package com.sun.org.apache.bcel.internal.generic; /* ==================================================================== * The Apache Software License, Version 1.1 * * Copyright (c) 2001 The Apache Software Foundation. All rights * reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * 3. The end-user documentation included with the redistribution, * if any, must include the following acknowledgment: * "This product includes software developed by the * Apache Software Foundation (http://www.apache.org/)." * Alternately, this acknowledgment may appear in the software itself, * if and wherever such third-party acknowledgments normally appear. * * 4. The names "Apache" and "Apache Software Foundation" and * "Apache BCEL" must not be used to endorse or promote products * derived from this software without prior written permission. For * written permission, please contact apache@apache.org. * * 5. Products derived from this software may not be called "Apache", * "Apache BCEL", nor may "Apache" appear in their name, without * prior written permission of the Apache Software Foundation. * * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE APACHE SOFTWARE FOUNDATION OR * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * ==================================================================== * * This software consists of voluntary contributions made by many * individuals on behalf of the Apache Software Foundation. For more * information on the Apache Software Foundation, please see * . */ import com.sun.org.apache.bcel.internal.Constants; import com.sun.org.apache.bcel.internal.classfile.*; import java.util.HashMap; /** * This class is used to build up a constant pool. The user adds * constants via `addXXX' methods, `addString', `addClass', * etc.. These methods return an index into the constant * pool. Finally, `getFinalConstantPool()' returns the constant pool * built up. Intermediate versions of the constant pool can be * obtained with `getConstantPool()'. A constant pool has capacity for * Constants.MAX_SHORT entries. Note that the first (0) is used by the * JVM and that Double and Long constants need two slots. * * @version $Id: ConstantPoolGen.java,v 1.1.1.1 2001/10/29 20:00:08 jvanzyl Exp $ * @author M. Dahm * @see Constant */ public class ConstantPoolGen { protected int size = 1024; // Inital size, sufficient in most cases protected Constant[] constants = new Constant[size]; protected int index = 1; // First entry (0) used by JVM private static final String METHODREF_DELIM = ":"; private static final String IMETHODREF_DELIM = "#"; private static final String FIELDREF_DELIM = "&"; private static final String NAT_DELIM = "%"; private static class Index { int index; Index(int i) { index = i; } } /** * Initialize with given array of constants. * * @param c array of given constants, new ones will be appended */ public ConstantPoolGen(Constant[] cs) { if(cs.length > size) { size = cs.length; constants = new Constant[size]; } System.arraycopy(cs, 0, constants, 0, cs.length); if(cs.length > 0) index = cs.length; for(int i=1; i < index; i++) { Constant c = constants[i]; if(c instanceof ConstantString) { ConstantString s = (ConstantString)c; ConstantUtf8 u8 = (ConstantUtf8)constants[s.getStringIndex()]; string_table.put(u8.getBytes(), new Index(i)); } else if(c instanceof ConstantClass) { ConstantClass s = (ConstantClass)c; ConstantUtf8 u8 = (ConstantUtf8)constants[s.getNameIndex()]; class_table.put(u8.getBytes(), new Index(i)); } else if(c instanceof ConstantNameAndType) { ConstantNameAndType n = (ConstantNameAndType)c; ConstantUtf8 u8 = (ConstantUtf8)constants[n.getNameIndex()]; ConstantUtf8 u8_2 = (ConstantUtf8)constants[n.getSignatureIndex()]; n_a_t_table.put(u8.getBytes() + NAT_DELIM + u8_2.getBytes(), new Index(i)); } else if(c instanceof ConstantUtf8) { ConstantUtf8 u = (ConstantUtf8)c; utf8_table.put(u.getBytes(), new Index(i)); } else if(c instanceof ConstantCP) { ConstantCP m = (ConstantCP)c; ConstantClass clazz = (ConstantClass)constants[m.getClassIndex()]; ConstantNameAndType n = (ConstantNameAndType)constants[m.getNameAndTypeIndex()]; ConstantUtf8 u8 = (ConstantUtf8)constants[clazz.getNameIndex()]; String class_name = u8.getBytes().replace('/', '.'); u8 = (ConstantUtf8)constants[n.getNameIndex()]; String method_name = u8.getBytes(); u8 = (ConstantUtf8)constants[n.getSignatureIndex()]; String signature = u8.getBytes(); String delim = METHODREF_DELIM; if(c instanceof ConstantInterfaceMethodref) delim = IMETHODREF_DELIM; else if(c instanceof ConstantFieldref) delim = FIELDREF_DELIM; cp_table.put(class_name + delim + method_name + delim + signature, new Index(i)); } } } /** * Initialize with given constant pool. */ public ConstantPoolGen(ConstantPool cp) { this(cp.getConstantPool()); } /** * Create empty constant pool. */ public ConstantPoolGen() {} /** Resize internal array of constants. */ protected void adjustSize() { if(index + 3 >= size) { Constant[] cs = constants; size *= 2; constants = new Constant[size]; System.arraycopy(cs, 0, constants, 0, index); } } private HashMap string_table = new HashMap(); /** * Look for ConstantString in ConstantPool containing String `str'. * * @param str String to search for * @return index on success, -1 otherwise */ public int lookupString(String str) { Index index = (Index)string_table.get(str); return (index != null)? index.index : -1; } /** * Add a new String constant to the ConstantPool, if it is not already in there. * * @param str String to add * @return index of entry */ public int addString(String str) { int ret; if((ret = lookupString(str)) != -1) return ret; // Already in CP adjustSize(); ConstantUtf8 u8 = new ConstantUtf8(str); ConstantString s = new ConstantString(index); constants[index++] = u8; ret = index; constants[index++] = s; string_table.put(str, new Index(ret)); return ret; } private HashMap class_table = new HashMap(); /** * Look for ConstantClass in ConstantPool named `str'. * * @param str String to search for * @return index on success, -1 otherwise */ public int lookupClass(String str) { Index index = (Index)class_table.get(str.replace('.', '/')); return (index != null)? index.index : -1; } private int addClass_(String clazz) { int ret; if((ret = lookupClass(clazz)) != -1) return ret; // Already in CP adjustSize(); ConstantClass c = new ConstantClass(addUtf8(clazz)); ret = index; constants[index++] = c; class_table.put(clazz, new Index(ret)); return ret; } /** * Add a new Class reference to the ConstantPool, if it is not already in there. * * @param str Class to add * @return index of entry */ public int addClass(String str) { return addClass_(str.replace('.', '/')); } /** * Add a new Class reference to the ConstantPool for a given type. * * @param str Class to add * @return index of entry */ public int addClass(ObjectType type) { return addClass(type.getClassName()); } /** * Add a reference to an array class (e.g. String[][]) as needed by MULTIANEWARRAY * instruction, e.g. to the ConstantPool. * * @param type type of array class * @return index of entry */ public int addArrayClass(ArrayType type) { return addClass_(type.getSignature()); } /** * Look for ConstantInteger in ConstantPool. * * @param n integer number to look for * @return index on success, -1 otherwise */ public int lookupInteger(int n) { for(int i=1; i < index; i++) { if(constants[i] instanceof ConstantInteger) { ConstantInteger c = (ConstantInteger)constants[i]; if(c.getBytes() == n) return i; } } return -1; } /** * Add a new Integer constant to the ConstantPool, if it is not already in there. * * @param n integer number to add * @return index of entry */ public int addInteger(int n) { int ret; if((ret = lookupInteger(n)) != -1) return ret; // Already in CP adjustSize(); ret = index; constants[index++] = new ConstantInteger(n); return ret; } /** * Look for ConstantFloat in ConstantPool. * * @param n Float number to look for * @return index on success, -1 otherwise */ public int lookupFloat(float n) { for(int i=1; i < index; i++) { if(constants[i] instanceof ConstantFloat) { ConstantFloat c = (ConstantFloat)constants[i]; if(c.getBytes() == n) return i; } } return -1; } /** * Add a new Float constant to the ConstantPool, if it is not already in there. * * @param n Float number to add * @return index of entry */ public int addFloat(float n) { int ret; if((ret = lookupFloat(n)) != -1) return ret; // Already in CP adjustSize(); ret = index; constants[index++] = new ConstantFloat(n); return ret; } private HashMap utf8_table = new HashMap(); /** * Look for ConstantUtf8 in ConstantPool. * * @param n Utf8 string to look for * @return index on success, -1 otherwise */ public int lookupUtf8(String n) { Index index = (Index)utf8_table.get(n); return (index != null)? index.index : -1; } /** * Add a new Utf8 constant to the ConstantPool, if it is not already in there. * * @param n Utf8 string to add * @return index of entry */ public int addUtf8(String n) { int ret; if((ret = lookupUtf8(n)) != -1) return ret; // Already in CP adjustSize(); ret = index; constants[index++] = new ConstantUtf8(n); utf8_table.put(n, new Index(ret)); return ret; } /** * Look for ConstantLong in ConstantPool. * * @param n Long number to look for * @return index on success, -1 otherwise */ public int lookupLong(long n) { for(int i=1; i < index; i++) { if(constants[i] instanceof ConstantLong) { ConstantLong c = (ConstantLong)constants[i]; if(c.getBytes() == n) return i; } } return -1; } /** * Add a new long constant to the ConstantPool, if it is not already in there. * * @param n Long number to add * @return index of entry */ public int addLong(long n) { int ret; if((ret = lookupLong(n)) != -1) return ret; // Already in CP adjustSize(); ret = index; constants[index] = new ConstantLong(n); index += 2; // Wastes one entry according to spec return ret; } /** * Look for ConstantDouble in ConstantPool. * * @param n Double number to look for * @return index on success, -1 otherwise */ public int lookupDouble(double n) { for(int i=1; i < index; i++) { if(constants[i] instanceof ConstantDouble) { ConstantDouble c = (ConstantDouble)constants[i]; if(c.getBytes() == n) return i; } } return -1; } /** * Add a new double constant to the ConstantPool, if it is not already in there. * * @param n Double number to add * @return index of entry */ public int addDouble(double n) { int ret; if((ret = lookupDouble(n)) != -1) return ret; // Already in CP adjustSize(); ret = index; constants[index] = new ConstantDouble(n); index += 2; // Wastes one entry according to spec return ret; } private HashMap n_a_t_table = new HashMap(); /** * Look for ConstantNameAndType in ConstantPool. * * @param name of variable/method * @param signature of variable/method * @return index on success, -1 otherwise */ public int lookupNameAndType(String name, String signature) { Index index = (Index)n_a_t_table.get(name + NAT_DELIM + signature); return (index != null)? index.index : -1; } /** * Add a new NameAndType constant to the ConstantPool if it is not already * in there. * * @param n NameAndType string to add * @return index of entry */ public int addNameAndType(String name, String signature) { int ret; int name_index, signature_index; if((ret = lookupNameAndType(name, signature)) != -1) return ret; // Already in CP adjustSize(); name_index = addUtf8(name); signature_index = addUtf8(signature); ret = index; constants[index++] = new ConstantNameAndType(name_index, signature_index); n_a_t_table.put(name + NAT_DELIM + signature, new Index(ret)); return ret; } private HashMap cp_table = new HashMap(); /** * Look for ConstantMethodref in ConstantPool. * * @param class_name Where to find method * @param method_name Guess what * @param signature return and argument types * @return index on success, -1 otherwise */ public int lookupMethodref(String class_name, String method_name, String signature) { Index index = (Index)cp_table.get(class_name + METHODREF_DELIM + method_name + METHODREF_DELIM + signature); return (index != null)? index.index : -1; } public int lookupMethodref(MethodGen method) { return lookupMethodref(method.getClassName(), method.getName(), method.getSignature()); } /** * Add a new Methodref constant to the ConstantPool, if it is not already * in there. * * @param n Methodref string to add * @return index of entry */ public int addMethodref(String class_name, String method_name, String signature) { int ret, class_index, name_and_type_index; if((ret = lookupMethodref(class_name, method_name, signature)) != -1) return ret; // Already in CP adjustSize(); name_and_type_index = addNameAndType(method_name, signature); class_index = addClass(class_name); ret = index; constants[index++] = new ConstantMethodref(class_index, name_and_type_index); cp_table.put(class_name + METHODREF_DELIM + method_name + METHODREF_DELIM + signature, new Index(ret)); return ret; } public int addMethodref(MethodGen method) { return addMethodref(method.getClassName(), method.getName(), method.getSignature()); } /** * Look for ConstantInterfaceMethodref in ConstantPool. * * @param class_name Where to find method * @param method_name Guess what * @param signature return and argument types * @return index on success, -1 otherwise */ public int lookupInterfaceMethodref(String class_name, String method_name, String signature) { Index index = (Index)cp_table.get(class_name + IMETHODREF_DELIM + method_name + IMETHODREF_DELIM + signature); return (index != null)? index.index : -1; } public int lookupInterfaceMethodref(MethodGen method) { return lookupInterfaceMethodref(method.getClassName(), method.getName(), method.getSignature()); } /** * Add a new InterfaceMethodref constant to the ConstantPool, if it is not already * in there. * * @param n InterfaceMethodref string to add * @return index of entry */ public int addInterfaceMethodref(String class_name, String method_name, String signature) { int ret, class_index, name_and_type_index; if((ret = lookupInterfaceMethodref(class_name, method_name, signature)) != -1) return ret; // Already in CP adjustSize(); class_index = addClass(class_name); name_and_type_index = addNameAndType(method_name, signature); ret = index; constants[index++] = new ConstantInterfaceMethodref(class_index, name_and_type_index); cp_table.put(class_name + IMETHODREF_DELIM + method_name + IMETHODREF_DELIM + signature, new Index(ret)); return ret; } public int addInterfaceMethodref(MethodGen method) { return addInterfaceMethodref(method.getClassName(), method.getName(), method.getSignature()); } /** * Look for ConstantFieldref in ConstantPool. * * @param class_name Where to find method * @param field_name Guess what * @param signature return and argument types * @return index on success, -1 otherwise */ public int lookupFieldref(String class_name, String field_name, String signature) { Index index = (Index)cp_table.get(class_name + FIELDREF_DELIM + field_name + FIELDREF_DELIM + signature); return (index != null)? index.index : -1; } /** * Add a new Fieldref constant to the ConstantPool, if it is not already * in there. * * @param n Fieldref string to add * @return index of entry */ public int addFieldref(String class_name, String field_name, String signature) { int ret; int class_index, name_and_type_index; if((ret = lookupFieldref(class_name, field_name, signature)) != -1) return ret; // Already in CP adjustSize(); class_index = addClass(class_name); name_and_type_index = addNameAndType(field_name, signature); ret = index; constants[index++] = new ConstantFieldref(class_index, name_and_type_index); cp_table.put(class_name + FIELDREF_DELIM + field_name + FIELDREF_DELIM + signature, new Index(ret)); return ret; } /** * @param i index in constant pool * @return constant pool entry at index i */ public Constant getConstant(int i) { return constants[i]; } /** * Use with care! * * @param i index in constant pool * @param c new constant pool entry at index i */ public void setConstant(int i, Constant c) { constants[i] = c; } /** * @return intermediate constant pool */ public ConstantPool getConstantPool() { return new ConstantPool(constants); } /** * @return current size of constant pool */ public int getSize() { return index; } /** * @return constant pool with proper length */ public ConstantPool getFinalConstantPool() { Constant[] cs = new Constant[index]; System.arraycopy(constants, 0, cs, 0, index); return new ConstantPool(cs); } /** * @return String representation. */ public String toString() { StringBuffer buf = new StringBuffer(); for(int i=1; i < index; i++) buf.append(i + ")" + constants[i] + "\n"); return buf.toString(); } /** Import constant from another ConstantPool and return new index. */ public int addConstant(Constant c, ConstantPoolGen cp) { Constant[] constants = cp.getConstantPool().getConstantPool(); switch(c.getTag()) { case Constants.CONSTANT_String: { ConstantString s = (ConstantString)c; ConstantUtf8 u8 = (ConstantUtf8)constants[s.getStringIndex()]; return addString(u8.getBytes()); } case Constants.CONSTANT_Class: { ConstantClass s = (ConstantClass)c; ConstantUtf8 u8 = (ConstantUtf8)constants[s.getNameIndex()]; return addClass(u8.getBytes()); } case Constants.CONSTANT_NameAndType: { ConstantNameAndType n = (ConstantNameAndType)c; ConstantUtf8 u8 = (ConstantUtf8)constants[n.getNameIndex()]; ConstantUtf8 u8_2 = (ConstantUtf8)constants[n.getSignatureIndex()]; return addNameAndType(u8.getBytes(), u8_2.getBytes()); } case Constants.CONSTANT_Utf8: return addUtf8(((ConstantUtf8)c).getBytes()); case Constants.CONSTANT_Double: return addDouble(((ConstantDouble)c).getBytes()); case Constants.CONSTANT_Float: return addFloat(((ConstantFloat)c).getBytes()); case Constants.CONSTANT_Long: return addLong(((ConstantLong)c).getBytes()); case Constants.CONSTANT_Integer: return addInteger(((ConstantInteger)c).getBytes()); case Constants.CONSTANT_InterfaceMethodref: case Constants.CONSTANT_Methodref: case Constants.CONSTANT_Fieldref: { ConstantCP m = (ConstantCP)c; ConstantClass clazz = (ConstantClass)constants[m.getClassIndex()]; ConstantNameAndType n = (ConstantNameAndType)constants[m.getNameAndTypeIndex()]; ConstantUtf8 u8 = (ConstantUtf8)constants[clazz.getNameIndex()]; String class_name = u8.getBytes().replace('/', '.'); u8 = (ConstantUtf8)constants[n.getNameIndex()]; String name = u8.getBytes(); u8 = (ConstantUtf8)constants[n.getSignatureIndex()]; String signature = u8.getBytes(); switch(c.getTag()) { case Constants.CONSTANT_InterfaceMethodref: return addInterfaceMethodref(class_name, name, signature); case Constants.CONSTANT_Methodref: return addMethodref(class_name, name, signature); case Constants.CONSTANT_Fieldref: return addFieldref(class_name, name, signature); default: // Never reached throw new RuntimeException("Unknown constant type " + c); } } default: // Never reached throw new RuntimeException("Unknown constant type " + c); } } }