1 /* 2 * Copyright (c) 2012, 2013, Oracle and/or its affiliates. All rights reserved. 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. 4 * 5 * This code is free software; you can redistribute it and/or modify it 6 * under the terms of the GNU General Public License version 2 only, as 7 * published by the Free Software Foundation. Oracle designates this 8 * particular file as subject to the "Classpath" exception as provided 9 * by Oracle in the LICENSE file that accompanied this code. 10 * 11 * This code is distributed in the hope that it will be useful, but WITHOUT 12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 14 * version 2 for more details (a copy is included in the LICENSE file that 15 * accompanied this code). 16 * 17 * You should have received a copy of the GNU General Public License version 18 * 2 along with this work; if not, write to the Free Software Foundation, 19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. 20 * 21 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA 22 * or visit www.oracle.com if you need additional information or have any 23 * questions. 24 */ 25 26 package java.lang.invoke; 27 28 import jdk.internal.org.objectweb.asm.*; 29 import sun.invoke.util.BytecodeDescriptor; 30 import sun.security.action.GetPropertyAction; 31 import sun.security.action.GetBooleanAction; 32 33 import java.io.FilePermission; 34 import java.io.Serializable; 35 import java.lang.invoke.MethodHandles.Lookup; 36 import java.lang.reflect.Constructor; 37 import java.lang.reflect.Modifier; 38 import java.security.AccessController; 39 import java.security.PrivilegedAction; 40 import java.util.LinkedHashSet; 41 import java.util.concurrent.atomic.AtomicInteger; 42 import java.util.PropertyPermission; 43 import java.util.Set; 44 45 import static java.lang.invoke.MethodHandles.Lookup.ClassOption.NESTMATE; 46 import static java.lang.invoke.MethodHandles.Lookup.ClassOption.STRONG; 47 import static jdk.internal.org.objectweb.asm.Opcodes.*; 48 49 /** 50 * Lambda metafactory implementation which dynamically creates an 51 * inner-class-like class per lambda callsite. 52 * 53 * @see LambdaMetafactory 54 */ 55 /* package */ final class InnerClassLambdaMetafactory extends AbstractValidatingLambdaMetafactory { 56 private static final int CLASSFILE_VERSION = 52; 57 private static final String METHOD_DESCRIPTOR_VOID = Type.getMethodDescriptor(Type.VOID_TYPE); 58 private static final String JAVA_LANG_OBJECT = "java/lang/Object"; 59 private static final String NAME_CTOR = "<init>"; 60 61 //Serialization support 62 private static final String NAME_SERIALIZED_LAMBDA = "java/lang/invoke/SerializedLambda"; 63 private static final String NAME_NOT_SERIALIZABLE_EXCEPTION = "java/io/NotSerializableException"; 64 private static final String DESCR_METHOD_WRITE_REPLACE = "()Ljava/lang/Object;"; 65 private static final String DESCR_METHOD_WRITE_OBJECT = "(Ljava/io/ObjectOutputStream;)V"; 66 private static final String DESCR_METHOD_READ_OBJECT = "(Ljava/io/ObjectInputStream;)V"; 67 private static final String DESCR_SET_IMPL_METHOD = "(Ljava/lang/invoke/MethodHandle;)V"; 68 69 private static final String NAME_METHOD_WRITE_REPLACE = "writeReplace"; 70 private static final String NAME_METHOD_READ_OBJECT = "readObject"; 71 private static final String NAME_METHOD_WRITE_OBJECT = "writeObject"; 72 private static final String NAME_FIELD_IMPL_METHOD = "protectedImplMethod"; 73 74 private static final String DESCR_CLASS = "Ljava/lang/Class;"; 75 private static final String DESCR_STRING = "Ljava/lang/String;"; 76 private static final String DESCR_OBJECT = "Ljava/lang/Object;"; 77 private static final String DESCR_METHOD_HANDLE = "Ljava/lang/invoke/MethodHandle;"; 78 private static final String DESCR_CTOR_SERIALIZED_LAMBDA 79 = "(" + DESCR_CLASS + DESCR_STRING + DESCR_STRING + DESCR_STRING + "I" 80 + DESCR_STRING + DESCR_STRING + DESCR_STRING + DESCR_STRING + "[" + DESCR_OBJECT + ")V"; 81 82 private static final String DESCR_CTOR_NOT_SERIALIZABLE_EXCEPTION = "(Ljava/lang/String;)V"; 83 private static final String[] SER_HOSTILE_EXCEPTIONS = new String[] {NAME_NOT_SERIALIZABLE_EXCEPTION}; 84 85 private static final String[] EMPTY_STRING_ARRAY = new String[0]; 86 87 // Used to ensure that each spun class name is unique 88 private static final AtomicInteger counter = new AtomicInteger(0); 89 90 // For dumping generated classes to disk, for debugging purposes 91 private static final ProxyClassesDumper dumper; 92 93 private static final boolean disableEagerInitialization; 94 95 static { 96 final String dumpProxyClassesKey = "jdk.internal.lambda.dumpProxyClasses"; 97 String dumpPath = GetPropertyAction.privilegedGetProperty(dumpProxyClassesKey); 98 dumper = (null == dumpPath) ? null : ProxyClassesDumper.getInstance(dumpPath); 99 100 final String disableEagerInitializationKey = "jdk.internal.lambda.disableEagerInitialization"; 101 disableEagerInitialization = GetBooleanAction.privilegedGetProperty(disableEagerInitializationKey); 102 } 103 104 // See context values in AbstractValidatingLambdaMetafactory 105 private final String implMethodClassName; // Name of type containing implementation "CC" 106 private final String implMethodName; // Name of implementation method "impl" 107 private final String implMethodDesc; // Type descriptor for implementation methods "(I)Ljava/lang/String;" 108 private final MethodType constructorType; // Generated class constructor type "(CC)void" 109 private final ClassWriter cw; // ASM class writer 110 private final String[] argNames; // Generated names for the constructor arguments 111 private final String[] argDescs; // Type descriptors for the constructor arguments 112 private final String lambdaClassName; // Generated name for the generated class "X$$Lambda$1" 113 private final boolean useImplMethodHandle; // use MethodHandle invocation instead of symbolic bytecode invocation 114 115 /** 116 * General meta-factory constructor, supporting both standard cases and 117 * allowing for uncommon options such as serialization or bridging. 118 * 119 * @param caller Stacked automatically by VM; represents a lookup context 120 * with the accessibility privileges of the caller. 121 * @param invokedType Stacked automatically by VM; the signature of the 122 * invoked method, which includes the expected static 123 * type of the returned lambda object, and the static 124 * types of the captured arguments for the lambda. In 125 * the event that the implementation method is an 126 * instance method, the first argument in the invocation 127 * signature will correspond to the receiver. 128 * @param samMethodName Name of the method in the functional interface to 129 * which the lambda or method reference is being 130 * converted, represented as a String. 131 * @param samMethodType Type of the method in the functional interface to 132 * which the lambda or method reference is being 133 * converted, represented as a MethodType. 134 * @param implMethod The implementation method which should be called (with 135 * suitable adaptation of argument types, return types, 136 * and adjustment for captured arguments) when methods of 137 * the resulting functional interface instance are invoked. 138 * @param instantiatedMethodType The signature of the primary functional 139 * interface method after type variables are 140 * substituted with their instantiation from 141 * the capture site 142 * @param isSerializable Should the lambda be made serializable? If set, 143 * either the target type or one of the additional SAM 144 * types must extend {@code Serializable}. 145 * @param markerInterfaces Additional interfaces which the lambda object 146 * should implement. 147 * @param additionalBridges Method types for additional signatures to be 148 * bridged to the implementation method 149 * @throws LambdaConversionException If any of the meta-factory protocol 150 * invariants are violated 151 */ 152 public InnerClassLambdaMetafactory(MethodHandles.Lookup caller, 153 MethodType invokedType, 154 String samMethodName, 155 MethodType samMethodType, 156 MethodHandle implMethod, 157 MethodType instantiatedMethodType, 158 boolean isSerializable, 159 Class<?>[] markerInterfaces, 160 MethodType[] additionalBridges) 161 throws LambdaConversionException { 162 super(caller, invokedType, samMethodName, samMethodType, 163 implMethod, instantiatedMethodType, 164 isSerializable, markerInterfaces, additionalBridges); 165 implMethodClassName = implClass.getName().replace('.', '/'); 166 implMethodName = implInfo.getName(); 167 implMethodDesc = implInfo.getMethodType().toMethodDescriptorString(); 168 constructorType = invokedType.changeReturnType(Void.TYPE); 169 lambdaClassName = lambdaClassName(targetClass); 170 useImplMethodHandle = !implClass.getPackageName().equals(implInfo.getDeclaringClass().getPackageName()) 171 && !Modifier.isPublic(implInfo.getModifiers()); 172 cw = new ClassWriter(ClassWriter.COMPUTE_MAXS); 173 int parameterCount = invokedType.parameterCount(); 174 if (parameterCount > 0) { 175 argNames = new String[parameterCount]; 176 argDescs = new String[parameterCount]; 177 for (int i = 0; i < parameterCount; i++) { 178 argNames[i] = "arg$" + (i + 1); 179 argDescs[i] = BytecodeDescriptor.unparse(invokedType.parameterType(i)); 180 } 181 } else { 182 argNames = argDescs = EMPTY_STRING_ARRAY; 183 } 184 } 185 186 private static String lambdaClassName(Class<?> targetClass) { 187 String name = targetClass.getName(); 188 if (targetClass.isHidden()) { 189 // use the original class name 190 name = name.replace('/', '_'); 191 } 192 return name.replace('.', '/') + "$$Lambda$" + counter.incrementAndGet(); 193 } 194 195 /** 196 * Build the CallSite. Generate a class file which implements the functional 197 * interface, define the class, if there are no parameters create an instance 198 * of the class which the CallSite will return, otherwise, generate handles 199 * which will call the class' constructor. 200 * 201 * @return a CallSite, which, when invoked, will return an instance of the 202 * functional interface 203 * @throws ReflectiveOperationException 204 * @throws LambdaConversionException If properly formed functional interface 205 * is not found 206 */ 207 @Override 208 CallSite buildCallSite() throws LambdaConversionException { 209 final Class<?> innerClass = spinInnerClass(); 210 if (invokedType.parameterCount() == 0 && !disableEagerInitialization) { 211 // In the case of a non-capturing lambda, we optimize linkage by pre-computing a single instance, 212 // unless we've suppressed eager initialization 213 final Constructor<?>[] ctrs = AccessController.doPrivileged( 214 new PrivilegedAction<>() { 215 @Override 216 public Constructor<?>[] run() { 217 Constructor<?>[] ctrs = innerClass.getDeclaredConstructors(); 218 if (ctrs.length == 1) { 219 // The lambda implementing inner class constructor is private, set 220 // it accessible (by us) before creating the constant sole instance 221 ctrs[0].setAccessible(true); 222 } 223 return ctrs; 224 } 225 }); 226 if (ctrs.length != 1) { 227 throw new LambdaConversionException("Expected one lambda constructor for " 228 + innerClass.getCanonicalName() + ", got " + ctrs.length); 229 } 230 231 try { 232 Object inst = ctrs[0].newInstance(); 233 return new ConstantCallSite(MethodHandles.constant(samBase, inst)); 234 } catch (ReflectiveOperationException e) { 235 throw new LambdaConversionException("Exception instantiating lambda object", e); 236 } 237 } else { 238 try { 239 MethodHandle mh = caller.findConstructor(innerClass, invokedType.changeReturnType(void.class)); 240 return new ConstantCallSite(mh.asType(invokedType)); 241 } catch (ReflectiveOperationException e) { 242 throw new LambdaConversionException("Exception finding constructor", e); 243 } 244 } 245 } 246 247 /** 248 * Generate a class file which implements the functional 249 * interface, define and return the class. 250 * 251 * @implNote The class that is generated does not include signature 252 * information for exceptions that may be present on the SAM method. 253 * This is to reduce classfile size, and is harmless as checked exceptions 254 * are erased anyway, no one will ever compile against this classfile, 255 * and we make no guarantees about the reflective properties of lambda 256 * objects. 257 * 258 * @return a Class which implements the functional interface 259 * @throws LambdaConversionException If properly formed functional interface 260 * is not found 261 */ 262 private Class<?> spinInnerClass() throws LambdaConversionException { 263 String[] interfaces; 264 String samIntf = samBase.getName().replace('.', '/'); 265 boolean accidentallySerializable = !isSerializable && Serializable.class.isAssignableFrom(samBase); 266 if (markerInterfaces.length == 0) { 267 interfaces = new String[]{samIntf}; 268 } else { 269 // Assure no duplicate interfaces (ClassFormatError) 270 Set<String> itfs = new LinkedHashSet<>(markerInterfaces.length + 1); 271 itfs.add(samIntf); 272 for (Class<?> markerInterface : markerInterfaces) { 273 itfs.add(markerInterface.getName().replace('.', '/')); 274 accidentallySerializable |= !isSerializable && Serializable.class.isAssignableFrom(markerInterface); 275 } 276 interfaces = itfs.toArray(new String[itfs.size()]); 277 } 278 279 cw.visit(CLASSFILE_VERSION, ACC_SUPER + ACC_FINAL + ACC_SYNTHETIC, 280 lambdaClassName, null, 281 JAVA_LANG_OBJECT, interfaces); 282 283 // Generate final fields to be filled in by constructor 284 for (int i = 0; i < argDescs.length; i++) { 285 FieldVisitor fv = cw.visitField(ACC_PRIVATE + ACC_FINAL, 286 argNames[i], 287 argDescs[i], 288 null, null); 289 fv.visitEnd(); 290 } 291 292 generateConstructor(); 293 294 // Forward the SAM method 295 MethodVisitor mv = cw.visitMethod(ACC_PUBLIC, samMethodName, 296 samMethodType.toMethodDescriptorString(), null, null); 297 new ForwardingMethodGenerator(mv).generate(samMethodType); 298 299 // Forward the bridges 300 if (additionalBridges != null) { 301 for (MethodType mt : additionalBridges) { 302 mv = cw.visitMethod(ACC_PUBLIC|ACC_BRIDGE, samMethodName, 303 mt.toMethodDescriptorString(), null, null); 304 new ForwardingMethodGenerator(mv).generate(mt); 305 } 306 } 307 308 if (useImplMethodHandle) { 309 FieldVisitor fv = cw.visitField(ACC_PRIVATE + ACC_STATIC, 310 NAME_FIELD_IMPL_METHOD, 311 DESCR_METHOD_HANDLE, 312 null, null); 313 fv.visitEnd(); 314 } 315 316 if (isSerializable) 317 generateSerializationFriendlyMethods(); 318 else if (accidentallySerializable) 319 generateSerializationHostileMethods(); 320 321 cw.visitEnd(); 322 323 // Define the generated class in this VM. 324 325 final byte[] classBytes = cw.toByteArray(); 326 // If requested, dump out to a file for debugging purposes 327 if (dumper != null) { 328 AccessController.doPrivileged(new PrivilegedAction<>() { 329 @Override 330 public Void run() { 331 dumper.dumpClass(lambdaClassName, classBytes); 332 return null; 333 } 334 }, null, 335 new FilePermission("<<ALL FILES>>", "read, write"), 336 // createDirectories may need it 337 new PropertyPermission("user.dir", "read")); 338 } 339 try { 340 // this class is linked at the indy callsite; so define a hidden nestmate 341 Lookup lookup = caller.defineHiddenClass(classBytes, !disableEagerInitialization, NESTMATE, STRONG); 342 if (useImplMethodHandle) { 343 // If the target class invokes a method reference this::m which is 344 // resolved to a protected method inherited from a superclass in a different 345 // package, the target class does not have a bridge and this method reference 346 // has been changed from public to protected after the target class was compiled. 347 // This lambda proxy class has no access to the resolved method. 348 // So this workaround by passing the live implMethod method handle 349 // to the proxy class to invoke directly. 350 MethodHandle mh = lookup.findStaticSetter(lookup.lookupClass(), NAME_FIELD_IMPL_METHOD, MethodHandle.class); 351 mh.invokeExact(implMethod); 352 } 353 return lookup.lookupClass(); 354 } catch (IllegalAccessException e) { 355 throw new LambdaConversionException("Exception defining lambda proxy class", e); 356 } catch (Throwable t) { 357 throw new InternalError(t); 358 } 359 } 360 361 /** 362 * Generate the constructor for the class 363 */ 364 private void generateConstructor() { 365 // Generate constructor 366 MethodVisitor ctor = cw.visitMethod(ACC_PRIVATE, NAME_CTOR, 367 constructorType.toMethodDescriptorString(), null, null); 368 ctor.visitCode(); 369 ctor.visitVarInsn(ALOAD, 0); 370 ctor.visitMethodInsn(INVOKESPECIAL, JAVA_LANG_OBJECT, NAME_CTOR, 371 METHOD_DESCRIPTOR_VOID, false); 372 int parameterCount = invokedType.parameterCount(); 373 for (int i = 0, lvIndex = 0; i < parameterCount; i++) { 374 ctor.visitVarInsn(ALOAD, 0); 375 Class<?> argType = invokedType.parameterType(i); 376 ctor.visitVarInsn(getLoadOpcode(argType), lvIndex + 1); 377 lvIndex += getParameterSize(argType); 378 ctor.visitFieldInsn(PUTFIELD, lambdaClassName, argNames[i], argDescs[i]); 379 } 380 ctor.visitInsn(RETURN); 381 // Maxs computed by ClassWriter.COMPUTE_MAXS, these arguments ignored 382 ctor.visitMaxs(-1, -1); 383 ctor.visitEnd(); 384 } 385 386 /** 387 * Generate a writeReplace method that supports serialization 388 */ 389 private void generateSerializationFriendlyMethods() { 390 TypeConvertingMethodAdapter mv 391 = new TypeConvertingMethodAdapter( 392 cw.visitMethod(ACC_PRIVATE + ACC_FINAL, 393 NAME_METHOD_WRITE_REPLACE, DESCR_METHOD_WRITE_REPLACE, 394 null, null)); 395 396 mv.visitCode(); 397 mv.visitTypeInsn(NEW, NAME_SERIALIZED_LAMBDA); 398 mv.visitInsn(DUP); 399 mv.visitLdcInsn(Type.getType(targetClass)); 400 mv.visitLdcInsn(invokedType.returnType().getName().replace('.', '/')); 401 mv.visitLdcInsn(samMethodName); 402 mv.visitLdcInsn(samMethodType.toMethodDescriptorString()); 403 mv.visitLdcInsn(implInfo.getReferenceKind()); 404 mv.visitLdcInsn(implInfo.getDeclaringClass().getName().replace('.', '/')); 405 mv.visitLdcInsn(implInfo.getName()); 406 mv.visitLdcInsn(implInfo.getMethodType().toMethodDescriptorString()); 407 mv.visitLdcInsn(instantiatedMethodType.toMethodDescriptorString()); 408 mv.iconst(argDescs.length); 409 mv.visitTypeInsn(ANEWARRAY, JAVA_LANG_OBJECT); 410 for (int i = 0; i < argDescs.length; i++) { 411 mv.visitInsn(DUP); 412 mv.iconst(i); 413 mv.visitVarInsn(ALOAD, 0); 414 mv.visitFieldInsn(GETFIELD, lambdaClassName, argNames[i], argDescs[i]); 415 mv.boxIfTypePrimitive(Type.getType(argDescs[i])); 416 mv.visitInsn(AASTORE); 417 } 418 mv.visitMethodInsn(INVOKESPECIAL, NAME_SERIALIZED_LAMBDA, NAME_CTOR, 419 DESCR_CTOR_SERIALIZED_LAMBDA, false); 420 mv.visitInsn(ARETURN); 421 // Maxs computed by ClassWriter.COMPUTE_MAXS, these arguments ignored 422 mv.visitMaxs(-1, -1); 423 mv.visitEnd(); 424 } 425 426 /** 427 * Generate a readObject/writeObject method that is hostile to serialization 428 */ 429 private void generateSerializationHostileMethods() { 430 MethodVisitor mv = cw.visitMethod(ACC_PRIVATE + ACC_FINAL, 431 NAME_METHOD_WRITE_OBJECT, DESCR_METHOD_WRITE_OBJECT, 432 null, SER_HOSTILE_EXCEPTIONS); 433 mv.visitCode(); 434 mv.visitTypeInsn(NEW, NAME_NOT_SERIALIZABLE_EXCEPTION); 435 mv.visitInsn(DUP); 436 mv.visitLdcInsn("Non-serializable lambda"); 437 mv.visitMethodInsn(INVOKESPECIAL, NAME_NOT_SERIALIZABLE_EXCEPTION, NAME_CTOR, 438 DESCR_CTOR_NOT_SERIALIZABLE_EXCEPTION, false); 439 mv.visitInsn(ATHROW); 440 mv.visitMaxs(-1, -1); 441 mv.visitEnd(); 442 443 mv = cw.visitMethod(ACC_PRIVATE + ACC_FINAL, 444 NAME_METHOD_READ_OBJECT, DESCR_METHOD_READ_OBJECT, 445 null, SER_HOSTILE_EXCEPTIONS); 446 mv.visitCode(); 447 mv.visitTypeInsn(NEW, NAME_NOT_SERIALIZABLE_EXCEPTION); 448 mv.visitInsn(DUP); 449 mv.visitLdcInsn("Non-serializable lambda"); 450 mv.visitMethodInsn(INVOKESPECIAL, NAME_NOT_SERIALIZABLE_EXCEPTION, NAME_CTOR, 451 DESCR_CTOR_NOT_SERIALIZABLE_EXCEPTION, false); 452 mv.visitInsn(ATHROW); 453 mv.visitMaxs(-1, -1); 454 mv.visitEnd(); 455 } 456 457 /** 458 * This class generates a method body which calls the lambda implementation 459 * method, converting arguments, as needed. 460 */ 461 private class ForwardingMethodGenerator extends TypeConvertingMethodAdapter { 462 463 ForwardingMethodGenerator(MethodVisitor mv) { 464 super(mv); 465 } 466 467 void generate(MethodType methodType) { 468 visitCode(); 469 470 if (implKind == MethodHandleInfo.REF_newInvokeSpecial) { 471 visitTypeInsn(NEW, implMethodClassName); 472 visitInsn(DUP); 473 } 474 if (useImplMethodHandle) { 475 visitVarInsn(ALOAD, 0); 476 visitFieldInsn(GETSTATIC, lambdaClassName, NAME_FIELD_IMPL_METHOD, DESCR_METHOD_HANDLE); 477 } 478 for (int i = 0; i < argNames.length; i++) { 479 visitVarInsn(ALOAD, 0); 480 visitFieldInsn(GETFIELD, lambdaClassName, argNames[i], argDescs[i]); 481 } 482 483 convertArgumentTypes(methodType); 484 485 if (useImplMethodHandle) { 486 MethodType mtype = implInfo.getMethodType().insertParameterTypes(0, implClass); 487 visitMethodInsn(INVOKEVIRTUAL, "java/lang/invoke/MethodHandle", 488 "invokeExact", mtype.descriptorString(), false); 489 } else { 490 // Invoke the method we want to forward to 491 visitMethodInsn(invocationOpcode(), implMethodClassName, 492 implMethodName, implMethodDesc, 493 implClass.isInterface()); 494 } 495 // Convert the return value (if any) and return it 496 // Note: if adapting from non-void to void, the 'return' 497 // instruction will pop the unneeded result 498 Class<?> implReturnClass = implMethodType.returnType(); 499 Class<?> samReturnClass = methodType.returnType(); 500 convertType(implReturnClass, samReturnClass, samReturnClass); 501 visitInsn(getReturnOpcode(samReturnClass)); 502 // Maxs computed by ClassWriter.COMPUTE_MAXS,these arguments ignored 503 visitMaxs(-1, -1); 504 visitEnd(); 505 } 506 507 private void convertArgumentTypes(MethodType samType) { 508 int lvIndex = 0; 509 int samParametersLength = samType.parameterCount(); 510 int captureArity = invokedType.parameterCount(); 511 for (int i = 0; i < samParametersLength; i++) { 512 Class<?> argType = samType.parameterType(i); 513 visitVarInsn(getLoadOpcode(argType), lvIndex + 1); 514 lvIndex += getParameterSize(argType); 515 convertType(argType, implMethodType.parameterType(captureArity + i), instantiatedMethodType.parameterType(i)); 516 } 517 } 518 519 private int invocationOpcode() throws InternalError { 520 switch (implKind) { 521 case MethodHandleInfo.REF_invokeStatic: 522 return INVOKESTATIC; 523 case MethodHandleInfo.REF_newInvokeSpecial: 524 return INVOKESPECIAL; 525 case MethodHandleInfo.REF_invokeVirtual: 526 return INVOKEVIRTUAL; 527 case MethodHandleInfo.REF_invokeInterface: 528 return INVOKEINTERFACE; 529 case MethodHandleInfo.REF_invokeSpecial: 530 return INVOKESPECIAL; 531 default: 532 throw new InternalError("Unexpected invocation kind: " + implKind); 533 } 534 } 535 } 536 537 static int getParameterSize(Class<?> c) { 538 if (c == Void.TYPE) { 539 return 0; 540 } else if (c == Long.TYPE || c == Double.TYPE) { 541 return 2; 542 } 543 return 1; 544 } 545 546 static int getLoadOpcode(Class<?> c) { 547 if(c == Void.TYPE) { 548 throw new InternalError("Unexpected void type of load opcode"); 549 } 550 return ILOAD + getOpcodeOffset(c); 551 } 552 553 static int getReturnOpcode(Class<?> c) { 554 if(c == Void.TYPE) { 555 return RETURN; 556 } 557 return IRETURN + getOpcodeOffset(c); 558 } 559 560 private static int getOpcodeOffset(Class<?> c) { 561 if (c.isPrimitive()) { 562 if (c == Long.TYPE) { 563 return 1; 564 } else if (c == Float.TYPE) { 565 return 2; 566 } else if (c == Double.TYPE) { 567 return 3; 568 } 569 return 0; 570 } else { 571 return 4; 572 } 573 } 574 575 }