specified 'tagName'. In case there are more values the first
* one found will be returned.
* @see ModelElementFacade#findTaggedValue(String tagName)
*/
public Object findTaggedValue(String tagName)
{
return this.getSuperParameterFacade().findTaggedValue(tagName);
}
/**
* Returns all the values for the tagged value with the specified name. The returned collection
* will contains only String instances, or will be empty. Never null.
* @see ModelElementFacade#findTaggedValues(String tagName)
*/
public Collection<Object> findTaggedValues(String tagName)
{
return this.getSuperParameterFacade().findTaggedValues(tagName);
}
/**
* Returns the fully qualified name of the model element. The fully qualified name includes
* complete package qualified name of the underlying model element. The templates parameter will
* be replaced by the correct one given the binding relation of the parameter to this element.
* @see ModelElementFacade#getBindedFullyQualifiedName(ModelElementFacade bindedElement)
*/
public String getBindedFullyQualifiedName(ModelElementFacade bindedElement)
{
return this.getSuperParameterFacade().getBindedFullyQualifiedName(bindedElement);
}
/**
* Gets all constraints belonging to the model element.
* @see ModelElementFacade#getConstraints()
*/
public Collection<ConstraintFacade> getConstraints()
{
return this.getSuperParameterFacade().getConstraints();
}
/**
* Returns the constraints of the argument kind that have been placed onto this model. Typical
* kinds are "inv", "pre" and "post". Other kinds are possible.
* @see ModelElementFacade#getConstraints(String kind)
*/
public Collection<ConstraintFacade> getConstraints(String kind)
{
return this.getSuperParameterFacade().getConstraints(kind);
}
/**
* Gets the documentation for the model element, The indent argument is prefixed to each line.
* By default this method wraps lines after 64 characters.
* This method is equivalent to <code>getDocumentation(indent, 64)</code>.
* @see ModelElementFacade#getDocumentation(String indent)
*/
public String getDocumentation(String indent)
{
return this.getSuperParameterFacade().getDocumentation(indent);
}
/**
* This method returns the documentation for this model element, with the lines wrapped after
* the specified number of characters, values of less than 1 will indicate no line wrapping is
* required. By default paragraphs are returned as HTML.
* This method is equivalent to <code>getDocumentation(indent, lineLength, true)</code>.
* @see ModelElementFacade#getDocumentation(String indent, int lineLength)
*/
public String getDocumentation(String indent, int lineLength)
{
return this.getSuperParameterFacade().getDocumentation(indent, lineLength);
}
/**
* This method returns the documentation for this model element, with the lines wrapped after
* the specified number of characters, values of less than 1 will indicate no line wrapping is
* required. HTML style determines if HTML Escaping is applied.
* @see ModelElementFacade#getDocumentation(String indent, int lineLength, boolean htmlStyle)
*/
public String getDocumentation(String indent, int lineLength, boolean htmlStyle)
{
return this.getSuperParameterFacade().getDocumentation(indent, lineLength, htmlStyle);
}
/**
* The fully qualified name of this model element.
* @see ModelElementFacade#getFullyQualifiedName()
*/
public String getFullyQualifiedName()
{
return this.getSuperParameterFacade().getFullyQualifiedName();
}
/**
* Returns the fully qualified name of the model element. The fully qualified name includes
* complete package qualified name of the underlying model element. If modelName is true, then
* the original name of the model element (the name contained within the model) will be the name
* returned, otherwise a name from a language mapping will be returned.
* @see ModelElementFacade#getFullyQualifiedName(boolean modelName)
*/
public String getFullyQualifiedName(boolean modelName)
{
return this.getSuperParameterFacade().getFullyQualifiedName(modelName);
}
/**
* Returns the fully qualified name as a path, the returned value always starts with out a slash
* '/'.
* @see ModelElementFacade#getFullyQualifiedNamePath()
*/
public String getFullyQualifiedNamePath()
{
return this.getSuperParameterFacade().getFullyQualifiedNamePath();
}
/**
* Gets the unique identifier of the underlying model element.
* @see ModelElementFacade#getId()
*/
public String getId()
{
return this.getSuperParameterFacade().getId();
}
/**
* UML2: Retrieves the keywords for this element. Used to modify implementation properties which
* are not represented by other properties, i.e. native, transient, volatile, synchronized,
* (added annotations) override, deprecated. Can also be used to suppress compiler warnings:
* (added annotations) unchecked, fallthrough, path, serial, finally, all. Annotations require
* JDK5 compiler level.
* @see ModelElementFacade#getKeywords()
*/
public Collection<String> getKeywords()
{
return this.getSuperParameterFacade().getKeywords();
}
/**
* UML2: Retrieves a localized label for this named element.
* @see ModelElementFacade#getLabel()
*/
public String getLabel()
{
return this.getSuperParameterFacade().getLabel();
}
/**
* The language mappings that have been set for this model element.
* @see ModelElementFacade#getLanguageMappings()
*/
public TypeMappings getLanguageMappings()
{
return this.getSuperParameterFacade().getLanguageMappings();
}
/**
* Return the model containing this model element (multiple models may be loaded and processed
* at the same time).
* @see ModelElementFacade#getModel()
*/
public ModelFacade getModel()
{
return this.getSuperParameterFacade().getModel();
}
/**
* The name of the model element.
* @see ModelElementFacade#getName()
*/
public String getName()
{
return this.getSuperParameterFacade().getName();
}
/**
* Gets the package to which this model element belongs.
* @see ModelElementFacade#getPackage()
*/
public ModelElementFacade getPackage()
{
return this.getSuperParameterFacade().getPackage();
}
/**
* The name of this model element's package.
* @see ModelElementFacade#getPackageName()
*/
public String getPackageName()
{
return this.getSuperParameterFacade().getPackageName();
}
/**
* Gets the package name (optionally providing the ability to retrieve the model name and not
* the mapped name).
* @see ModelElementFacade#getPackageName(boolean modelName)
*/
public String getPackageName(boolean modelName)
{
return this.getSuperParameterFacade().getPackageName(modelName);
}
/**
* Returns the package as a path, the returned value always starts with out a slash '/'.
* @see ModelElementFacade#getPackagePath()
*/
public String getPackagePath()
{
return this.getSuperParameterFacade().getPackagePath();
}
/**
* UML2: Returns the value of the 'Qualified Name' attribute. A name which allows the
* NamedElement to be identified within a hierarchy of nested Namespaces. It is constructed from
* the names of the containing namespaces starting at the root of the hierarchy and ending with
* the name of the NamedElement itself.
* @see ModelElementFacade#getQualifiedName()
*/
public String getQualifiedName()
{
return this.getSuperParameterFacade().getQualifiedName();
}
/**
* Gets the root package for the model element.
* @see ModelElementFacade#getRootPackage()
*/
public PackageFacade getRootPackage()
{
return this.getSuperParameterFacade().getRootPackage();
}
/**
* Gets the dependencies for which this model element is the source.
* @see ModelElementFacade#getSourceDependencies()
*/
public Collection<DependencyFacade> getSourceDependencies()
{
return this.getSuperParameterFacade().getSourceDependencies();
}
/**
* If this model element is the context of an activity graph, this represents that activity
* graph.
* @see ModelElementFacade#getStateMachineContext()
*/
public StateMachineFacade getStateMachineContext()
{
return this.getSuperParameterFacade().getStateMachineContext();
}
/**
* The collection of ALL stereotype names for this model element.
* @see ModelElementFacade#getStereotypeNames()
*/
public Collection<String> getStereotypeNames()
{
return this.getSuperParameterFacade().getStereotypeNames();
}
/**
* Gets all stereotypes for this model element.
* @see ModelElementFacade#getStereotypes()
*/
public Collection<StereotypeFacade> getStereotypes()
{
return this.getSuperParameterFacade().getStereotypes();
}
/**
* Return the TaggedValues associated with this model element, under all stereotypes.
* @see ModelElementFacade#getTaggedValues()
*/
public Collection<TaggedValueFacade> getTaggedValues()
{
return this.getSuperParameterFacade().getTaggedValues();
}
/**
* Gets the dependencies for which this model element is the target.
* @see ModelElementFacade#getTargetDependencies()
*/
public Collection<DependencyFacade> getTargetDependencies()
{
return this.getSuperParameterFacade().getTargetDependencies();
}
/**
* Get the template parameter for this model element having the parameterName
* @see ModelElementFacade#getTemplateParameter(String parameterName)
*/
public Object getTemplateParameter(String parameterName)
{
return this.getSuperParameterFacade().getTemplateParameter(parameterName);
}
/**
* Get the template parameters for this model element
* @see ModelElementFacade#getTemplateParameters()
*/
public Collection<TemplateParameterFacade> getTemplateParameters()
{
return this.getSuperParameterFacade().getTemplateParameters();
}
/**
* The visibility (i.e. public, private, protected or package) of the model element, will
* attempt a lookup for these values in the language mappings (if any).
* @see ModelElementFacade#getVisibility()
*/
public String getVisibility()
{
return this.getSuperParameterFacade().getVisibility();
}
/**
* Returns true if the model element has the exact stereotype (meaning no stereotype inheritance
* is taken into account when searching for the stereotype), false otherwise.
* @see ModelElementFacade#hasExactStereotype(String stereotypeName)
*/
public boolean hasExactStereotype(String stereotypeName)
{
return this.getSuperParameterFacade().hasExactStereotype(stereotypeName);
}
/**
* Does the UML Element contain the named Keyword? Keywords can be separated by space, comma,
* pipe, semicolon, or << >>
* @see ModelElementFacade#hasKeyword(String keywordName)
*/
public boolean hasKeyword(String keywordName)
{
return this.getSuperParameterFacade().hasKeyword(keywordName);
}
/**
* Returns true if the model element has the specified stereotype. If the stereotype itself
* does not match, then a search will be made up the stereotype inheritance hierarchy, and if
* one of the stereotype's ancestors has a matching name this method will return true, false
* otherwise.
* For example, if we have a certain stereotype called <<exception>> and a model element has a
* stereotype called <<applicationException>> which extends <<exception>>, when calling this
* method with 'stereotypeName' defined as 'exception' the method would return true since
* <<applicationException>> inherits from <<exception>>. If you want to check if the model
* element has the exact stereotype, then use the method 'hasExactStereotype' instead.
* @see ModelElementFacade#hasStereotype(String stereotypeName)
*/
public boolean hasStereotype(String stereotypeName)
{
return this.getSuperParameterFacade().hasStereotype(stereotypeName);
}
/**
* True if there are target dependencies from this element that are instances of BindingFacade.
* Deprecated in UML2: Use TemplateBinding parameters instead of dependencies.
* @see ModelElementFacade#isBindingDependenciesPresent()
*/
public boolean isBindingDependenciesPresent()
{
return this.getSuperParameterFacade().isBindingDependenciesPresent();
}
/**
* Indicates if any constraints are present on this model element.
* @see ModelElementFacade#isConstraintsPresent()
*/
public boolean isConstraintsPresent()
{
return this.getSuperParameterFacade().isConstraintsPresent();
}
/**
* Indicates if any documentation is present on this model element.
* @see ModelElementFacade#isDocumentationPresent()
*/
public boolean isDocumentationPresent()
{
return this.getSuperParameterFacade().isDocumentationPresent();
}
/**
* True if this element name is a reserved word in Java, C#, ANSI or ISO C, C++, JavaScript.
* @see ModelElementFacade#isReservedWord()
*/
public boolean isReservedWord()
{
return this.getSuperParameterFacade().isReservedWord();
}
/**
* True is there are template parameters on this model element. For UML2, applies to Class,
* Operation, Property, and Parameter.
* @see ModelElementFacade#isTemplateParametersPresent()
*/
public boolean isTemplateParametersPresent()
{
return this.getSuperParameterFacade().isTemplateParametersPresent();
}
/**
* True if this element name is a valid identifier name in Java, C#, ANSI or ISO C, C++,
* JavaScript. Contains no spaces, special characters etc. Constraint always applied on
* Enumerations and Interfaces, optionally applies on other model elements.
* @see ModelElementFacade#isValidIdentifierName()
*/
public boolean isValidIdentifierName()
{
return this.getSuperParameterFacade().isValidIdentifierName();
}
/**
* Searches for the constraint with the specified 'name' on this model element, and if found
* translates it using the specified 'translation' from a translation library discovered by the
* framework.
* @see ModelElementFacade#translateConstraint(String name, String translation)
*/
public String translateConstraint(String name, String translation)
{
return this.getSuperParameterFacade().translateConstraint(name, translation);
}
/**
* Translates all constraints belonging to this model element with the given 'translation'.
* @see ModelElementFacade#translateConstraints(String translation)
*/
public String[] translateConstraints(String translation)
{
return this.getSuperParameterFacade().translateConstraints(translation);
}
/**
* Translates the constraints of the specified 'kind' belonging to this model element.
* @see ModelElementFacade#translateConstraints(String kind, String translation)
*/
public String[] translateConstraints(String kind, String translation)
{
return this.getSuperParameterFacade().translateConstraints(kind, translation);
}
/**
* TODO: Model Documentation for ParameterFacade.defaultValue
* @see ParameterFacade#getDefaultValue()
*/
public String getDefaultValue()
{
return this.getSuperParameterFacade().getDefaultValue();
}
/**
* UML2: A representation of the literals of the enumeration 'Parameter Effect Kind': CREATE,
* READ, UPDATE, DELETE. The datatype ParameterEffectKind is an enumeration that indicates the
* effect of a behavior on values passed in or out of its parameters.
* @see ParameterFacade#getEffect()
*/
public String getEffect()
{
return this.getSuperParameterFacade().getEffect();
}
/**
* If this parameter is located on an event, this will represent that event.
* @see ParameterFacade#getEvent()
*/
public EventFacade getEvent()
{
return this.getSuperParameterFacade().getEvent();
}
/**
* The name to use for accessors getting this parameter from a bean.
* @see ParameterFacade#getGetterName()
*/
public String getGetterName()
{
return this.getSuperParameterFacade().getGetterName();
}
/**
* Fully Qualified TypeName, determined in part by multiplicity (for UML2). For UML14, same as
* getterName.
* @see ParameterFacade#getGetterSetterTypeName()
*/
public String getGetterSetterTypeName()
{
return this.getSuperParameterFacade().getGetterSetterTypeName();
}
/**
* Fully Qualified implementation class of TypeName, determined in part by multiplicity (for
* UML2). If upper multiplicity =1, same as getterSetterTypeName.
* @see ParameterFacade#getGetterSetterTypeNameImpl()
*/
public String getGetterSetterTypeNameImpl()
{
return this.getSuperParameterFacade().getGetterSetterTypeNameImpl();
}
/**
* the lower value for the multiplicity
* -only applicable for UML2
* @see ParameterFacade#getLower()
*/
public int getLower()
{
return this.getSuperParameterFacade().getLower();
}
/**
* If this parameter is located on an operation, this will represent that operation.
* @see ParameterFacade#getOperation()
*/
public OperationFacade getOperation()
{
return this.getSuperParameterFacade().getOperation();
}
/**
* The name to use for accessors getting this parameter in a bean.
* @see ParameterFacade#getSetterName()
*/
public String getSetterName()
{
return this.getSuperParameterFacade().getSetterName();
}
/**
* A Classifier is a classification of instances - it describes a set of instances that have
* features
* in common. Can specify a generalization hierarchy by referencing its general classifiers. It
* may be
* a Class, DataType, PrimitiveType, Association, Collaboration, UseCase, etc. Can specify a
* generalization hierarchy by referencing its general classifiers. Has the capability to own
* collaboration uses. These collaboration uses link a collaboration with the classifier to give
* a
* description of the workings of the classifier. Classifier is defined to be a kind of
* templateable
* element so that a classifier can be parameterized. It is also defined to be a kind of
* parameterable
* element so that a classifier can be a formal template parameter.
* @see ParameterFacade#getType()
*/
public ClassifierFacade getType()
{
return this.getSuperParameterFacade().getType();
}
/**
* the upper value of the multiplicity (will be -1 for *)
* -only applicable for UML2
* @see ParameterFacade#getUpper()
*/
public int getUpper()
{
return this.getSuperParameterFacade().getUpper();
}
/**
* Indicates if the default value is present.
* @see ParameterFacade#isDefaultValuePresent()
*/
public boolean isDefaultValuePresent()
{
return this.getSuperParameterFacade().isDefaultValuePresent();
}
/**
* UML2: Returns the value of the 'Is Exception' attribute. The default value is "false". Tells
* whether an output parameter may emit a value to the exclusion of the other outputs.
* @see ParameterFacade#isException()
*/
public boolean isException()
{
return this.getSuperParameterFacade().isException();
}
/**
* True if this parameter is an 'in' parameter.
* @see ParameterFacade#isInParameter()
*/
public boolean isInParameter()
{
return this.getSuperParameterFacade().isInParameter();
}
/**
* True if this parameter is an inout parameter.
* @see ParameterFacade#isInoutParameter()
*/
public boolean isInoutParameter()
{
return this.getSuperParameterFacade().isInoutParameter();
}
/**
* If upper>1 or upper==unlimited. Only applies to UML2. For UML14, always false.
* @see ParameterFacade#isMany()
*/
public boolean isMany()
{
return this.getSuperParameterFacade().isMany();
}
/**
* UML2 Only: Is parameter ordered within the Collection type. Ordered+Unique determines the
* implementation Collection Type. For UML14, always false.
* @see ParameterFacade#isOrdered()
*/
public boolean isOrdered()
{
return this.getSuperParameterFacade().isOrdered();
}
/**
* True if this parameter is an 'out' parameter.
* @see ParameterFacade#isOutParameter()
*/
public boolean isOutParameter()
{
return this.getSuperParameterFacade().isOutParameter();
}
/**
* True if this parameter is readable, aka an in-parameter, or this feature is unspecified.
* @see ParameterFacade#isReadable()
*/
public boolean isReadable()
{
return this.getSuperParameterFacade().isReadable();
}
/**
* Whether or not this parameter is considered required (i.e must a non-empty value).
* @see ParameterFacade#isRequired()
*/
public boolean isRequired()
{
return this.getSuperParameterFacade().isRequired();
}
/**
* Whether or not this parameter represents a return parameter.
* @see ParameterFacade#isReturn()
*/
public boolean isReturn()
{
return this.getSuperParameterFacade().isReturn();
}
/**
* If Parameter type isMany (UML2), is the parameter unique within the Collection. Unique+Sorted
* determines pareter implementation type. For UML14, always false.
* @see ParameterFacade#isUnique()
*/
public boolean isUnique()
{
return this.getSuperParameterFacade().isUnique();
}
/**
* True if this parameter is writable, aka an out-parameter, or this feature is unspecified.
* @see ParameterFacade#isWritable()
*/
public boolean isWritable()
{
return this.getSuperParameterFacade().isWritable();
}
/**
* @see org.andromda.core.metafacade.MetafacadeBase#initialize()
*/
@Override
public void initialize()
{
this.getSuperParameterFacade().initialize();
}
/**
* @return Object getSuperParameterFacade().getValidationOwner()
* @see org.andromda.core.metafacade.MetafacadeBase#getValidationOwner()
*/
@Override
public Object getValidationOwner()
{
Object owner = this.getSuperParameterFacade().getValidationOwner();
return owner;
}
/**
* @return String getSuperParameterFacade().getValidationName()
* @see org.andromda.core.metafacade.MetafacadeBase#getValidationName()
*/
@Override
public String getValidationName()
{
String name = this.getSuperParameterFacade().getValidationName();
return name;
}
/**
* @param validationMessages Collection<ModelValidationMessage>
* @see org.andromda.core.metafacade.MetafacadeBase#validateInvariants(Collection validationMessages)
*/
@Override
public void validateInvariants(Collection<ModelValidationMessage> validationMessages)
{
this.getSuperParameterFacade().validateInvariants(validationMessages);
}
/**
* The property that stores the name of the metafacade.
*/
private static final String NAME_PROPERTY = "name";
private static final String FQNAME_PROPERTY = "fullyQualifiedName";
/**
* @see Object#toString()
*/
@Override
public String toString()
{
final StringBuilder toString = new StringBuilder(this.getClass().getName());
toString.append("[");
try
{
toString.append(Introspector.instance().getProperty(this, FQNAME_PROPERTY));
}
catch (final Throwable tryAgain)
{
try
{
toString.append(Introspector.instance().getProperty(this, NAME_PROPERTY));
}
catch (final Throwable ignore)
{
// - just ignore when the metafacade doesn't have a name or fullyQualifiedName property
}
}
toString.append("]");
return toString.toString();
}
}