/* * Copyright (c) 2017, 2020, Oracle and/or its affiliates. All rights reserved. */ /* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.sun.org.apache.bcel.internal.generic; import java.util.Collection; import java.util.HashMap; import java.util.HashSet; import java.util.Map; import java.util.Set; import com.sun.org.apache.bcel.internal.classfile.Utility; /** * Instances of this class give users a handle to the instructions contained in * an InstructionList. Instruction objects may be used more than once within a * list, this is useful because it saves memory and may be much faster. * * Within an InstructionList an InstructionHandle object is wrapped * around all instructions, i.e., it implements a cell in a * doubly-linked list. From the outside only the next and the * previous instruction (handle) are accessible. One * can traverse the list via an Enumeration returned by * InstructionList.elements(). * * @see Instruction * @see BranchHandle * @see InstructionList * @LastModified: Jan 2020 */ public class InstructionHandle { private InstructionHandle next; private InstructionHandle prev; private Instruction instruction; private int i_position = -1; // byte code offset of instruction private Set targeters; private Map attributes; /** * Does nothing. * * @deprecated Does nothing as of 6.3.1. */ @Deprecated protected void addHandle() { // noop } public final InstructionHandle getNext() { return next; } public final InstructionHandle getPrev() { return prev; } public final Instruction getInstruction() { return instruction; } /** * Replace current instruction contained in this handle. * Old instruction is disposed using Instruction.dispose(). */ public void setInstruction( final Instruction i ) { // Overridden in BranchHandle TODO could be package-protected? if (i == null) { throw new ClassGenException("Assigning null to handle"); } if ((this.getClass() != BranchHandle.class) && (i instanceof BranchInstruction)) { throw new ClassGenException("Assigning branch instruction " + i + " to plain handle"); } if (instruction != null) { instruction.dispose(); } instruction = i; } /** * Temporarily swap the current instruction, without disturbing * anything. Meant to be used by a debugger, implementing * breakpoints. Current instruction is returned. *

* Warning: if this is used on a BranchHandle then some methods such as * getPosition() will still refer to the original cached instruction, whereas * other BH methods may affect the cache and the replacement instruction. */ // See BCEL-273 // TODO remove this method in any redesign of BCEL public Instruction swapInstruction( final Instruction i ) { final Instruction oldInstruction = instruction; instruction = i; return oldInstruction; } /*private*/protected InstructionHandle(final Instruction i) { setInstruction(i); } /** Factory method. */ static InstructionHandle getInstructionHandle( final Instruction i ) { return new InstructionHandle(i); } /** * Called by InstructionList.setPositions when setting the position for every * instruction. In the presence of variable length instructions `setPositions()' * performs multiple passes over the instruction list to calculate the * correct (byte) positions and offsets by calling this function. * * @param offset additional offset caused by preceding (variable length) instructions * @param max_offset the maximum offset that may be caused by these instructions * @return additional offset caused by possible change of this instruction's length */ protected int updatePosition( final int offset, final int max_offset ) { i_position += offset; return 0; } /** @return the position, i.e., the byte code offset of the contained * instruction. This is accurate only after * InstructionList.setPositions() has been called. */ public int getPosition() { return i_position; } /** Set the position, i.e., the byte code offset of the contained * instruction. */ void setPosition( final int pos ) { i_position = pos; } /** * Delete contents, i.e., remove user access. */ void dispose() { next = prev = null; instruction.dispose(); instruction = null; i_position = -1; attributes = null; removeAllTargeters(); } /** Remove all targeters, if any. */ public void removeAllTargeters() { if (targeters != null) { targeters.clear(); } } /** * Denote this handle isn't referenced anymore by t. */ public void removeTargeter( final InstructionTargeter t ) { if (targeters != null) { targeters.remove(t); } } /** * Denote this handle is being referenced by t. */ public void addTargeter( final InstructionTargeter t ) { if (targeters == null) { targeters = new HashSet<>(); } //if(!targeters.contains(t)) targeters.add(t); } public boolean hasTargeters() { return (targeters != null) && (targeters.size() > 0); } /** * @return null, if there are no targeters */ public InstructionTargeter[] getTargeters() { if (!hasTargeters()) { return new InstructionTargeter[0]; } final InstructionTargeter[] t = new InstructionTargeter[targeters.size()]; targeters.toArray(t); return t; } /** @return a (verbose) string representation of the contained instruction. */ public String toString( final boolean verbose ) { return Utility.format(i_position, 4, false, ' ') + ": " + instruction.toString(verbose); } /** @return a string representation of the contained instruction. */ @Override public String toString() { return toString(true); } /** Add an attribute to an instruction handle. * * @param key the key object to store/retrieve the attribute * @param attr the attribute to associate with this handle */ public void addAttribute( final Object key, final Object attr ) { if (attributes == null) { attributes = new HashMap<>(3); } attributes.put(key, attr); } /** Delete an attribute of an instruction handle. * * @param key the key object to retrieve the attribute */ public void removeAttribute( final Object key ) { if (attributes != null) { attributes.remove(key); } } /** Get attribute of an instruction handle. * * @param key the key object to store/retrieve the attribute */ public Object getAttribute( final Object key ) { if (attributes != null) { return attributes.get(key); } return null; } /** @return all attributes associated with this handle */ public Collection getAttributes() { if (attributes == null) { attributes = new HashMap<>(3); } return attributes.values(); } /** Convenience method, simply calls accept() on the contained instruction. * * @param v Visitor object */ public void accept( final Visitor v ) { instruction.accept(v); } /** * @param next the next to set * @ since 6.0 */ final InstructionHandle setNext(final InstructionHandle next) { this.next = next; return next; } /** * @param prev the prev to set * @ since 6.0 */ final InstructionHandle setPrev(final InstructionHandle prev) { this.prev = prev; return prev; } }