https://openjdk.java.net/ 
/*
 * Copyright (c) 1998, 2013, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */

package com.sun.jdi;

import java.util.List;
import java.util.Map;


The state of one method invocation on a thread's call stack. As a thread executes, stack frames are pushed and popped from its call stack as methods are invoked and then return. A StackFrame mirrors one such frame from a target VM at some point in its thread's execution. The call stack is, then, simply a List of StackFrame objects. The call stack can be obtained any time a thread is suspended through a call to ThreadReference.frames 

StackFrames provide access to a method's local variables and their
current values.


The lifetime of a StackFrame is very limited. It is available only
for suspended threads and becomes invalid once its thread is resumed.


Any method on StackFrame which
takes StackFrame as an parameter may throw VMDisconnectedException if the target VM is disconnected and the VMDisconnectEvent has been or is available to be read from the EventQueue. 

Any method on StackFrame which
takes StackFrame as an parameter may throw VMOutOfMemoryException if the target VM has run out of memory. 
Author:Robert Field, Gordon Hirsch, James McIlree
Since: 1.3
/**
 * The state of one method invocation on a thread's call stack.
 * As a thread executes, stack frames are pushed and popped from
 * its call stack as methods are invoked and then return. A StackFrame
 * mirrors one such frame from a target VM at some point in its
 * thread's execution. The call stack is, then, simply a List of
 * StackFrame objects. The call stack can be obtained any time a thread
 * is suspended through a call to {@link ThreadReference#frames}
 * <p>
 * StackFrames provide access to a method's local variables and their
 * current values.
 * <p>
 * The lifetime of a StackFrame is very limited. It is available only
 * for suspended threads and becomes invalid once its thread is resumed.
 * <p>
 * Any method on <code>StackFrame</code> which
 * takes <code>StackFrame</code> as an parameter may throw
 * {@link com.sun.jdi.VMDisconnectedException} if the target VM is
 * disconnected and the {@link com.sun.jdi.event.VMDisconnectEvent} has been or is
 * available to be read from the {@link com.sun.jdi.event.EventQueue}.
 * <p>
 * Any method on <code>StackFrame</code> which
 * takes <code>StackFrame</code> as an parameter may throw
 * {@link com.sun.jdi.VMOutOfMemoryException} if the target VM has run out of memory.
 *
 * @author Robert Field
 * @author Gordon Hirsch
 * @author James McIlree
 * @since  1.3
 */
@jdk.Exported
public interface StackFrame extends Mirror, Locatable {

    
Returns the Location of the current instruction in the frame. The method for which this frame was created can also be accessed through the returned location. For the top frame in the stack, this location identifies the next instruction to be executed. For all other frames, this location identifies the instruction that caused the next frame's method to be invoked. If the frame represents a native method invocation, the returned location indicates the class and method, but the code index will not be valid (-1). 
Throws:
  • InvalidStackFrameException – if this stack frame has become
invalid. Once the frame's thread is resumed, the stack frame is
no longer valid.
Returns:the Location of the current instruction.
/**
     * Returns the {@link Location} of the current instruction in the frame.
     * The method for which this frame was created can also be accessed
     * through the returned location.
     * For the top frame in the stack, this location identifies the
     * next instruction to be executed. For all other frames, this
     * location identifies the instruction that caused the next frame's
     * method to be invoked.
     * If the frame represents a native method invocation, the returned
     * location indicates the class and method, but the code index will
     * not be valid (-1).
     *
     * @return the {@link Location} of the current instruction.
     * @throws InvalidStackFrameException if this stack frame has become
     * invalid. Once the frame's thread is resumed, the stack frame is
     * no longer valid.
     */
    Location location();

    
Returns the thread under which this frame's method is running.

Throws:
  • InvalidStackFrameException – if this stack frame has become
invalid. Once the frame's thread is resumed, the stack frame is
no longer valid.
Returns:a ThreadReference which mirrors the frame's thread.
/**
     * Returns the thread under which this frame's method is running.
     *
     * @return a {@link ThreadReference} which mirrors the frame's thread.
     * @throws InvalidStackFrameException if this stack frame has become
     * invalid. Once the frame's thread is resumed, the stack frame is
     * no longer valid.
     */
    ThreadReference thread();

    
Returns the value of 'this' for the current frame. The ObjectReference for 'this' is only available for non-native instance methods. 
Throws:
  • InvalidStackFrameException – if this stack frame has become
invalid. Once the frame's thread is resumed, the stack frame is
no longer valid.
Returns:an ObjectReference, or null if the frame represents a native or static method.
/**
     * Returns the value of 'this' for the current frame.
     * The {@link ObjectReference} for 'this' is only available for
     * non-native instance methods.
     *
     * @return an {@link ObjectReference}, or null if the frame represents
     * a native or static method.
     * @throws InvalidStackFrameException if this stack frame has become
     * invalid. Once the frame's thread is resumed, the stack frame is
     * no longer valid.
     */
    ObjectReference thisObject();

    
Returns a list containing each LocalVariable that can be accessed from this frame's location. 

Visibility is based on the code index of the current instruction of
this StackFrame. Each variable has a range of byte code indices in which
it is accessible.
If this stack frame's method
matches this variable's method and if the code index of this
StackFrame is within the variable's byte code range, the variable is
visible.


A variable's byte code range is at least as large as the scope of
that variable, but can continue beyond the end of the scope under
certain circumstances:

    

  • the compiler/VM does not immediately reuse the variable's slot.

  • the compiler/VM is implemented to report the extended range that
would result from the item above.


The advantage of an extended range is that variables from recently
exited scopes may remain available for examination (this is especially
useful for loop indices). If, as a result of the extensions above,
the current frame location is contained within the range
of multiple local variables of the same name, the variable with the
highest-starting range is chosen for the returned list.

Throws:
Returns:the list of LocalVariable objects currently visible; the list will be empty if there are no visible variables; specifically, frames in native methods will always return a zero-length list.
/**
     * Returns a list containing each {@link LocalVariable}
     * that can be accessed from this frame's location.
     * <p>
     * Visibility is based on the code index of the current instruction of
     * this StackFrame. Each variable has a range of byte code indices in which
     * it is accessible.
     * If this stack frame's method
     * matches this variable's method and if the code index of this
     * StackFrame is within the variable's byte code range, the variable is
     * visible.
     * <p>
     * A variable's byte code range is at least as large as the scope of
     * that variable, but can continue beyond the end of the scope under
     * certain circumstances:
     * <ul>
     * <li>the compiler/VM does not immediately reuse the variable's slot.
     * <li>the compiler/VM is implemented to report the extended range that
     * would result from the item above.
     * </ul>
     * The advantage of an extended range is that variables from recently
     * exited scopes may remain available for examination (this is especially
     * useful for loop indices). If, as a result of the extensions above,
     * the current frame location is contained within the range
     * of multiple local variables of the same name, the variable with the
     * highest-starting range is chosen for the returned list.
     *
     * @return the list of {@link LocalVariable} objects currently visible;
     * the list will be empty if there are no visible variables;
     * specifically, frames in native methods will always return a
     * zero-length list.
     * @throws AbsentInformationException if there is no local variable
     * information for this method.
     * @throws InvalidStackFrameException if this stack frame has become
     * invalid. Once the frame's thread is resumed, the stack frame is
     * no longer valid.
     * @throws NativeMethodException if the current method is native.
     */
    List<LocalVariable> visibleVariables() throws AbsentInformationException;

    
Finds a LocalVariable that matches the given name and is visible at the current frame location. See visibleVariables for more information on visibility. 
Params:
  • name – the variable name to find
Throws:
Returns:the matching LocalVariable, or null if there is no visible variable with the given name; frames in native methods will always return null.
/**
     * Finds a {@link LocalVariable} that matches the given name and is
     * visible at the current frame location.
     * See {@link #visibleVariables} for more information on visibility.
     *
     * @param name the variable name to find
     * @return the matching {@link LocalVariable}, or null if there is no
     * visible variable with the given name; frames in native methods
     * will always return null.
     * @throws AbsentInformationException if there is no local variable
     * information for this method.
     * @throws InvalidStackFrameException if this stack frame has become
     * invalid. Once the frame's thread is resumed, the stack frame is
     * no longer valid.
     * @throws NativeMethodException if the current method is native.
     */
    LocalVariable visibleVariableByName(String name) throws AbsentInformationException;

    
Gets the Value of a LocalVariable in this frame. The variable must be valid for this frame's method and visible according to the rules described in visibleVariables. 
Params:
Throws:
Returns:the Value of the instance field.
/**
     * Gets the {@link Value} of a {@link LocalVariable} in this frame.
     * The variable must be valid for this frame's method and visible
     * according to the rules described in {@link #visibleVariables}.
     *
     * @param variable the {@link LocalVariable} to be accessed
     * @return the {@link Value} of the instance field.
     * @throws java.lang.IllegalArgumentException if the variable is
     * either invalid for this frame's method or not visible.
     * @throws InvalidStackFrameException if this stack frame has become
     * invalid. Once the frame's thread is resumed, the stack frame is
     * no longer valid.
     */
    Value getValue(LocalVariable variable);

    
Returns the values of multiple local variables in this frame. Each variable must be valid for this frame's method and visible according to the rules described in visibleVariables. 
Params:
Throws:
Returns:a map associating each LocalVariable with its Value
/**
     * Returns the values of multiple local variables in this frame.
     * Each variable must be valid for this frame's method and visible
     * according to the rules described in {@link #visibleVariables}.
     *
     * @param variables a list of {@link LocalVariable} objects to be accessed
     * @return a map associating each {@link LocalVariable} with
     * its {@link Value}
     * @throws java.lang.IllegalArgumentException if any variable is
     * either invalid for this frame's method or not visible.
     * @throws InvalidStackFrameException if this stack frame has become
     * invalid. Once the frame's thread is resumed, the stack frame is
     * no longer valid.
     */
    Map<LocalVariable,Value> getValues(List<? extends LocalVariable> variables);

    
Sets the Value of a LocalVariable in this frame. The variable must be valid for this frame's method and visible according to the rules described in visibleVariables. 

Object values must be assignment compatible with the variable type
(This implies that the variable type must be loaded through the
enclosing class's class loader). Primitive values must be
either assignment compatible with the variable type or must be
convertible to the variable type without loss of information.
See JLS section 5.2 for more information on assignment
compatibility.

Params:
  • variable – the field containing the requested value
  • value – the new value to assign
Throws:
/**
     * Sets the {@link Value} of a {@link LocalVariable} in this frame.
     * The variable must be valid for this frame's method and visible
     * according to the rules described in {@link #visibleVariables}.
     * <p>
     * Object values must be assignment compatible with the variable type
     * (This implies that the variable type must be loaded through the
     * enclosing class's class loader). Primitive values must be
     * either assignment compatible with the variable type or must be
     * convertible to the variable type without loss of information.
     * See JLS section 5.2 for more information on assignment
     * compatibility.
     *
     * @param variable the field containing the requested value
     * @param value the new value to assign
     * @throws java.lang.IllegalArgumentException if the field is not valid for
     * this object's class.
     * @throws InvalidTypeException if the value's type does not match
     * the variable's type.
     * @throws ClassNotLoadedException if the variable type has not yet been loaded
     * through the appropriate class loader.
     * @throws InvalidStackFrameException if this stack frame has become
     * invalid. Once the frame's thread is resumed, the stack frame is
     * no longer valid.
     * @throws VMCannotBeModifiedException if the VirtualMachine is read-only - see {@link VirtualMachine#canBeModified()}.
     */
    void setValue(LocalVariable variable, Value value)
        throws InvalidTypeException, ClassNotLoadedException;

    
Returns the values of all arguments in this frame.  Values are
returned even if no local variable information is present.

Throws:
  • InvalidStackFrameException – if this stack frame has become
invalid. Once the frame's thread is resumed, the stack frame is
no longer valid.
Returns:a list containing a Value object for each argument to this frame, in the order in which the arguments were declared. If the method corresponding to this frame has no arguments, an empty list is returned.
Since:1.6
/**
     * Returns the values of all arguments in this frame.  Values are
     * returned even if no local variable information is present.
     *
     * @return a list containing a {@link Value} object for each argument
     * to this frame, in the order in which the arguments were
     * declared.  If the method corresponding to this frame has
     * no arguments, an empty list is returned.
     *
     * @throws InvalidStackFrameException if this stack frame has become
     * invalid. Once the frame's thread is resumed, the stack frame is
     * no longer valid.
     * @since 1.6
     */
    List<Value> getArgumentValues();

}