* If a binary type cannot be parsed, its structure remains unknown.
* Use IJavaElement.isStructureKnown to determine whether this
* is the case.
*
* The children are of type IMember, which includes IField,
* IMethod, IInitializer and IType.
* The children are listed in the order in which they appear in the source or class file.
*
* This interface is not intended to be implemented by clients. *
*/ public interface IType extends IMember, IParent { /** * Do code completion inside a code snippet in the context of the current type. * * If the type can access to his source code and the insertion position is valid, * then completion is performed against source. Otherwise the completion is performed * against type structure and given locals variables. * * @param snippet the code snippet * @param insertion the position with in source where the snippet * is inserted. This position must not be in comments. * A possible value is -1, if the position is not known. * @param position the position with in snippet where the user * is performing code assist. * @param localVariableTypesNames an array (possibly empty) of fully qualified * type names of local variables visible at the current scope * @param localVariableNames an array (possibly empty) of local variable names * that are visible at the current scope * @param localVariableModifiers an array (possible empty) of modifiers for * local variables * @param isStatic whether the current scope is in a static context * @param requestor the completion requestor * @since 2.0 */ // void codeComplete( // char[] snippet, // int insertion, // int position, // char[][] localVariableTypeNames, // char[][] localVariableNames, // int[] localVariableModifiers, // boolean isStatic, // ICompletionRequestor requestor) // throws JavaModelException; /** * Creates and returns a field in this type with the * given contents. ** Optionally, the new element can be positioned before the specified * sibling. If no sibling is specified, the element will be inserted * as the last field declaration in this type.
* *It is possible that a field with the same name already exists in this type.
* The value of the force parameter effects the resolution of
* such a conflict:
true - in this case the field is created with the new contentsfalse - in this case a JavaModelException is thrownCoreException occurred while updating an underlying resource
* * Optionally, the new element can be positioned before the specified * sibling. If no sibling is specified, the new initializer is positioned * after the last existing initializer declaration, or as the first member * in the type if there are no initializers.
* * @param contents the given contents * @param sibling the given sibling * @param monitor the given progress monitor * @exception JavaModelException if the element could not be created. Reasons include: *CoreException occurred while updating an underlying resource
* * Optionally, the new element can be positioned before the specified * sibling. If no sibling is specified, the element will be appended * to this type. * *
It is possible that a method with the same signature already exists in this type.
* The value of the force parameter effects the resolution of
* such a conflict:
true - in this case the method is created with the new contentsfalse - in this case a JavaModelException is thrownCoreException occurred while updating an underlying resource
* * Optionally, the new type can be positioned before the specified * sibling. If no sibling is specified, the type will be appended * to this type. * *
It is possible that a type with the same name already exists in this type.
* The value of the force parameter effects the resolution of
* such a conflict:
true - in this case the type is created with the new contentsfalse - in this case a JavaModelException is thrownCoreException occurred while updating an underlying resource
* null if no such methods can be found.
*
* @since 2.0
*/
IMethod[] findMethods(IMethod method);
/**
* Returns the simple name of this type, unqualified by package or enclosing type.
* This is a handle-only method.
*
* @return the simple name of this type
*/
String getElementName();
/**
* Returns the field with the specified name
* in this type (for example, "bar").
* This is a handle-only method. The field may or may not exist.
*
* @param name the given name
* @return the field with the specified name in this type
*/
IField getField(String name);
/**
* Returns the fields declared by this type.
* If this is a source type, the results are listed in the order
* in which they appear in the source, otherwise, the results are
* in no particular order. For binary types, this includes synthetic fields.
*
* @exception JavaModelException if this element does not exist or if an
* exception occurs while accessing its corresponding resource.
* @return the fields declared by this type
*/
IField[] getFields() throws JavaModelException;
/**
* Returns the fully qualified name of this type,
* including qualification for any containing types and packages.
* This is the name of the package, followed by '.',
* followed by the type-qualified name.
* This is a handle-only method.
*
* @see IType#getTypeQualifiedName()
* @return the fully qualified name of this type
*/
String getFullyQualifiedName();
/**
* Returns the fully qualified name of this type,
* including qualification for any containing types and packages.
* This is the name of the package, followed by '.',
* followed by the type-qualified name using the enclosingTypeSeparator.
*
* For example:
* "foo", {"I", "QString;"}). To get the
* handle for a constructor, the name specified must be the simple
* name of the enclosing type.
* This is a handle-only method. The method may or may not be present.
*
* @param name the given name
* @param parameterTypeSignatures the given parameter types
* @return the method with the specified name and parameter types in this type
*/
IMethod getMethod(String name, String[] parameterTypeSignatures);
/**
* Returns the methods and constructors declared by this type.
* For binary types, this may include the special <clinit>; method
* and synthetic methods.
* If this is a source type, the results are listed in the order
* in which they appear in the source, otherwise, the results are
* in no particular order.
*
* @exception JavaModelException if this element does not exist or if an
* exception occurs while accessing its corresponding resource.
* @return the methods and constructors declared by this type
*/
IMethod[] getMethods() throws JavaModelException;
/**
* Returns the package fragment in which this element is defined.
* This is a handle-only method.
*
* @return the package fragment in which this element is defined
*/
IPackageFragment getPackageFragment();
/**
* Returns the name of this type's superclass, or null
* for source types that do not specify a superclass.
* For interfaces, the superclass name is always "java.lang.Object".
* For source types, the name as declared is returned, for binary types,
* the resolved, qualified name is returned.
*
* @exception JavaModelException if this element does not exist or if an
* exception occurs while accessing its corresponding resource.
* @return the name of this type's superclass, or null for source types that do not specify a superclass
*/
String getSuperclassName() throws JavaModelException;
/**
* Returns the names of interfaces that this type implements or extends,
* in the order in which they are listed in the source.
* For classes, this gives the interfaces that this class implements.
* For interfaces, this gives the interfaces that this interface extends.
* An empty collection is returned if this type does not implement or
* extend any interfaces. For source types, simple names are returned,
* for binary types, qualified names are returned.
*
* @exception JavaModelException if this element does not exist or if an
* exception occurs while accessing its corresponding resource.
* @return the names of interfaces that this type implements or extends, in the order in which they are listed in the source,
* an empty collection if none
*/
String[] getSuperInterfaceNames() throws JavaModelException;
/**
* Returns the member type declared in this type with the given simple name.
* This is a handle-only method. The type may or may not exist.
*
* @param the given simple name
* @return the member type declared in this type with the given simple name
*/
IType getType(String name);
/**
* Returns the type-qualified name of this type,
* including qualification for any enclosing types,
* but not including package qualification.
* For source types, this consists of the simple names of
* any enclosing types, separated by "$", followed by the simple name of this type.
* For binary types, this is the name of the class file without the ".class" suffix.
* This is a handle-only method.
*
* @return the type-qualified name of this type
*/
String getTypeQualifiedName();
/**
* Returns the type-qualified name of this type,
* including qualification for any enclosing types,
* but not including package qualification.
* This consists of the simple names of any enclosing types,
* separated by the enclosingTypeSeparator,
* followed by the simple name of this type.
*
* For example:
* * Note that passing an empty working copy will be as if the original compilation * unit had been deleted. * * @param workingCopies the working copies that take precedence over their original compilation units * @param monitor the given progress monitor * @return a type hierarchy for this type containing this type and all of its supertypes * @exception JavaModelException if this element does not exist or if an * exception occurs while accessing its corresponding resource. * @since 2.0 */ // ITypeHierarchy newSupertypeHierarchy(IWorkingCopy[] workingCopies, IProgressMonitor monitor) // throws JavaModelException; /** * Creates and returns a type hierarchy for this type containing * this type, all of its supertypes, and all its subtypes in the workspace. * * @exception JavaModelException if this element does not exist or if an * exception occurs while accessing its corresponding resource. * @param monitor the given progress monitor * @return a type hierarchy for this type containing * this type, all of its supertypes, and all its subtypes in the workspace */ // ITypeHierarchy newTypeHierarchy(IProgressMonitor monitor) throws JavaModelException; /** * Creates and returns a type hierarchy for this type containing * this type, all of its supertypes, and all its subtypes in the workspace, * considering types in the given working copies. In other words, the list of working * copies that will take precedence over their original compilation units in the workspace. *
* Note that passing an empty working copy will be as if the original compilation
* unit had been deleted.
*
* @param workingCopies the working copies that take precedence over their original compilation units
* @param monitor the given progress monitor
* @return a type hierarchy for this type containing
* this type, all of its supertypes, and all its subtypes in the workspace
* @exception JavaModelException if this element does not exist or if an
* exception occurs while accessing its corresponding resource.
* @since 2.0
*/
// ITypeHierarchy newTypeHierarchy(IWorkingCopy[] workingCopies, IProgressMonitor monitor) throws JavaModelException;
/**
* Creates and returns a type hierarchy for this type containing
* this type, all of its supertypes, and all its subtypes
* in the context of the given project.
*
* @param project the given project
* @param monitor the given progress monitor
* @exception JavaModelException if this element does not exist or if an
* exception occurs while accessing its corresponding resource.
* @return a type hierarchy for this type containing
* this type, all of its supertypes, and all its subtypes
* in the context of the given project
*/
// ITypeHierarchy newTypeHierarchy(IJavaProject project, IProgressMonitor monitor) throws JavaModelException;
/**
* Resolves the given type name within the context of this type (depending on the type hierarchy
* and its imports). Multiple answers might be found in case there are ambiguous matches.
*
* Each matching type name is decomposed as an array of two strings, the first denoting the package
* name (dot-separated) and the second being the type name.
* Returns null if unable to find any matching type.
*
* For example, resolution of "Object" would typically return
* {{"java.lang", "Object"}}.
*
* @param typeName the given type name
* @exception JavaModelException if code resolve could not be performed.
* @return the resolved type names or null if unable to find any matching type
*/
// String[][] resolveType(String typeName) throws JavaModelException;
}