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1: /* TypeSignature.java -- Class used to compute type signatures 2: Copyright (C) 1998, 2000, 2002 Free Software Foundation, Inc. 3: 4: This file is part of GNU Classpath. 5: 6: GNU Classpath is free software; you can redistribute it and/or modify 7: it under the terms of the GNU General Public License as published by 8: the Free Software Foundation; either version 2, or (at your option) 9: any later version. 10: 11: GNU Classpath is distributed in the hope that it will be useful, but 12: WITHOUT ANY WARRANTY; without even the implied warranty of 13: MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 14: General Public License for more details. 15: 16: You should have received a copy of the GNU General Public License 17: along with GNU Classpath; see the file COPYING. If not, write to the 18: Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 19: 02110-1301 USA. 20: 21: Linking this library statically or dynamically with other modules is 22: making a combined work based on this library. Thus, the terms and 23: conditions of the GNU General Public License cover the whole 24: combination. 25: 26: As a special exception, the copyright holders of this library give you 27: permission to link this library with independent modules to produce an 28: executable, regardless of the license terms of these independent 29: modules, and to copy and distribute the resulting executable under 30: terms of your choice, provided that you also meet, for each linked 31: independent module, the terms and conditions of the license of that 32: module. An independent module is a module which is not derived from 33: or based on this library. If you modify this library, you may extend 34: this exception to your version of the library, but you are not 35: obligated to do so. If you do not wish to do so, delete this 36: exception statement from your version. */ 37: 38: 39: package gnu.java.lang.reflect; 40: 41: import gnu.java.lang.CPStringBuilder; 42: 43: import java.lang.reflect.Constructor; 44: import java.lang.reflect.Field; 45: import java.lang.reflect.Member; 46: import java.lang.reflect.Method; 47: 48: /** 49: * This class provides static methods that can be used to compute 50: * type-signatures of <code>Class</code>s or <code>Member</code>s. 51: * More specific methods are also provided for computing the 52: * type-signature of <code>Constructor</code>s and 53: * <code>Method</code>s. Methods are also provided to go in the 54: * reverse direction. 55: * 56: * @author Eric Blake (ebb9@email.byu.edu) 57: */ 58: public class TypeSignature 59: { 60: /** 61: * Returns a <code>String</code> representing the type-encoding of a class. 62: * The .class file format has different encodings for classes, depending 63: * on whether it must be disambiguated from primitive types or not; hence 64: * the descriptor parameter to choose between them. If you are planning 65: * on decoding primitive types along with classes, then descriptor should 66: * be true for correct results. Type-encodings are computed as follows: 67: * 68: * <pre> 69: * boolean -> "Z" 70: * byte -> "B" 71: * char -> "C" 72: * double -> "D" 73: * float -> "F" 74: * int -> "I" 75: * long -> "J" 76: * short -> "S" 77: * void -> "V" 78: * arrays -> "[" + descriptor format of component type 79: * object -> class format: fully qualified name with '.' replaced by '/' 80: * descriptor format: "L" + class format + ";" 81: * </pre> 82: * 83: * @param type the class name to encode 84: * @param descriptor true to return objects in descriptor format 85: * @return the class name, as it appears in bytecode constant pools 86: * @see #getClassForEncoding(String) 87: */ 88: public static String getEncodingOfClass(String type, boolean descriptor) 89: { 90: if (! descriptor || type.charAt(0) == '[') 91: return type.replace('.', '/'); 92: if (type.equals("boolean")) 93: return "Z"; 94: if (type.equals("byte")) 95: return "B"; 96: if (type.equals("short")) 97: return "S"; 98: if (type.equals("char")) 99: return "C"; 100: if (type.equals("int")) 101: return "I"; 102: if (type.equals("long")) 103: return "J"; 104: if (type.equals("float")) 105: return "F"; 106: if (type.equals("double")) 107: return "D"; 108: if (type.equals("void")) 109: return "V"; 110: return 'L' + type.replace('.', '/') + ';'; 111: } 112: 113: /** 114: * Gets the descriptor encoding for a class. 115: * 116: * @param clazz the class to encode 117: * @param descriptor true to return objects in descriptor format 118: * @return the class name, as it appears in bytecode constant pools 119: * @see #getEncodingOfClass(String, boolean) 120: */ 121: public static String getEncodingOfClass(Class clazz, boolean descriptor) 122: { 123: return getEncodingOfClass(clazz.getName(), descriptor); 124: } 125: 126: /** 127: * Gets the descriptor encoding for a class. 128: * 129: * @param clazz the class to encode 130: * @return the class name, as it appears in bytecode constant pools 131: * @see #getEncodingOfClass(String, boolean) 132: */ 133: public static String getEncodingOfClass(Class clazz) 134: { 135: return getEncodingOfClass(clazz.getName(), true); 136: } 137: 138: 139: /** 140: * This function is the inverse of <code>getEncodingOfClass</code>. This 141: * accepts both object and descriptor formats, but must know which style 142: * of string is being passed in (usually, descriptor should be true). In 143: * descriptor format, "I" is treated as int.class, in object format, it 144: * is treated as a class named I in the unnamed package. This method is 145: * strictly equivalent to {@link #getClassForEncoding(java.lang.String, boolean, java.lang.ClassLoader)} 146: * with a class loader equal to <code>null</code>. In that case, it 147: * uses the default class loader on the calling stack. 148: * 149: * @param type_code the class name to decode 150: * @param descriptor if the string is in descriptor format 151: * @return the corresponding Class object 152: * @throws ClassNotFoundException if the class cannot be located 153: * @see #getEncodingOfClass(Class, boolean) 154: */ 155: public static Class getClassForEncoding(String type_code, boolean descriptor) 156: throws ClassNotFoundException 157: { 158: return getClassForEncoding(type_code, descriptor, null); 159: } 160: 161: /** 162: * This function is the inverse of <code>getEncodingOfClass</code>. This 163: * accepts both object and descriptor formats, but must know which style 164: * of string is being passed in (usually, descriptor should be true). In 165: * descriptor format, "I" is treated as int.class, in object format, it 166: * is treated as a class named I in the unnamed package. 167: * 168: * @param type_code The class name to decode. 169: * @param descriptor If the string is in descriptor format. 170: * @param loader The class loader when resolving generic object name. If 171: * <code>loader</code> is null then it uses the default class loader on the 172: * calling stack. 173: * @return the corresponding Class object. 174: * @throws ClassNotFoundException if the class cannot be located. 175: * @see #getEncodingOfClass(Class, boolean) 176: * @see #getClassForEncoding(String, boolean) 177: */ 178: public static Class getClassForEncoding(String type_code, boolean descriptor, 179: ClassLoader loader) 180: throws ClassNotFoundException 181: { 182: if (descriptor) 183: { 184: switch (type_code.charAt(0)) 185: { 186: case 'B': 187: return byte.class; 188: case 'C': 189: return char.class; 190: case 'D': 191: return double.class; 192: case 'F': 193: return float.class; 194: case 'I': 195: return int.class; 196: case 'J': 197: return long.class; 198: case 'S': 199: return short.class; 200: case 'V': 201: return void.class; 202: case 'Z': 203: return boolean.class; 204: default: 205: throw new ClassNotFoundException("Invalid class name: " 206: + type_code); 207: case 'L': 208: type_code = type_code.substring(1, type_code.length() - 1); 209: // Fallthrough. 210: case '[': 211: } 212: } 213: return Class.forName(type_code.replace('/', '.'), true, loader); 214: } 215: 216: /** 217: * Gets the Class object for a type name. 218: * 219: * @param type_code the class name to decode 220: * @return the corresponding Class object 221: * @throws ClassNotFoundException if the class cannot be located 222: * @see #getClassForEncoding(String, boolean) 223: */ 224: public static Class getClassForEncoding(String type_code) 225: throws ClassNotFoundException 226: { 227: return getClassForEncoding(type_code, true); 228: } 229: 230: /** 231: * Returns a <code>String</code> representing the type-encoding of a 232: * method. The type-encoding of a method is: 233: * 234: * "(" + parameter type descriptors + ")" + return type descriptor 235: * 236: * XXX This could be faster if it were implemented natively. 237: * 238: * @param m the method to encode 239: * @return the encoding 240: */ 241: public static String getEncodingOfMethod(Method m) 242: { 243: Class[] paramTypes = m.getParameterTypes(); 244: CPStringBuilder buf = new CPStringBuilder("("); 245: for (int i = 0; i < paramTypes.length; i++) 246: buf.append(getEncodingOfClass(paramTypes[i].getName(), true)); 247: buf.append(')').append(getEncodingOfClass(m.getReturnType().getName(), 248: true)); 249: return buf.toString(); 250: } 251: 252: /** 253: * Returns a <code>String</code> representing the type-encoding of a 254: * constructor. The type-encoding of a method is: 255: * 256: * "(" + parameter type descriptors + ")V" 257: * 258: * XXX This could be faster if it were implemented natively. 259: * 260: * @param c the constructor to encode 261: * @return the encoding 262: */ 263: public static String getEncodingOfConstructor(Constructor c) 264: { 265: Class[] paramTypes = c.getParameterTypes(); 266: CPStringBuilder buf = new CPStringBuilder("("); 267: for (int i = 0; i < paramTypes.length; i++) 268: buf.append(getEncodingOfClass(paramTypes[i].getName(), true)); 269: buf.append(")V"); 270: return buf.toString(); 271: } 272: 273: /** 274: * Returns a <code>String</code> representing the type-encoding of a 275: * class member. This appropriately handles Constructors, Methods, and 276: * Fields. 277: * 278: * @param mem the member to encode 279: * @return the encoding 280: */ 281: public static String getEncodingOfMember(Member mem) 282: { 283: if (mem instanceof Constructor) 284: return getEncodingOfConstructor((Constructor) mem); 285: if (mem instanceof Method) 286: return getEncodingOfMethod((Method) mem); 287: else // Field 288: return getEncodingOfClass(((Field) mem).getType().getName(), true); 289: } 290: } // class TypeSignature