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package com.sun.jdi;
import java.util.List;
A mirror of an interface in the target VM. An InterfaceType is a refinement of ReferenceType that applies to true interfaces in the JLS sense of the definition (not a class, not an array type). An interface type will never be returned by ObjectReference.referenceType, but it may be in the list of implemented interfaces for a ClassType that is returned by that method. Author: Robert Field, Gordon Hirsch, James McIlree See Also: Since: 1.3
/**
* A mirror of an interface in the target VM. An InterfaceType is
* a refinement of {@link ReferenceType} that applies to true interfaces
* in the JLS sense of the definition (not a class, not an array type).
* An interface type will never be returned by
* {@link ObjectReference#referenceType}, but it may be in the list
* of implemented interfaces for a {@link ClassType} that is returned
* by that method.
*
* @see ObjectReference
*
* @author Robert Field
* @author Gordon Hirsch
* @author James McIlree
* @since 1.3
*/
public interface InterfaceType extends ReferenceType {
Gets the interfaces directly extended by this interface.
The returned list contains only those interfaces this
interface has declared to be extended.
Throws: - ClassNotPreparedException – if this class not yet been
prepared.
Returns: a List of InterfaceType objects each mirroring an interface extended by this interface. If none exist, returns a zero length List.
/**
* Gets the interfaces directly extended by this interface.
* The returned list contains only those interfaces this
* interface has declared to be extended.
*
* @return a List of {@link InterfaceType} objects each mirroring
* an interface extended by this interface.
* If none exist, returns a zero length List.
* @throws ClassNotPreparedException if this class not yet been
* prepared.
*/
List<InterfaceType> superinterfaces();
Gets the currently prepared interfaces which directly extend this
interface. The returned list contains only those interfaces that
declared this interface in their "extends" clause.
Returns: a List of InterfaceType objects each mirroring an interface extending this interface. If none exist, returns a zero length List.
/**
* Gets the currently prepared interfaces which directly extend this
* interface. The returned list contains only those interfaces that
* declared this interface in their "extends" clause.
*
* @return a List of {@link InterfaceType} objects each mirroring
* an interface extending this interface.
* If none exist, returns a zero length List.
*/
List<InterfaceType> subinterfaces();
Gets the currently prepared classes which directly implement this
interface. The returned list contains only those classes that
declared this interface in their "implements" clause.
Returns: a List of ClassType objects each mirroring a class implementing this interface. If none exist, returns a zero length List.
/**
* Gets the currently prepared classes which directly implement this
* interface. The returned list contains only those classes that
* declared this interface in their "implements" clause.
*
* @return a List of {@link ClassType} objects each mirroring
* a class implementing this interface.
* If none exist, returns a zero length List.
*/
List<ClassType> implementors();
Invokes the specified static Method in the target VM. The specified method must be defined in this interface. The method must be a static method but not a static initializer. The method invocation will occur in the specified thread. Method invocation can occur only if the specified thread has been suspended by an event which occurred in that thread. Method invocation is not supported when the target VM has been suspended through VirtualMachine.suspend or when the specified thread is suspended through ThreadReference.suspend.
The specified method is invoked with the arguments in the specified argument list. The method invocation is synchronous; this method does not return until the invoked method returns in the target VM. If the invoked method throws an exception, this method will throw an InvocationException which contains a mirror to the exception object thrown.
Object arguments must be assignment compatible with the argument type
(This implies that the argument type must be loaded through the
enclosing class' class loader). Primitive arguments must be
either assignment compatible with the argument type or must be
convertible to the argument type without loss of information.
If the method being called accepts a variable number of arguments,
then the last argument type is an array of some component type.
The argument in the matching position can be omitted, or can be null,
an array of the same component type, or an argument of the
component type followed by any number of other arguments of the same
type. If the argument is omitted, then a 0 length array of the
component type is passed. The component type can be a primitive type.
Autoboxing is not supported.
See Section 5.2 of
The Java™ Language Specification
for more information on assignment compatibility.
By default, all threads in the target VM are resumed while the method is being invoked if they were previously suspended by an event or by VirtualMachine.suspend or ThreadReference.suspend. This is done to prevent the deadlocks that will occur if any of the threads own monitors that will be needed by the invoked method. Note, however, that this implicit resume acts exactly like ThreadReference.resume, so if the thread's suspend count is greater than 1, it will remain in a suspended state during the invocation and thus a deadlock could still occur. By default, when the invocation completes, all threads in the target VM are suspended, regardless their state before the invocation. It is possible that breakpoints or other events might occur during the invocation. This can cause deadlocks as described above. It can also cause a deadlock if invokeMethod is called from the client's event handler thread. In this case, this thread will be waiting for the invokeMethod to complete and won't read the EventSet that comes in for the new event. If this new EventSet is SUSPEND_ALL, then a deadlock will occur because no one will resume the EventSet. To avoid this, all EventRequests should be disabled before doing the invokeMethod, or the invokeMethod should not be done from the client's event handler thread.
The resumption of other threads during the invocation can be prevented by specifying the ClassType.INVOKE_SINGLE_THREADED bit flag in the options argument; however,
there is no protection against or recovery from the deadlocks
described above, so this option should be used with great caution.
Only the specified thread will be resumed (as described for all
threads above). Upon completion of a single threaded invoke, the invoking thread
will be suspended once again. Note that any threads started during
the single threaded invocation will not be suspended when the
invocation completes.
If the target VM is disconnected during the invoke (for example, through VirtualMachine.dispose) the method invocation continues.
Params: Throws: - IllegalArgumentException – if the method is not
a member of this interface, if the size of the argument list
does not match the number of declared arguments for the method, or
if the method is not static or is a static initializer.
- ClassNotLoadedException – if any argument type has not yet been loaded
through the appropriate class loader.
- IncompatibleThreadStateException – if the specified thread has not
been suspended by an event.
- InvocationException – if the method invocation resulted in
an exception in the target VM.
- InvalidTypeException – If the arguments do not meet this requirement --
Object arguments must be assignment compatible with the argument
type. This implies that the argument type must be
loaded through the enclosing class' class loader.
Primitive arguments must be either assignment compatible with the
argument type or must be convertible to the argument type without loss
of information. See JLS section 5.2 for more information on assignment
compatibility.
- VMCannotBeModifiedException – if the VirtualMachine is read-only - see
VirtualMachine.canBeModified().
Returns: a Value mirror of the invoked method's return value. Since: 1.8
/**
* Invokes the specified static {@link Method} in the
* target VM. The
* specified method must be defined in this interface.
* The method must be a static method
* but not a static initializer.
* <p>
* The method invocation will occur in the specified thread.
* Method invocation can occur only if the specified thread
* has been suspended by an event which occurred in that thread.
* Method invocation is not supported
* when the target VM has been suspended through
* {@link VirtualMachine#suspend} or when the specified thread
* is suspended through {@link ThreadReference#suspend}.
* <p>
* The specified method is invoked with the arguments in the specified
* argument list. The method invocation is synchronous; this method
* does not return until the invoked method returns in the target VM.
* If the invoked method throws an exception, this method will throw
* an {@link InvocationException} which contains a mirror to the exception
* object thrown.
* <p>
* Object arguments must be assignment compatible with the argument type
* (This implies that the argument type must be loaded through the
* enclosing class' class loader). Primitive arguments must be
* either assignment compatible with the argument type or must be
* convertible to the argument type without loss of information.
* If the method being called accepts a variable number of arguments,
* then the last argument type is an array of some component type.
* The argument in the matching position can be omitted, or can be null,
* an array of the same component type, or an argument of the
* component type followed by any number of other arguments of the same
* type. If the argument is omitted, then a 0 length array of the
* component type is passed. The component type can be a primitive type.
* Autoboxing is not supported.
*
* See Section 5.2 of
* <cite>The Java™ Language Specification</cite>
* for more information on assignment compatibility.
* <p>
* By default, all threads in the target VM are resumed while
* the method is being invoked if they were previously
* suspended by an event or by {@link VirtualMachine#suspend} or
* {@link ThreadReference#suspend}. This is done to prevent the deadlocks
* that will occur if any of the threads own monitors
* that will be needed by the invoked method.
* Note, however, that this implicit resume acts exactly like
* {@link ThreadReference#resume}, so if the thread's suspend
* count is greater than 1, it will remain in a suspended state
* during the invocation and thus a deadlock could still occur.
* By default, when the invocation completes,
* all threads in the target VM are suspended, regardless their state
* before the invocation.
* It is possible that
* breakpoints or other events might occur during the invocation.
* This can cause deadlocks as described above. It can also cause a deadlock
* if invokeMethod is called from the client's event handler thread. In this
* case, this thread will be waiting for the invokeMethod to complete and
* won't read the EventSet that comes in for the new event. If this
* new EventSet is SUSPEND_ALL, then a deadlock will occur because no
* one will resume the EventSet. To avoid this, all EventRequests should
* be disabled before doing the invokeMethod, or the invokeMethod should
* not be done from the client's event handler thread.
* <p>
* The resumption of other threads during the invocation can be prevented
* by specifying the {@link ClassType#INVOKE_SINGLE_THREADED}
* bit flag in the <code>options</code> argument; however,
* there is no protection against or recovery from the deadlocks
* described above, so this option should be used with great caution.
* Only the specified thread will be resumed (as described for all
* threads above). Upon completion of a single threaded invoke, the invoking thread
* will be suspended once again. Note that any threads started during
* the single threaded invocation will not be suspended when the
* invocation completes.
* <p>
* If the target VM is disconnected during the invoke (for example, through
* {@link VirtualMachine#dispose}) the method invocation continues.
*
* @param thread the thread in which to invoke.
* @param method the {@link Method} to invoke.
* @param arguments the list of {@link Value} arguments bound to the
* invoked method. Values from the list are assigned to arguments
* in the order they appear in the method signature.
* @param options the integer bit flag options.
* @return a {@link Value} mirror of the invoked method's return value.
* @throws java.lang.IllegalArgumentException if the method is not
* a member of this interface, if the size of the argument list
* does not match the number of declared arguments for the method, or
* if the method is not static or is a static initializer.
* @throws ClassNotLoadedException if any argument type has not yet been loaded
* through the appropriate class loader.
* @throws IncompatibleThreadStateException if the specified thread has not
* been suspended by an event.
* @throws InvocationException if the method invocation resulted in
* an exception in the target VM.
* @throws InvalidTypeException If the arguments do not meet this requirement --
* Object arguments must be assignment compatible with the argument
* type. This implies that the argument type must be
* loaded through the enclosing class' class loader.
* Primitive arguments must be either assignment compatible with the
* argument type or must be convertible to the argument type without loss
* of information. See JLS section 5.2 for more information on assignment
* compatibility.
* @throws VMCannotBeModifiedException if the VirtualMachine is read-only - see {@link VirtualMachine#canBeModified()}.
*
* @since 1.8
*/
default Value invokeMethod(ThreadReference thread, Method method,
List<? extends Value> arguments, int options)
throws InvalidTypeException,
ClassNotLoadedException,
IncompatibleThreadStateException,
InvocationException
{
throw new UnsupportedOperationException();
}
}