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src/share/classes/com/sun/tools/javac/comp/LambdaToMethod.java@6db9a3b1a93f (annotated)

src/share/classes/com/sun/tools/javac/comp/LambdaToMethod.java

Tue, 12 Mar 2013 16:02:13 +0000

author
mcimadamore
date
Tue, 12 Mar 2013 16:02:13 +0000
changeset 1627
6db9a3b1a93f
parent 1624
d0ae21e3a382
child 1639
fbbf5376e7e4
permissions
-rw-r--r--

8008540: Constructor reference to non-reifiable array should be rejected
8008539: Spurious error when constructor reference mention an interface type
8008538: Constructor reference accepts wildcard parameterized types
Summary: Overhaul of Check.checkConstructorRefType
Reviewed-by: jjg

rfield@1380 1 /*
mcimadamore@1595 2 * Copyright (c) 2010, 2013, Oracle and/or its affiliates. All rights reserved.
rfield@1380 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
rfield@1380 4 *
rfield@1380 5 * This code is free software; you can redistribute it and/or modify it
rfield@1380 6 * under the terms of the GNU General Public License version 2 only, as
rfield@1380 7 * published by the Free Software Foundation. Oracle designates this
rfield@1380 8 * particular file as subject to the "Classpath" exception as provided
rfield@1380 9 * by Oracle in the LICENSE file that accompanied this code.
rfield@1380 10 *
rfield@1380 11 * This code is distributed in the hope that it will be useful, but WITHOUT
rfield@1380 12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
rfield@1380 13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
rfield@1380 14 * version 2 for more details (a copy is included in the LICENSE file that
rfield@1380 15 * accompanied this code).
rfield@1380 16 *
rfield@1380 17 * You should have received a copy of the GNU General Public License version
rfield@1380 18 * 2 along with this work; if not, write to the Free Software Foundation,
rfield@1380 19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
rfield@1380 20 *
rfield@1380 21 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
rfield@1380 22 * or visit www.oracle.com if you need additional information or have any
rfield@1380 23 * questions.
rfield@1380 24 */
rfield@1380 25 package com.sun.tools.javac.comp;
rfield@1380 26
rfield@1380 27 import com.sun.tools.javac.tree.*;
rfield@1380 28 import com.sun.tools.javac.tree.JCTree;
rfield@1380 29 import com.sun.tools.javac.tree.JCTree.*;
rfield@1380 30 import com.sun.tools.javac.tree.JCTree.JCMemberReference.ReferenceKind;
rfield@1380 31 import com.sun.tools.javac.tree.TreeMaker;
rfield@1380 32 import com.sun.tools.javac.tree.TreeScanner;
rfield@1380 33 import com.sun.tools.javac.tree.TreeTranslator;
rfield@1380 34 import com.sun.tools.javac.code.Kinds;
rfield@1587 35 import com.sun.tools.javac.code.Scope;
rfield@1380 36 import com.sun.tools.javac.code.Symbol;
rfield@1380 37 import com.sun.tools.javac.code.Symbol.ClassSymbol;
rfield@1380 38 import com.sun.tools.javac.code.Symbol.DynamicMethodSymbol;
rfield@1380 39 import com.sun.tools.javac.code.Symbol.MethodSymbol;
rfield@1380 40 import com.sun.tools.javac.code.Symbol.VarSymbol;
rfield@1380 41 import com.sun.tools.javac.code.Symtab;
rfield@1380 42 import com.sun.tools.javac.code.Type;
rfield@1380 43 import com.sun.tools.javac.code.Type.ClassType;
rfield@1380 44 import com.sun.tools.javac.code.Type.MethodType;
rfield@1380 45 import com.sun.tools.javac.code.Types;
rfield@1380 46 import com.sun.tools.javac.comp.LambdaToMethod.LambdaAnalyzer.*;
mcimadamore@1612 47 import com.sun.tools.javac.comp.Lower.BasicFreeVarCollector;
rfield@1380 48 import com.sun.tools.javac.jvm.*;
rfield@1380 49 import com.sun.tools.javac.util.*;
rfield@1380 50 import com.sun.tools.javac.util.List;
rfield@1380 51 import com.sun.tools.javac.util.JCDiagnostic.DiagnosticPosition;
rfield@1380 52 import com.sun.source.tree.MemberReferenceTree.ReferenceMode;
rfield@1380 53
rfield@1380 54 import java.util.HashMap;
rfield@1380 55 import java.util.LinkedHashMap;
rfield@1380 56 import java.util.Map;
rfield@1380 57
rfield@1380 58 import static com.sun.tools.javac.comp.LambdaToMethod.LambdaSymbolKind.*;
rfield@1380 59 import static com.sun.tools.javac.code.Flags.*;
rfield@1380 60 import static com.sun.tools.javac.code.Kinds.*;
rfield@1587 61 import static com.sun.tools.javac.code.TypeTag.*;
rfield@1380 62 import static com.sun.tools.javac.tree.JCTree.Tag.*;
rfield@1380 63
rfield@1380 64 /**
rfield@1380 65 * This pass desugars lambda expressions into static methods
rfield@1380 66 *
rfield@1380 67 * <p><b>This is NOT part of any supported API.
rfield@1380 68 * If you write code that depends on this, you do so at your own risk.
rfield@1380 69 * This code and its internal interfaces are subject to change or
rfield@1380 70 * deletion without notice.</b>
rfield@1380 71 */
rfield@1380 72 public class LambdaToMethod extends TreeTranslator {
rfield@1380 73
mcimadamore@1612 74 private Lower lower;
rfield@1380 75 private Names names;
rfield@1380 76 private Symtab syms;
rfield@1380 77 private Resolve rs;
rfield@1380 78 private TreeMaker make;
rfield@1380 79 private Types types;
rfield@1380 80 private TransTypes transTypes;
rfield@1380 81 private Env<AttrContext> attrEnv;
rfield@1380 82
rfield@1380 83 /** the analyzer scanner */
rfield@1380 84 private LambdaAnalyzer analyzer;
rfield@1380 85
rfield@1380 86 /** map from lambda trees to translation contexts */
rfield@1380 87 private Map<JCTree, TranslationContext<?>> contextMap;
rfield@1380 88
rfield@1380 89 /** current translation context (visitor argument) */
rfield@1380 90 private TranslationContext<?> context;
rfield@1380 91
rfield@1587 92 /** info about the current class being processed */
rfield@1587 93 private KlassInfo kInfo;
rfield@1587 94
rfield@1587 95 /** Flag for alternate metafactories indicating the lambda object is intended to be serializable */
rfield@1587 96 public static final int FLAG_SERIALIZABLE = 1 << 0;
rfield@1587 97
rfield@1587 98 /** Flag for alternate metafactories indicating the lambda object has multiple targets */
rfield@1587 99 public static final int FLAG_MARKERS = 1 << 1;
rfield@1587 100
rfield@1587 101 private class KlassInfo {
rfield@1587 102
rfield@1587 103 /**
rfield@1587 104 * list of methods to append
rfield@1587 105 */
rfield@1587 106 private ListBuffer<JCTree> appendedMethodList;
rfield@1587 107
rfield@1587 108 /**
rfield@1587 109 * list of deserialization cases
rfield@1587 110 */
rfield@1587 111 private final Map<String, ListBuffer<JCStatement>> deserializeCases;
rfield@1587 112
rfield@1587 113 /**
rfield@1587 114 * deserialize method symbol
rfield@1587 115 */
rfield@1587 116 private final MethodSymbol deserMethodSym;
rfield@1587 117
rfield@1587 118 /**
rfield@1587 119 * deserialize method parameter symbol
rfield@1587 120 */
rfield@1587 121 private final VarSymbol deserParamSym;
rfield@1587 122
rfield@1587 123 private KlassInfo(Symbol kSym) {
rfield@1587 124 appendedMethodList = ListBuffer.lb();
rfield@1587 125 deserializeCases = new HashMap<String, ListBuffer<JCStatement>>();
rfield@1587 126 long flags = PRIVATE | STATIC | SYNTHETIC;
rfield@1587 127 MethodType type = new MethodType(List.of(syms.serializedLambdaType), syms.objectType,
rfield@1587 128 List.<Type>nil(), syms.methodClass);
rfield@1587 129 deserMethodSym = makeSyntheticMethod(flags, names.deserializeLambda, type, kSym);
mcimadamore@1595 130 deserParamSym = new VarSymbol(FINAL, names.fromString("lambda"),
mcimadamore@1595 131 syms.serializedLambdaType, deserMethodSym);
rfield@1587 132 }
rfield@1587 133
rfield@1587 134 private void addMethod(JCTree decl) {
rfield@1587 135 appendedMethodList = appendedMethodList.prepend(decl);
rfield@1587 136 }
rfield@1587 137 }
rfield@1380 138
rfield@1380 139 // <editor-fold defaultstate="collapsed" desc="Instantiating">
rfield@1380 140 private static final Context.Key<LambdaToMethod> unlambdaKey =
rfield@1380 141 new Context.Key<LambdaToMethod>();
rfield@1380 142
rfield@1380 143 public static LambdaToMethod instance(Context context) {
rfield@1380 144 LambdaToMethod instance = context.get(unlambdaKey);
rfield@1380 145 if (instance == null) {
rfield@1380 146 instance = new LambdaToMethod(context);
rfield@1380 147 }
rfield@1380 148 return instance;
rfield@1380 149 }
rfield@1380 150
rfield@1380 151 private LambdaToMethod(Context context) {
mcimadamore@1612 152 lower = Lower.instance(context);
rfield@1380 153 names = Names.instance(context);
rfield@1380 154 syms = Symtab.instance(context);
rfield@1380 155 rs = Resolve.instance(context);
rfield@1380 156 make = TreeMaker.instance(context);
rfield@1380 157 types = Types.instance(context);
rfield@1380 158 transTypes = TransTypes.instance(context);
rfield@1587 159 analyzer = new LambdaAnalyzer();
rfield@1380 160 }
rfield@1380 161 // </editor-fold>
rfield@1380 162
rfield@1380 163 // <editor-fold defaultstate="collapsed" desc="translate methods">
rfield@1380 164 @Override
rfield@1380 165 public <T extends JCTree> T translate(T tree) {
rfield@1380 166 TranslationContext<?> newContext = contextMap.get(tree);
rfield@1380 167 return translate(tree, newContext != null ? newContext : context);
rfield@1380 168 }
rfield@1380 169
rfield@1380 170 public <T extends JCTree> T translate(T tree, TranslationContext<?> newContext) {
rfield@1380 171 TranslationContext<?> prevContext = context;
rfield@1380 172 try {
rfield@1380 173 context = newContext;
rfield@1380 174 return super.translate(tree);
rfield@1380 175 }
rfield@1380 176 finally {
rfield@1380 177 context = prevContext;
rfield@1380 178 }
rfield@1380 179 }
rfield@1380 180
rfield@1380 181 public <T extends JCTree> List<T> translate(List<T> trees, TranslationContext<?> newContext) {
rfield@1380 182 ListBuffer<T> buf = ListBuffer.lb();
rfield@1380 183 for (T tree : trees) {
rfield@1380 184 buf.append(translate(tree, newContext));
rfield@1380 185 }
rfield@1380 186 return buf.toList();
rfield@1380 187 }
rfield@1380 188
rfield@1380 189 public JCTree translateTopLevelClass(Env<AttrContext> env, JCTree cdef, TreeMaker make) {
rfield@1380 190 this.make = make;
rfield@1380 191 this.attrEnv = env;
rfield@1380 192 this.context = null;
rfield@1380 193 this.contextMap = new HashMap<JCTree, TranslationContext<?>>();
rfield@1380 194 return translate(cdef);
rfield@1380 195 }
rfield@1380 196 // </editor-fold>
rfield@1380 197
rfield@1380 198 // <editor-fold defaultstate="collapsed" desc="visitor methods">
rfield@1380 199 /**
rfield@1380 200 * Visit a class.
rfield@1380 201 * Maintain the translatedMethodList across nested classes.
rfield@1380 202 * Append the translatedMethodList to the class after it is translated.
rfield@1380 203 * @param tree
rfield@1380 204 */
rfield@1380 205 @Override
rfield@1380 206 public void visitClassDef(JCClassDecl tree) {
rfield@1380 207 if (tree.sym.owner.kind == PCK) {
rfield@1380 208 //analyze class
rfield@1380 209 analyzer.analyzeClass(tree);
rfield@1380 210 }
rfield@1587 211 KlassInfo prevKlassInfo = kInfo;
rfield@1380 212 try {
rfield@1587 213 kInfo = new KlassInfo(tree.sym);
rfield@1380 214 super.visitClassDef(tree);
rfield@1587 215 if (!kInfo.deserializeCases.isEmpty()) {
rfield@1587 216 kInfo.addMethod(makeDeserializeMethod(tree.sym));
rfield@1587 217 }
rfield@1380 218 //add all translated instance methods here
rfield@1587 219 List<JCTree> newMethods = kInfo.appendedMethodList.toList();
rfield@1587 220 tree.defs = tree.defs.appendList(newMethods);
rfield@1587 221 for (JCTree lambda : newMethods) {
rfield@1380 222 tree.sym.members().enter(((JCMethodDecl)lambda).sym);
rfield@1380 223 }
rfield@1380 224 result = tree;
rfield@1380 225 } finally {
rfield@1587 226 kInfo = prevKlassInfo;
rfield@1380 227 }
rfield@1380 228 }
rfield@1380 229
rfield@1380 230 /**
rfield@1380 231 * Translate a lambda into a method to be inserted into the class.
rfield@1380 232 * Then replace the lambda site with an invokedynamic call of to lambda
rfield@1380 233 * meta-factory, which will use the lambda method.
rfield@1380 234 * @param tree
rfield@1380 235 */
rfield@1380 236 @Override
rfield@1380 237 public void visitLambda(JCLambda tree) {
rfield@1380 238 LambdaTranslationContext localContext = (LambdaTranslationContext)context;
rfield@1380 239 MethodSymbol sym = (MethodSymbol)localContext.translatedSym;
rfield@1380 240 MethodType lambdaType = (MethodType) sym.type;
rfield@1380 241
rfield@1380 242 //create the method declaration hoisting the lambda body
rfield@1380 243 JCMethodDecl lambdaDecl = make.MethodDef(make.Modifiers(sym.flags_field),
rfield@1380 244 sym.name,
rfield@1380 245 make.QualIdent(lambdaType.getReturnType().tsym),
rfield@1380 246 List.<JCTypeParameter>nil(),
rfield@1380 247 localContext.syntheticParams,
rfield@1380 248 lambdaType.getThrownTypes() == null ?
rfield@1380 249 List.<JCExpression>nil() :
rfield@1380 250 make.Types(lambdaType.getThrownTypes()),
rfield@1380 251 null,
rfield@1380 252 null);
rfield@1380 253 lambdaDecl.sym = sym;
rfield@1380 254 lambdaDecl.type = lambdaType;
rfield@1380 255
rfield@1380 256 //translate lambda body
rfield@1380 257 //As the lambda body is translated, all references to lambda locals,
rfield@1380 258 //captured variables, enclosing members are adjusted accordingly
rfield@1380 259 //to refer to the static method parameters (rather than i.e. acessing to
rfield@1380 260 //captured members directly).
rfield@1380 261 lambdaDecl.body = translate(makeLambdaBody(tree, lambdaDecl));
rfield@1380 262
rfield@1380 263 //Add the method to the list of methods to be added to this class.
rfield@1587 264 kInfo.addMethod(lambdaDecl);
rfield@1380 265
rfield@1380 266 //now that we have generated a method for the lambda expression,
rfield@1380 267 //we can translate the lambda into a method reference pointing to the newly
rfield@1380 268 //created method.
rfield@1380 269 //
rfield@1380 270 //Note that we need to adjust the method handle so that it will match the
rfield@1380 271 //signature of the SAM descriptor - this means that the method reference
rfield@1380 272 //should be added the following synthetic arguments:
rfield@1380 273 //
rfield@1380 274 // * the "this" argument if it is an instance method
rfield@1380 275 // * enclosing locals captured by the lambda expression
rfield@1380 276
rfield@1380 277 ListBuffer<JCExpression> syntheticInits = ListBuffer.lb();
rfield@1380 278
rfield@1380 279 if (!sym.isStatic()) {
rfield@1380 280 syntheticInits.append(makeThis(
rfield@1587 281 sym.owner.enclClass().asType(),
rfield@1380 282 localContext.owner.enclClass()));
rfield@1380 283 }
rfield@1380 284
rfield@1380 285 //add captured locals
rfield@1380 286 for (Symbol fv : localContext.getSymbolMap(CAPTURED_VAR).keySet()) {
rfield@1380 287 if (fv != localContext.self) {
rfield@1380 288 JCTree captured_local = make.Ident(fv).setType(fv.type);
rfield@1380 289 syntheticInits.append((JCExpression) captured_local);
rfield@1380 290 }
rfield@1380 291 }
rfield@1380 292
rfield@1380 293 //then, determine the arguments to the indy call
rfield@1380 294 List<JCExpression> indy_args = translate(syntheticInits.toList(), localContext.prev);
rfield@1380 295
rfield@1380 296 //build a sam instance using an indy call to the meta-factory
rfield@1380 297 int refKind = referenceKind(sym);
rfield@1380 298
rfield@1380 299 //convert to an invokedynamic call
rfield@1587 300 result = makeMetaFactoryIndyCall(tree, context.needsAltMetafactory(), context.isSerializable(), refKind, sym, indy_args);
rfield@1380 301 }
rfield@1380 302
rfield@1380 303 private JCIdent makeThis(Type type, Symbol owner) {
rfield@1380 304 VarSymbol _this = new VarSymbol(PARAMETER | FINAL | SYNTHETIC,
rfield@1380 305 names._this,
rfield@1380 306 type,
rfield@1380 307 owner);
rfield@1380 308 return make.Ident(_this);
rfield@1380 309 }
rfield@1380 310
rfield@1380 311 /**
rfield@1380 312 * Translate a method reference into an invokedynamic call to the
rfield@1380 313 * meta-factory.
rfield@1380 314 * @param tree
rfield@1380 315 */
rfield@1380 316 @Override
rfield@1380 317 public void visitReference(JCMemberReference tree) {
rfield@1380 318 ReferenceTranslationContext localContext = (ReferenceTranslationContext)context;
rfield@1380 319
rfield@1380 320 //first determine the method symbol to be used to generate the sam instance
rfield@1380 321 //this is either the method reference symbol, or the bridged reference symbol
rfield@1380 322 Symbol refSym = localContext.needsBridge() ?
rfield@1380 323 localContext.bridgeSym :
rfield@1380 324 tree.sym;
rfield@1380 325
rfield@1380 326 //build the bridge method, if needed
rfield@1380 327 if (localContext.needsBridge()) {
rfield@1380 328 bridgeMemberReference(tree, localContext);
rfield@1380 329 }
rfield@1380 330
rfield@1380 331 //the qualifying expression is treated as a special captured arg
rfield@1380 332 JCExpression init;
rfield@1380 333 switch(tree.kind) {
rfield@1380 334
mcimadamore@1435 335 case IMPLICIT_INNER: /** Inner :: new */
mcimadamore@1435 336 case SUPER: /** super :: instMethod */
rfield@1380 337 init = makeThis(
rfield@1587 338 localContext.owner.enclClass().asType(),
rfield@1587 339 localContext.owner.enclClass());
rfield@1380 340 break;
rfield@1380 341
mcimadamore@1435 342 case BOUND: /** Expr :: instMethod */
rfield@1380 343 init = tree.getQualifierExpression();
rfield@1380 344 break;
rfield@1380 345
mcimadamore@1435 346 case UNBOUND: /** Type :: instMethod */
mcimadamore@1435 347 case STATIC: /** Type :: staticMethod */
mcimadamore@1435 348 case TOPLEVEL: /** Top level :: new */
mcimadamore@1496 349 case ARRAY_CTOR: /** ArrayType :: new */
rfield@1380 350 init = null;
rfield@1380 351 break;
rfield@1380 352
rfield@1380 353 default:
rfield@1380 354 throw new InternalError("Should not have an invalid kind");
rfield@1380 355 }
rfield@1380 356
rfield@1380 357 List<JCExpression> indy_args = init==null? List.<JCExpression>nil() : translate(List.of(init), localContext.prev);
rfield@1380 358
rfield@1380 359
rfield@1380 360 //build a sam instance using an indy call to the meta-factory
rfield@1587 361 result = makeMetaFactoryIndyCall(tree, localContext.needsAltMetafactory(), localContext.isSerializable(), localContext.referenceKind(), refSym, indy_args);
rfield@1380 362 }
rfield@1380 363
rfield@1380 364 /**
rfield@1380 365 * Translate identifiers within a lambda to the mapped identifier
rfield@1380 366 * @param tree
rfield@1380 367 */
rfield@1380 368 @Override
rfield@1380 369 public void visitIdent(JCIdent tree) {
rfield@1380 370 if (context == null || !analyzer.lambdaIdentSymbolFilter(tree.sym)) {
rfield@1380 371 super.visitIdent(tree);
rfield@1380 372 } else {
rfield@1380 373 LambdaTranslationContext lambdaContext = (LambdaTranslationContext) context;
rfield@1380 374 if (lambdaContext.getSymbolMap(PARAM).containsKey(tree.sym)) {
rfield@1380 375 Symbol translatedSym = lambdaContext.getSymbolMap(PARAM).get(tree.sym);
rfield@1380 376 result = make.Ident(translatedSym).setType(tree.type);
rfield@1380 377 } else if (lambdaContext.getSymbolMap(LOCAL_VAR).containsKey(tree.sym)) {
rfield@1380 378 Symbol translatedSym = lambdaContext.getSymbolMap(LOCAL_VAR).get(tree.sym);
rfield@1380 379 result = make.Ident(translatedSym).setType(tree.type);
rfield@1587 380 } else if (lambdaContext.getSymbolMap(TYPE_VAR).containsKey(tree.sym)) {
rfield@1587 381 Symbol translatedSym = lambdaContext.getSymbolMap(TYPE_VAR).get(tree.sym);
rfield@1587 382 result = make.Ident(translatedSym).setType(translatedSym.type);
rfield@1380 383 } else if (lambdaContext.getSymbolMap(CAPTURED_VAR).containsKey(tree.sym)) {
rfield@1380 384 Symbol translatedSym = lambdaContext.getSymbolMap(CAPTURED_VAR).get(tree.sym);
rfield@1380 385 result = make.Ident(translatedSym).setType(tree.type);
rfield@1380 386 } else {
rfield@1380 387 if (tree.sym.owner.kind == Kinds.TYP) {
rfield@1380 388 for (Map.Entry<Symbol, Symbol> encl_entry : lambdaContext.getSymbolMap(CAPTURED_THIS).entrySet()) {
rfield@1380 389 if (tree.sym.isMemberOf((ClassSymbol) encl_entry.getKey(), types)) {
rfield@1380 390 JCExpression enclRef = make.Ident(encl_entry.getValue());
rfield@1380 391 result = tree.sym.name == names._this
rfield@1380 392 ? enclRef.setType(tree.type)
rfield@1380 393 : make.Select(enclRef, tree.sym).setType(tree.type);
rfield@1380 394 result = tree;
rfield@1380 395 return;
rfield@1380 396 }
rfield@1380 397 }
rfield@1380 398 }
rfield@1380 399 //access to untranslated symbols (i.e. compile-time constants,
rfield@1380 400 //members defined inside the lambda body, etc.) )
rfield@1380 401 super.visitIdent(tree);
rfield@1380 402 }
rfield@1380 403 }
rfield@1380 404 }
rfield@1380 405
rfield@1380 406 @Override
rfield@1380 407 public void visitVarDef(JCVariableDecl tree) {
rfield@1380 408 LambdaTranslationContext lambdaContext = (LambdaTranslationContext)context;
rfield@1380 409 if (context != null && lambdaContext.getSymbolMap(LOCAL_VAR).containsKey(tree.sym)) {
rfield@1380 410 JCExpression init = translate(tree.init);
rfield@1380 411 result = make.VarDef((VarSymbol)lambdaContext.getSymbolMap(LOCAL_VAR).get(tree.sym), init);
rfield@1587 412 } else if (context != null && lambdaContext.getSymbolMap(TYPE_VAR).containsKey(tree.sym)) {
rfield@1587 413 JCExpression init = translate(tree.init);
rfield@1587 414 VarSymbol xsym = (VarSymbol)lambdaContext.getSymbolMap(TYPE_VAR).get(tree.sym);
rfield@1587 415 result = make.VarDef(xsym, init);
rfield@1587 416 // Replace the entered symbol for this variable
rfield@1587 417 Scope sc = tree.sym.owner.members();
rfield@1587 418 if (sc != null) {
rfield@1587 419 sc.remove(tree.sym);
rfield@1587 420 sc.enter(xsym);
rfield@1587 421 }
rfield@1380 422 } else {
rfield@1380 423 super.visitVarDef(tree);
rfield@1380 424 }
rfield@1380 425 }
rfield@1380 426
rfield@1380 427 // </editor-fold>
rfield@1380 428
rfield@1380 429 // <editor-fold defaultstate="collapsed" desc="Translation helper methods">
rfield@1380 430
rfield@1380 431 private JCBlock makeLambdaBody(JCLambda tree, JCMethodDecl lambdaMethodDecl) {
rfield@1380 432 return tree.getBodyKind() == JCLambda.BodyKind.EXPRESSION ?
rfield@1380 433 makeLambdaExpressionBody((JCExpression)tree.body, lambdaMethodDecl) :
rfield@1380 434 makeLambdaStatementBody((JCBlock)tree.body, lambdaMethodDecl, tree.canCompleteNormally);
rfield@1380 435 }
rfield@1380 436
rfield@1380 437 private JCBlock makeLambdaExpressionBody(JCExpression expr, JCMethodDecl lambdaMethodDecl) {
rfield@1380 438 Type restype = lambdaMethodDecl.type.getReturnType();
rfield@1380 439 boolean isLambda_void = expr.type.hasTag(VOID);
rfield@1380 440 boolean isTarget_void = restype.hasTag(VOID);
rfield@1380 441 boolean isTarget_Void = types.isSameType(restype, types.boxedClass(syms.voidType).type);
rfield@1380 442 if (isTarget_void) {
rfield@1380 443 //target is void:
rfield@1380 444 // BODY;
rfield@1380 445 JCStatement stat = make.Exec(expr);
rfield@1380 446 return make.Block(0, List.<JCStatement>of(stat));
rfield@1380 447 } else if (isLambda_void && isTarget_Void) {
rfield@1380 448 //void to Void conversion:
rfield@1380 449 // BODY; return null;
rfield@1380 450 ListBuffer<JCStatement> stats = ListBuffer.lb();
rfield@1380 451 stats.append(make.Exec(expr));
rfield@1380 452 stats.append(make.Return(make.Literal(BOT, null).setType(syms.botType)));
rfield@1380 453 return make.Block(0, stats.toList());
rfield@1380 454 } else {
rfield@1380 455 //non-void to non-void conversion:
rfield@1380 456 // return (TYPE)BODY;
rfield@1380 457 JCExpression retExpr = transTypes.coerce(attrEnv, expr, restype);
rfield@1380 458 return make.Block(0, List.<JCStatement>of(make.Return(retExpr)));
rfield@1380 459 }
rfield@1380 460 }
rfield@1380 461
rfield@1380 462 private JCBlock makeLambdaStatementBody(JCBlock block, final JCMethodDecl lambdaMethodDecl, boolean completeNormally) {
rfield@1380 463 final Type restype = lambdaMethodDecl.type.getReturnType();
rfield@1380 464 final boolean isTarget_void = restype.hasTag(VOID);
rfield@1380 465 boolean isTarget_Void = types.isSameType(restype, types.boxedClass(syms.voidType).type);
rfield@1380 466
rfield@1380 467 class LambdaBodyTranslator extends TreeTranslator {
rfield@1380 468
rfield@1380 469 @Override
rfield@1380 470 public void visitClassDef(JCClassDecl tree) {
rfield@1380 471 //do NOT recurse on any inner classes
rfield@1380 472 result = tree;
rfield@1380 473 }
rfield@1380 474
rfield@1380 475 @Override
rfield@1380 476 public void visitLambda(JCLambda tree) {
rfield@1380 477 //do NOT recurse on any nested lambdas
rfield@1380 478 result = tree;
rfield@1380 479 }
rfield@1380 480
rfield@1380 481 @Override
rfield@1380 482 public void visitReturn(JCReturn tree) {
rfield@1380 483 boolean isLambda_void = tree.expr == null;
rfield@1380 484 if (isTarget_void && !isLambda_void) {
rfield@1380 485 //Void to void conversion:
rfield@1380 486 // { TYPE $loc = RET-EXPR; return; }
rfield@1380 487 VarSymbol loc = makeSyntheticVar(0, names.fromString("$loc"), tree.expr.type, lambdaMethodDecl.sym);
rfield@1380 488 JCVariableDecl varDef = make.VarDef(loc, tree.expr);
rfield@1380 489 result = make.Block(0, List.<JCStatement>of(varDef, make.Return(null)));
rfield@1380 490 } else if (!isTarget_void || !isLambda_void) {
rfield@1380 491 //non-void to non-void conversion:
rfield@1380 492 // return (TYPE)RET-EXPR;
rfield@1380 493 tree.expr = transTypes.coerce(attrEnv, tree.expr, restype);
rfield@1380 494 result = tree;
rfield@1380 495 } else {
rfield@1380 496 result = tree;
rfield@1380 497 }
rfield@1380 498
rfield@1380 499 }
rfield@1380 500 }
rfield@1380 501
rfield@1380 502 JCBlock trans_block = new LambdaBodyTranslator().translate(block);
rfield@1380 503 if (completeNormally && isTarget_Void) {
rfield@1380 504 //there's no return statement and the lambda (possibly inferred)
rfield@1380 505 //return type is java.lang.Void; emit a synthetic return statement
rfield@1380 506 trans_block.stats = trans_block.stats.append(make.Return(make.Literal(BOT, null).setType(syms.botType)));
rfield@1380 507 }
rfield@1380 508 return trans_block;
rfield@1380 509 }
rfield@1380 510
rfield@1587 511 private JCMethodDecl makeDeserializeMethod(Symbol kSym) {
rfield@1587 512 ListBuffer<JCCase> cases = ListBuffer.lb();
rfield@1587 513 ListBuffer<JCBreak> breaks = ListBuffer.lb();
rfield@1587 514 for (Map.Entry<String, ListBuffer<JCStatement>> entry : kInfo.deserializeCases.entrySet()) {
rfield@1587 515 JCBreak br = make.Break(null);
rfield@1587 516 breaks.add(br);
rfield@1587 517 List<JCStatement> stmts = entry.getValue().append(br).toList();
rfield@1587 518 cases.add(make.Case(make.Literal(entry.getKey()), stmts));
rfield@1587 519 }
rfield@1587 520 JCSwitch sw = make.Switch(deserGetter("getImplMethodName", syms.stringType), cases.toList());
rfield@1587 521 for (JCBreak br : breaks) {
rfield@1587 522 br.target = sw;
rfield@1587 523 }
rfield@1587 524 JCBlock body = make.Block(0L, List.<JCStatement>of(
rfield@1587 525 sw,
rfield@1587 526 make.Throw(makeNewClass(
rfield@1587 527 syms.illegalArgumentExceptionType,
rfield@1587 528 List.<JCExpression>of(make.Literal("Invalid lambda deserialization"))))));
rfield@1587 529 JCMethodDecl deser = make.MethodDef(make.Modifiers(kInfo.deserMethodSym.flags()),
rfield@1587 530 names.deserializeLambda,
rfield@1587 531 make.QualIdent(kInfo.deserMethodSym.getReturnType().tsym),
rfield@1587 532 List.<JCTypeParameter>nil(),
rfield@1587 533 List.of(make.VarDef(kInfo.deserParamSym, null)),
rfield@1587 534 List.<JCExpression>nil(),
rfield@1587 535 body,
rfield@1587 536 null);
rfield@1587 537 deser.sym = kInfo.deserMethodSym;
rfield@1587 538 deser.type = kInfo.deserMethodSym.type;
rfield@1587 539 //System.err.printf("DESER: '%s'\n", deser);
rfield@1587 540 return deser;
rfield@1587 541 }
rfield@1587 542
rfield@1587 543 /** Make an attributed class instance creation expression.
rfield@1587 544 * @param ctype The class type.
rfield@1587 545 * @param args The constructor arguments.
rfield@1587 546 */
rfield@1587 547 JCNewClass makeNewClass(Type ctype, List<JCExpression> args) {
rfield@1587 548 JCNewClass tree = make.NewClass(null,
rfield@1587 549 null, make.QualIdent(ctype.tsym), args, null);
rfield@1587 550 tree.constructor = rs.resolveConstructor(
rfield@1587 551 null, attrEnv, ctype, TreeInfo.types(args), List.<Type>nil());
rfield@1587 552 tree.type = ctype;
rfield@1587 553 return tree;
rfield@1587 554 }
rfield@1587 555
rfield@1587 556 private void addDeserializationCase(int implMethodKind, Symbol refSym, Type targetType, MethodSymbol samSym,
rfield@1587 557 DiagnosticPosition pos, List<Object> staticArgs, MethodType indyType) {
rfield@1587 558 String functionalInterfaceClass = classSig(targetType);
rfield@1587 559 String functionalInterfaceMethodName = samSym.getSimpleName().toString();
rfield@1587 560 String functionalInterfaceMethodSignature = methodSig(types.erasure(samSym.type));
rfield@1622 561 String implClass = classSig(types.erasure(refSym.owner.type));
rfield@1587 562 String implMethodName = refSym.getQualifiedName().toString();
rfield@1587 563 String implMethodSignature = methodSig(types.erasure(refSym.type));
rfield@1587 564
rfield@1587 565 JCExpression kindTest = eqTest(syms.intType, deserGetter("getImplMethodKind", syms.intType), make.Literal(implMethodKind));
rfield@1587 566 ListBuffer<JCExpression> serArgs = ListBuffer.lb();
rfield@1587 567 int i = 0;
rfield@1587 568 for (Type t : indyType.getParameterTypes()) {
rfield@1587 569 List<JCExpression> indexAsArg = ListBuffer.<JCExpression>lb().append(make.Literal(i)).toList();
rfield@1587 570 List<Type> argTypes = ListBuffer.<Type>lb().append(syms.intType).toList();
rfield@1587 571 serArgs.add(make.TypeCast(types.erasure(t), deserGetter("getCapturedArg", syms.objectType, argTypes, indexAsArg)));
rfield@1587 572 ++i;
rfield@1587 573 }
rfield@1587 574 JCStatement stmt = make.If(
rfield@1587 575 deserTest(deserTest(deserTest(deserTest(deserTest(
rfield@1587 576 kindTest,
rfield@1587 577 "getFunctionalInterfaceClass", functionalInterfaceClass),
rfield@1587 578 "getFunctionalInterfaceMethodName", functionalInterfaceMethodName),
rfield@1587 579 "getFunctionalInterfaceMethodSignature", functionalInterfaceMethodSignature),
rfield@1587 580 "getImplClass", implClass),
rfield@1587 581 "getImplMethodSignature", implMethodSignature),
rfield@1587 582 make.Return(makeIndyCall(
rfield@1587 583 pos,
rfield@1587 584 syms.lambdaMetafactory,
rfield@1587 585 names.altMetaFactory,
rfield@1587 586 staticArgs, indyType, serArgs.toList())),
rfield@1587 587 null);
rfield@1587 588 ListBuffer<JCStatement> stmts = kInfo.deserializeCases.get(implMethodName);
rfield@1587 589 if (stmts == null) {
rfield@1587 590 stmts = ListBuffer.lb();
rfield@1587 591 kInfo.deserializeCases.put(implMethodName, stmts);
rfield@1587 592 }
rfield@1587 593 /****
rfield@1587 594 System.err.printf("+++++++++++++++++\n");
rfield@1587 595 System.err.printf("*functionalInterfaceClass: '%s'\n", functionalInterfaceClass);
rfield@1587 596 System.err.printf("*functionalInterfaceMethodName: '%s'\n", functionalInterfaceMethodName);
rfield@1587 597 System.err.printf("*functionalInterfaceMethodSignature: '%s'\n", functionalInterfaceMethodSignature);
rfield@1587 598 System.err.printf("*implMethodKind: %d\n", implMethodKind);
rfield@1587 599 System.err.printf("*implClass: '%s'\n", implClass);
rfield@1587 600 System.err.printf("*implMethodName: '%s'\n", implMethodName);
rfield@1587 601 System.err.printf("*implMethodSignature: '%s'\n", implMethodSignature);
rfield@1587 602 ****/
rfield@1587 603 stmts.append(stmt);
rfield@1587 604 }
rfield@1587 605
rfield@1587 606 private JCExpression eqTest(Type argType, JCExpression arg1, JCExpression arg2) {
rfield@1587 607 JCBinary testExpr = make.Binary(JCTree.Tag.EQ, arg1, arg2);
rfield@1587 608 testExpr.operator = rs.resolveBinaryOperator(null, JCTree.Tag.EQ, attrEnv, argType, argType);
rfield@1587 609 testExpr.setType(syms.booleanType);
rfield@1587 610 return testExpr;
rfield@1587 611 }
rfield@1587 612
rfield@1587 613 private JCExpression deserTest(JCExpression prev, String func, String lit) {
rfield@1587 614 MethodType eqmt = new MethodType(List.of(syms.objectType), syms.booleanType, List.<Type>nil(), syms.methodClass);
rfield@1587 615 Symbol eqsym = rs.resolveQualifiedMethod(null, attrEnv, syms.objectType, names.equals, List.of(syms.objectType), List.<Type>nil());
rfield@1587 616 JCMethodInvocation eqtest = make.Apply(
rfield@1587 617 List.<JCExpression>nil(),
rfield@1587 618 make.Select(deserGetter(func, syms.stringType), eqsym).setType(eqmt),
rfield@1587 619 List.<JCExpression>of(make.Literal(lit)));
rfield@1587 620 eqtest.setType(syms.booleanType);
rfield@1587 621 JCBinary compound = make.Binary(JCTree.Tag.AND, prev, eqtest);
rfield@1587 622 compound.operator = rs.resolveBinaryOperator(null, JCTree.Tag.AND, attrEnv, syms.booleanType, syms.booleanType);
rfield@1587 623 compound.setType(syms.booleanType);
rfield@1587 624 return compound;
rfield@1587 625 }
rfield@1587 626
rfield@1587 627 private JCExpression deserGetter(String func, Type type) {
rfield@1587 628 return deserGetter(func, type, List.<Type>nil(), List.<JCExpression>nil());
rfield@1587 629 }
rfield@1587 630
rfield@1587 631 private JCExpression deserGetter(String func, Type type, List<Type> argTypes, List<JCExpression> args) {
rfield@1587 632 MethodType getmt = new MethodType(argTypes, type, List.<Type>nil(), syms.methodClass);
rfield@1587 633 Symbol getsym = rs.resolveQualifiedMethod(null, attrEnv, syms.serializedLambdaType, names.fromString(func), argTypes, List.<Type>nil());
rfield@1587 634 return make.Apply(
rfield@1587 635 List.<JCExpression>nil(),
rfield@1587 636 make.Select(make.Ident(kInfo.deserParamSym).setType(syms.serializedLambdaType), getsym).setType(getmt),
rfield@1587 637 args).setType(type);
rfield@1587 638 }
rfield@1587 639
rfield@1380 640 /**
rfield@1380 641 * Create new synthetic method with given flags, name, type, owner
rfield@1380 642 */
rfield@1380 643 private MethodSymbol makeSyntheticMethod(long flags, Name name, Type type, Symbol owner) {
rfield@1380 644 return new MethodSymbol(flags | SYNTHETIC, name, type, owner);
rfield@1380 645 }
rfield@1380 646
rfield@1380 647 /**
rfield@1380 648 * Create new synthetic variable with given flags, name, type, owner
rfield@1380 649 */
rfield@1380 650 private VarSymbol makeSyntheticVar(long flags, String name, Type type, Symbol owner) {
rfield@1380 651 return makeSyntheticVar(flags, names.fromString(name), type, owner);
rfield@1380 652 }
rfield@1380 653
rfield@1380 654 /**
rfield@1380 655 * Create new synthetic variable with given flags, name, type, owner
rfield@1380 656 */
rfield@1380 657 private VarSymbol makeSyntheticVar(long flags, Name name, Type type, Symbol owner) {
rfield@1380 658 return new VarSymbol(flags | SYNTHETIC, name, type, owner);
rfield@1380 659 }
rfield@1380 660
rfield@1380 661 /**
rfield@1380 662 * Set varargsElement field on a given tree (must be either a new class tree
rfield@1380 663 * or a method call tree)
rfield@1380 664 */
rfield@1380 665 private void setVarargsIfNeeded(JCTree tree, Type varargsElement) {
rfield@1380 666 if (varargsElement != null) {
rfield@1380 667 switch (tree.getTag()) {
rfield@1380 668 case APPLY: ((JCMethodInvocation)tree).varargsElement = varargsElement; break;
rfield@1380 669 case NEWCLASS: ((JCNewClass)tree).varargsElement = varargsElement; break;
rfield@1380 670 default: throw new AssertionError();
rfield@1380 671 }
rfield@1380 672 }
rfield@1380 673 }
rfield@1380 674
rfield@1380 675 /**
rfield@1380 676 * Convert method/constructor arguments by inserting appropriate cast
rfield@1380 677 * as required by type-erasure - this is needed when bridging a lambda/method
rfield@1380 678 * reference, as the bridged signature might require downcast to be compatible
rfield@1380 679 * with the generated signature.
rfield@1380 680 */
rfield@1380 681 private List<JCExpression> convertArgs(Symbol meth, List<JCExpression> args, Type varargsElement) {
rfield@1380 682 Assert.check(meth.kind == Kinds.MTH);
rfield@1380 683 List<Type> formals = types.erasure(meth.type).getParameterTypes();
rfield@1380 684 if (varargsElement != null) {
rfield@1380 685 Assert.check((meth.flags() & VARARGS) != 0);
rfield@1380 686 }
rfield@1380 687 return transTypes.translateArgs(args, formals, varargsElement, attrEnv);
rfield@1380 688 }
rfield@1380 689
rfield@1380 690 // </editor-fold>
rfield@1380 691
rfield@1380 692 /**
rfield@1380 693 * Generate an adapter method "bridge" for a method reference which cannot
rfield@1380 694 * be used directly.
rfield@1380 695 */
rfield@1380 696 private class MemberReferenceBridger {
rfield@1380 697
rfield@1380 698 private final JCMemberReference tree;
rfield@1380 699 private final ReferenceTranslationContext localContext;
rfield@1380 700 private final ListBuffer<JCExpression> args = ListBuffer.lb();
rfield@1380 701 private final ListBuffer<JCVariableDecl> params = ListBuffer.lb();
rfield@1380 702
rfield@1380 703 MemberReferenceBridger(JCMemberReference tree, ReferenceTranslationContext localContext) {
rfield@1380 704 this.tree = tree;
rfield@1380 705 this.localContext = localContext;
rfield@1380 706 }
rfield@1380 707
rfield@1380 708 /**
rfield@1380 709 * Generate the bridge
rfield@1380 710 */
rfield@1380 711 JCMethodDecl bridge() {
rfield@1380 712 int prevPos = make.pos;
rfield@1380 713 try {
rfield@1380 714 make.at(tree);
rfield@1380 715 Type samDesc = localContext.bridgedRefSig();
rfield@1380 716 List<Type> samPTypes = samDesc.getParameterTypes();
rfield@1380 717
rfield@1380 718 //an extra argument is prepended to the signature of the bridge in case
rfield@1380 719 //the member reference is an instance method reference (in which case
rfield@1380 720 //the receiver expression is passed to the bridge itself).
rfield@1380 721 Type recType = null;
rfield@1380 722 switch (tree.kind) {
rfield@1380 723 case IMPLICIT_INNER:
rfield@1380 724 recType = tree.sym.owner.type.getEnclosingType();
rfield@1380 725 break;
rfield@1380 726 case BOUND:
rfield@1380 727 recType = tree.getQualifierExpression().type;
rfield@1380 728 break;
rfield@1380 729 case UNBOUND:
rfield@1380 730 recType = samPTypes.head;
rfield@1380 731 samPTypes = samPTypes.tail;
rfield@1380 732 break;
rfield@1380 733 }
rfield@1380 734
rfield@1380 735 //generate the parameter list for the bridged member reference - the
rfield@1380 736 //bridge signature will match the signature of the target sam descriptor
rfield@1380 737
rfield@1380 738 VarSymbol rcvr = (recType == null)
rfield@1380 739 ? null
rfield@1380 740 : addParameter("rec$", recType, false);
rfield@1380 741
rfield@1380 742 List<Type> refPTypes = tree.sym.type.getParameterTypes();
rfield@1380 743 int refSize = refPTypes.size();
rfield@1380 744 int samSize = samPTypes.size();
mcimadamore@1595 745 // Last parameter to copy from referenced method
mcimadamore@1595 746 int last = localContext.needsVarArgsConversion() ? refSize - 1 : refSize;
rfield@1380 747
rfield@1380 748 List<Type> l = refPTypes;
rfield@1380 749 // Use parameter types of the referenced method, excluding final var args
rfield@1380 750 for (int i = 0; l.nonEmpty() && i < last; ++i) {
rfield@1380 751 addParameter("x$" + i, l.head, true);
rfield@1380 752 l = l.tail;
rfield@1380 753 }
rfield@1380 754 // Flatten out the var args
rfield@1380 755 for (int i = last; i < samSize; ++i) {
rfield@1380 756 addParameter("xva$" + i, tree.varargsElement, true);
rfield@1380 757 }
rfield@1380 758
rfield@1380 759 //generate the bridge method declaration
rfield@1380 760 JCMethodDecl bridgeDecl = make.MethodDef(make.Modifiers(localContext.bridgeSym.flags()),
rfield@1380 761 localContext.bridgeSym.name,
rfield@1380 762 make.QualIdent(samDesc.getReturnType().tsym),
rfield@1380 763 List.<JCTypeParameter>nil(),
rfield@1380 764 params.toList(),
rfield@1380 765 tree.sym.type.getThrownTypes() == null
rfield@1380 766 ? List.<JCExpression>nil()
rfield@1380 767 : make.Types(tree.sym.type.getThrownTypes()),
rfield@1380 768 null,
rfield@1380 769 null);
rfield@1380 770 bridgeDecl.sym = (MethodSymbol) localContext.bridgeSym;
mcimadamore@1595 771 bridgeDecl.type = localContext.bridgeSym.type =
mcimadamore@1595 772 types.createMethodTypeWithParameters(samDesc, TreeInfo.types(params.toList()));
rfield@1380 773
rfield@1380 774 //bridge method body generation - this can be either a method call or a
rfield@1380 775 //new instance creation expression, depending on the member reference kind
rfield@1380 776 JCExpression bridgeExpr = (tree.getMode() == ReferenceMode.INVOKE)
mcimadamore@1614 777 ? bridgeExpressionInvoke(makeReceiver(rcvr))
rfield@1380 778 : bridgeExpressionNew();
rfield@1380 779
rfield@1380 780 //the body is either a return expression containing a method call,
rfield@1380 781 //or the method call itself, depending on whether the return type of
rfield@1380 782 //the bridge is non-void/void.
rfield@1380 783 bridgeDecl.body = makeLambdaExpressionBody(bridgeExpr, bridgeDecl);
rfield@1380 784
rfield@1380 785 return bridgeDecl;
rfield@1380 786 } finally {
rfield@1380 787 make.at(prevPos);
rfield@1380 788 }
rfield@1380 789 }
mcimadamore@1614 790 //where
mcimadamore@1614 791 private JCExpression makeReceiver(VarSymbol rcvr) {
mcimadamore@1614 792 if (rcvr == null) return null;
mcimadamore@1614 793 JCExpression rcvrExpr = make.Ident(rcvr);
mcimadamore@1614 794 Type rcvrType = tree.sym.enclClass().type;
mcimadamore@1614 795 if (!rcvr.type.tsym.isSubClass(rcvrType.tsym, types)) {
mcimadamore@1614 796 rcvrExpr = make.TypeCast(make.Type(rcvrType), rcvrExpr).setType(rcvrType);
mcimadamore@1614 797 }
mcimadamore@1614 798 return rcvrExpr;
mcimadamore@1614 799 }
rfield@1380 800
rfield@1380 801 /**
rfield@1380 802 * determine the receiver of the bridged method call - the receiver can
rfield@1380 803 * be either the synthetic receiver parameter or a type qualifier; the
rfield@1380 804 * original qualifier expression is never used here, as it might refer
rfield@1380 805 * to symbols not available in the static context of the bridge
rfield@1380 806 */
mcimadamore@1614 807 private JCExpression bridgeExpressionInvoke(JCExpression rcvr) {
rfield@1380 808 JCExpression qualifier =
rfield@1380 809 tree.sym.isStatic() ?
rfield@1380 810 make.Type(tree.sym.owner.type) :
rfield@1380 811 (rcvr != null) ?
mcimadamore@1614 812 rcvr :
rfield@1380 813 tree.getQualifierExpression();
rfield@1380 814
rfield@1380 815 //create the qualifier expression
rfield@1380 816 JCFieldAccess select = make.Select(qualifier, tree.sym.name);
rfield@1380 817 select.sym = tree.sym;
rfield@1380 818 select.type = tree.sym.erasure(types);
rfield@1380 819
rfield@1380 820 //create the method call expression
rfield@1380 821 JCExpression apply = make.Apply(List.<JCExpression>nil(), select,
mcimadamore@1595 822 convertArgs(tree.sym, args.toList(), tree.varargsElement)).
mcimadamore@1595 823 setType(tree.sym.erasure(types).getReturnType());
rfield@1380 824
rfield@1380 825 apply = transTypes.coerce(apply, localContext.generatedRefSig().getReturnType());
rfield@1380 826 setVarargsIfNeeded(apply, tree.varargsElement);
rfield@1380 827 return apply;
rfield@1380 828 }
rfield@1380 829
rfield@1380 830 /**
rfield@1380 831 * the enclosing expression is either 'null' (no enclosing type) or set
rfield@1380 832 * to the first bridge synthetic parameter
rfield@1380 833 */
rfield@1380 834 private JCExpression bridgeExpressionNew() {
mcimadamore@1496 835 if (tree.kind == ReferenceKind.ARRAY_CTOR) {
mcimadamore@1496 836 //create the array creation expression
mcimadamore@1595 837 JCNewArray newArr = make.NewArray(
mcimadamore@1595 838 make.Type(types.elemtype(tree.getQualifierExpression().type)),
mcimadamore@1496 839 List.of(make.Ident(params.first())),
mcimadamore@1496 840 null);
mcimadamore@1496 841 newArr.type = tree.getQualifierExpression().type;
mcimadamore@1496 842 return newArr;
mcimadamore@1496 843 } else {
mcimadamore@1496 844 JCExpression encl = null;
mcimadamore@1496 845 switch (tree.kind) {
mcimadamore@1496 846 case UNBOUND:
mcimadamore@1496 847 case IMPLICIT_INNER:
mcimadamore@1496 848 encl = make.Ident(params.first());
mcimadamore@1496 849 }
mcimadamore@1496 850
mcimadamore@1496 851 //create the instance creation expression
mcimadamore@1496 852 JCNewClass newClass = make.NewClass(encl,
mcimadamore@1496 853 List.<JCExpression>nil(),
mcimadamore@1496 854 make.Type(tree.getQualifierExpression().type),
mcimadamore@1496 855 convertArgs(tree.sym, args.toList(), tree.varargsElement),
mcimadamore@1496 856 null);
mcimadamore@1496 857 newClass.constructor = tree.sym;
mcimadamore@1496 858 newClass.constructorType = tree.sym.erasure(types);
mcimadamore@1496 859 newClass.type = tree.getQualifierExpression().type;
mcimadamore@1496 860 setVarargsIfNeeded(newClass, tree.varargsElement);
mcimadamore@1496 861 return newClass;
rfield@1380 862 }
rfield@1380 863 }
rfield@1380 864
rfield@1380 865 private VarSymbol addParameter(String name, Type p, boolean genArg) {
rfield@1380 866 VarSymbol vsym = new VarSymbol(0, names.fromString(name), p, localContext.bridgeSym);
rfield@1380 867 params.append(make.VarDef(vsym, null));
rfield@1380 868 if (genArg) {
rfield@1380 869 args.append(make.Ident(vsym));
rfield@1380 870 }
rfield@1380 871 return vsym;
rfield@1380 872 }
rfield@1380 873 }
rfield@1380 874
rfield@1380 875 /**
rfield@1380 876 * Bridges a member reference - this is needed when:
rfield@1380 877 * * Var args in the referenced method need to be flattened away
rfield@1380 878 * * super is used
rfield@1380 879 */
rfield@1380 880 private void bridgeMemberReference(JCMemberReference tree, ReferenceTranslationContext localContext) {
rfield@1587 881 kInfo.addMethod(new MemberReferenceBridger(tree, localContext).bridge());
rfield@1380 882 }
rfield@1380 883
rfield@1380 884 /**
rfield@1380 885 * Generate an indy method call to the meta factory
rfield@1380 886 */
rfield@1587 887 private JCExpression makeMetaFactoryIndyCall(JCFunctionalExpression tree, boolean needsAltMetafactory,
rfield@1587 888 boolean isSerializable, int refKind, Symbol refSym, List<JCExpression> indy_args) {
rfield@1380 889 //determine the static bsm args
mcimadamore@1510 890 Type mtype = types.erasure(tree.descriptorType);
mcimadamore@1510 891 MethodSymbol samSym = (MethodSymbol) types.findDescriptorSymbol(tree.type.tsym);
rfield@1380 892 List<Object> staticArgs = List.<Object>of(
mcimadamore@1595 893 new Pool.MethodHandle(ClassFile.REF_invokeInterface,
mcimadamore@1595 894 types.findDescriptorSymbol(tree.type.tsym), types),
vromero@1452 895 new Pool.MethodHandle(refKind, refSym, types),
rfield@1380 896 new MethodType(mtype.getParameterTypes(),
rfield@1380 897 mtype.getReturnType(),
rfield@1380 898 mtype.getThrownTypes(),
rfield@1380 899 syms.methodClass));
rfield@1380 900
rfield@1380 901 //computed indy arg types
rfield@1380 902 ListBuffer<Type> indy_args_types = ListBuffer.lb();
rfield@1380 903 for (JCExpression arg : indy_args) {
rfield@1380 904 indy_args_types.append(arg.type);
rfield@1380 905 }
rfield@1380 906
rfield@1380 907 //finally, compute the type of the indy call
rfield@1380 908 MethodType indyType = new MethodType(indy_args_types.toList(),
rfield@1380 909 tree.type,
rfield@1380 910 List.<Type>nil(),
rfield@1380 911 syms.methodClass);
rfield@1380 912
rfield@1587 913 Name metafactoryName = needsAltMetafactory ?
rfield@1587 914 names.altMetaFactory : names.metaFactory;
rfield@1587 915
rfield@1587 916 if (needsAltMetafactory) {
rfield@1587 917 ListBuffer<Object> markers = ListBuffer.lb();
rfield@1587 918 for (Symbol t : tree.targets.tail) {
rfield@1587 919 if (t != syms.serializableType.tsym) {
rfield@1587 920 markers.append(t);
rfield@1587 921 }
rfield@1587 922 }
rfield@1587 923 int flags = isSerializable? FLAG_SERIALIZABLE : 0;
rfield@1587 924 boolean hasMarkers = markers.nonEmpty();
rfield@1587 925 flags |= hasMarkers ? FLAG_MARKERS : 0;
rfield@1587 926 staticArgs = staticArgs.append(flags);
rfield@1587 927 if (hasMarkers) {
rfield@1587 928 staticArgs = staticArgs.append(markers.length());
rfield@1587 929 staticArgs = staticArgs.appendList(markers.toList());
rfield@1587 930 }
rfield@1587 931 if (isSerializable) {
rfield@1587 932 addDeserializationCase(refKind, refSym, tree.type, samSym,
rfield@1587 933 tree, staticArgs, indyType);
rfield@1587 934 }
rfield@1587 935 }
rfield@1587 936
rfield@1587 937 return makeIndyCall(tree, syms.lambdaMetafactory, metafactoryName, staticArgs, indyType, indy_args);
rfield@1380 938 }
rfield@1380 939
rfield@1380 940 /**
rfield@1380 941 * Generate an indy method call with given name, type and static bootstrap
rfield@1380 942 * arguments types
rfield@1380 943 */
mcimadamore@1595 944 private JCExpression makeIndyCall(DiagnosticPosition pos, Type site, Name bsmName,
mcimadamore@1595 945 List<Object> staticArgs, MethodType indyType, List<JCExpression> indyArgs) {
rfield@1380 946 int prevPos = make.pos;
rfield@1380 947 try {
rfield@1380 948 make.at(pos);
rfield@1380 949 List<Type> bsm_staticArgs = List.of(syms.methodHandleLookupType,
rfield@1380 950 syms.stringType,
rfield@1380 951 syms.methodTypeType).appendList(bsmStaticArgToTypes(staticArgs));
rfield@1380 952
rfield@1380 953 Symbol bsm = rs.resolveInternalMethod(pos, attrEnv, site,
rfield@1380 954 bsmName, bsm_staticArgs, List.<Type>nil());
rfield@1380 955
rfield@1380 956 DynamicMethodSymbol dynSym =
rfield@1380 957 new DynamicMethodSymbol(names.lambda,
rfield@1380 958 syms.noSymbol,
mcimadamore@1595 959 bsm.isStatic() ?
mcimadamore@1595 960 ClassFile.REF_invokeStatic :
mcimadamore@1595 961 ClassFile.REF_invokeVirtual,
rfield@1380 962 (MethodSymbol)bsm,
rfield@1380 963 indyType,
rfield@1380 964 staticArgs.toArray());
rfield@1380 965
rfield@1380 966 JCFieldAccess qualifier = make.Select(make.QualIdent(site.tsym), bsmName);
rfield@1380 967 qualifier.sym = dynSym;
rfield@1380 968 qualifier.type = indyType.getReturnType();
rfield@1380 969
rfield@1380 970 JCMethodInvocation proxyCall = make.Apply(List.<JCExpression>nil(), qualifier, indyArgs);
rfield@1380 971 proxyCall.type = indyType.getReturnType();
rfield@1380 972 return proxyCall;
rfield@1380 973 } finally {
rfield@1380 974 make.at(prevPos);
rfield@1380 975 }
rfield@1380 976 }
rfield@1380 977 //where
rfield@1380 978 private List<Type> bsmStaticArgToTypes(List<Object> args) {
rfield@1380 979 ListBuffer<Type> argtypes = ListBuffer.lb();
rfield@1380 980 for (Object arg : args) {
rfield@1380 981 argtypes.append(bsmStaticArgToType(arg));
rfield@1380 982 }
rfield@1380 983 return argtypes.toList();
rfield@1380 984 }
rfield@1380 985
rfield@1380 986 private Type bsmStaticArgToType(Object arg) {
rfield@1380 987 Assert.checkNonNull(arg);
rfield@1380 988 if (arg instanceof ClassSymbol) {
rfield@1380 989 return syms.classType;
rfield@1380 990 } else if (arg instanceof Integer) {
rfield@1380 991 return syms.intType;
rfield@1380 992 } else if (arg instanceof Long) {
rfield@1380 993 return syms.longType;
rfield@1380 994 } else if (arg instanceof Float) {
rfield@1380 995 return syms.floatType;
rfield@1380 996 } else if (arg instanceof Double) {
rfield@1380 997 return syms.doubleType;
rfield@1380 998 } else if (arg instanceof String) {
rfield@1380 999 return syms.stringType;
rfield@1380 1000 } else if (arg instanceof Pool.MethodHandle) {
rfield@1380 1001 return syms.methodHandleType;
rfield@1380 1002 } else if (arg instanceof MethodType) {
rfield@1380 1003 return syms.methodTypeType;
rfield@1380 1004 } else {
rfield@1380 1005 Assert.error("bad static arg " + arg.getClass());
rfield@1380 1006 return null;
rfield@1380 1007 }
rfield@1380 1008 }
rfield@1380 1009
rfield@1380 1010 /**
rfield@1380 1011 * Get the opcode associated with this method reference
rfield@1380 1012 */
rfield@1380 1013 private int referenceKind(Symbol refSym) {
rfield@1380 1014 if (refSym.isConstructor()) {
rfield@1380 1015 return ClassFile.REF_newInvokeSpecial;
rfield@1380 1016 } else {
rfield@1380 1017 if (refSym.isStatic()) {
rfield@1380 1018 return ClassFile.REF_invokeStatic;
rfield@1380 1019 } else if (refSym.enclClass().isInterface()) {
rfield@1380 1020 return ClassFile.REF_invokeInterface;
rfield@1380 1021 } else {
rfield@1380 1022 return ClassFile.REF_invokeVirtual;
rfield@1380 1023 }
rfield@1380 1024 }
rfield@1380 1025 }
rfield@1587 1026
rfield@1380 1027 // </editor-fold>
rfield@1380 1028
rfield@1380 1029 // <editor-fold defaultstate="collapsed" desc="Lambda/reference analyzer">\
rfield@1380 1030 /**
rfield@1380 1031 * This visitor collects information about translation of a lambda expression.
rfield@1380 1032 * More specifically, it keeps track of the enclosing contexts and captured locals
rfield@1380 1033 * accessed by the lambda being translated (as well as other useful info).
rfield@1380 1034 */
rfield@1380 1035 class LambdaAnalyzer extends TreeScanner {
rfield@1380 1036
rfield@1380 1037 /** the frame stack - used to reconstruct translation info about enclosing scopes */
rfield@1380 1038 private List<Frame> frameStack;
rfield@1380 1039
rfield@1380 1040 /**
rfield@1380 1041 * keep the count of lambda expression (used to generate unambiguous
rfield@1380 1042 * names)
rfield@1380 1043 */
rfield@1380 1044 private int lambdaCount = 0;
rfield@1380 1045
rfield@1587 1046 /**
rfield@1587 1047 * keep the count of lambda expression defined in given context (used to
rfield@1587 1048 * generate unambiguous names for serializable lambdas)
rfield@1587 1049 */
rfield@1587 1050 private Map<String, Integer> serializableLambdaCounts =
rfield@1587 1051 new HashMap<String, Integer>();
rfield@1587 1052
mcimadamore@1612 1053 private Map<Symbol, JCClassDecl> localClassDefs;
mcimadamore@1612 1054
rfield@1587 1055 /**
rfield@1587 1056 * maps for fake clinit symbols to be used as owners of lambda occurring in
rfield@1587 1057 * a static var init context
rfield@1587 1058 */
rfield@1587 1059 private Map<ClassSymbol, Symbol> clinits =
rfield@1587 1060 new HashMap<ClassSymbol, Symbol>();
rfield@1587 1061
rfield@1380 1062 private void analyzeClass(JCClassDecl tree) {
rfield@1380 1063 frameStack = List.nil();
mcimadamore@1612 1064 localClassDefs = new HashMap<Symbol, JCClassDecl>();
rfield@1380 1065 scan(tree);
rfield@1380 1066 }
rfield@1380 1067
rfield@1380 1068 @Override
rfield@1380 1069 public void visitBlock(JCBlock tree) {
rfield@1380 1070 List<Frame> prevStack = frameStack;
rfield@1380 1071 try {
rfield@1380 1072 if (frameStack.nonEmpty() && frameStack.head.tree.hasTag(CLASSDEF)) {
rfield@1380 1073 frameStack = frameStack.prepend(new Frame(tree));
rfield@1380 1074 }
rfield@1380 1075 super.visitBlock(tree);
rfield@1380 1076 }
rfield@1380 1077 finally {
rfield@1380 1078 frameStack = prevStack;
rfield@1380 1079 }
rfield@1380 1080 }
rfield@1380 1081
rfield@1380 1082 @Override
rfield@1380 1083 public void visitClassDef(JCClassDecl tree) {
rfield@1380 1084 List<Frame> prevStack = frameStack;
mcimadamore@1595 1085 Map<String, Integer> prevSerializableLambdaCount =
mcimadamore@1595 1086 serializableLambdaCounts;
rfield@1587 1087 Map<ClassSymbol, Symbol> prevClinits = clinits;
rfield@1380 1088 try {
rfield@1587 1089 serializableLambdaCounts = new HashMap<String, Integer>();
rfield@1587 1090 prevClinits = new HashMap<ClassSymbol, Symbol>();
mcimadamore@1612 1091 if (tree.sym.owner.kind == MTH) {
mcimadamore@1612 1092 localClassDefs.put(tree.sym, tree);
mcimadamore@1612 1093 }
rfield@1587 1094 if (directlyEnclosingLambda() != null) {
rfield@1380 1095 tree.sym.owner = owner();
mcimadamore@1595 1096 if (tree.sym.hasOuterInstance()) {
mcimadamore@1595 1097 //if a class is defined within a lambda, the lambda must capture
mcimadamore@1595 1098 //its enclosing instance (if any)
mcimadamore@1612 1099 TranslationContext<?> localContext = context();
mcimadamore@1612 1100 while (localContext != null) {
mcimadamore@1612 1101 if (localContext.tree.getTag() == LAMBDA) {
mcimadamore@1612 1102 ((LambdaTranslationContext)localContext)
mcimadamore@1612 1103 .addSymbol(tree.sym.type.getEnclosingType().tsym, CAPTURED_THIS);
mcimadamore@1612 1104 }
mcimadamore@1612 1105 localContext = localContext.prev;
mcimadamore@1612 1106 }
rfield@1380 1107 }
rfield@1380 1108 }
rfield@1380 1109 frameStack = frameStack.prepend(new Frame(tree));
rfield@1380 1110 super.visitClassDef(tree);
rfield@1380 1111 }
rfield@1380 1112 finally {
rfield@1380 1113 frameStack = prevStack;
rfield@1587 1114 serializableLambdaCounts = prevSerializableLambdaCount;
rfield@1587 1115 clinits = prevClinits;
rfield@1380 1116 }
rfield@1380 1117 }
rfield@1380 1118
rfield@1380 1119 @Override
rfield@1380 1120 public void visitIdent(JCIdent tree) {
rfield@1587 1121 if (context() != null && lambdaIdentSymbolFilter(tree.sym)) {
rfield@1380 1122 if (tree.sym.kind == VAR &&
rfield@1380 1123 tree.sym.owner.kind == MTH &&
rfield@1380 1124 tree.type.constValue() == null) {
rfield@1380 1125 TranslationContext<?> localContext = context();
rfield@1380 1126 while (localContext != null) {
rfield@1380 1127 if (localContext.tree.getTag() == LAMBDA) {
rfield@1380 1128 JCTree block = capturedDecl(localContext.depth, tree.sym);
rfield@1380 1129 if (block == null) break;
mcimadamore@1595 1130 ((LambdaTranslationContext)localContext)
mcimadamore@1595 1131 .addSymbol(tree.sym, CAPTURED_VAR);
rfield@1380 1132 }
rfield@1380 1133 localContext = localContext.prev;
rfield@1380 1134 }
rfield@1380 1135 } else if (tree.sym.owner.kind == TYP) {
rfield@1380 1136 TranslationContext<?> localContext = context();
rfield@1380 1137 while (localContext != null) {
rfield@1380 1138 if (localContext.tree.hasTag(LAMBDA)) {
rfield@1380 1139 JCTree block = capturedDecl(localContext.depth, tree.sym);
rfield@1380 1140 if (block == null) break;
rfield@1380 1141 switch (block.getTag()) {
rfield@1380 1142 case CLASSDEF:
rfield@1380 1143 JCClassDecl cdecl = (JCClassDecl)block;
mcimadamore@1595 1144 ((LambdaTranslationContext)localContext)
mcimadamore@1595 1145 .addSymbol(cdecl.sym, CAPTURED_THIS);
rfield@1380 1146 break;
rfield@1380 1147 default:
rfield@1380 1148 Assert.error("bad block kind");
rfield@1380 1149 }
rfield@1380 1150 }
rfield@1380 1151 localContext = localContext.prev;
rfield@1380 1152 }
rfield@1380 1153 }
rfield@1380 1154 }
rfield@1587 1155 super.visitIdent(tree);
rfield@1380 1156 }
rfield@1380 1157
rfield@1380 1158 @Override
rfield@1380 1159 public void visitLambda(JCLambda tree) {
rfield@1380 1160 List<Frame> prevStack = frameStack;
rfield@1380 1161 try {
rfield@1380 1162 LambdaTranslationContext context = (LambdaTranslationContext)makeLambdaContext(tree);
rfield@1380 1163 frameStack = frameStack.prepend(new Frame(tree));
rfield@1380 1164 for (JCVariableDecl param : tree.params) {
rfield@1380 1165 context.addSymbol(param.sym, PARAM);
rfield@1380 1166 frameStack.head.addLocal(param.sym);
rfield@1380 1167 }
rfield@1380 1168 contextMap.put(tree, context);
rfield@1380 1169 scan(tree.body);
rfield@1380 1170 context.complete();
rfield@1380 1171 }
rfield@1380 1172 finally {
rfield@1380 1173 frameStack = prevStack;
rfield@1380 1174 }
rfield@1380 1175 }
rfield@1380 1176
rfield@1380 1177 @Override
rfield@1380 1178 public void visitMethodDef(JCMethodDecl tree) {
rfield@1380 1179 List<Frame> prevStack = frameStack;
rfield@1380 1180 try {
rfield@1380 1181 frameStack = frameStack.prepend(new Frame(tree));
rfield@1380 1182 super.visitMethodDef(tree);
rfield@1380 1183 }
rfield@1380 1184 finally {
rfield@1380 1185 frameStack = prevStack;
rfield@1380 1186 }
rfield@1380 1187 }
rfield@1380 1188
rfield@1380 1189 @Override
rfield@1380 1190 public void visitNewClass(JCNewClass tree) {
rfield@1380 1191 if (lambdaNewClassFilter(context(), tree)) {
mcimadamore@1612 1192 TranslationContext<?> localContext = context();
mcimadamore@1612 1193 while (localContext != null) {
mcimadamore@1612 1194 if (localContext.tree.getTag() == LAMBDA) {
mcimadamore@1612 1195 ((LambdaTranslationContext)localContext)
mcimadamore@1612 1196 .addSymbol(tree.type.getEnclosingType().tsym, CAPTURED_THIS);
mcimadamore@1612 1197 }
mcimadamore@1612 1198 localContext = localContext.prev;
mcimadamore@1612 1199 }
mcimadamore@1612 1200 }
mcimadamore@1612 1201 if (context() != null && tree.type.tsym.owner.kind == MTH) {
mcimadamore@1612 1202 LambdaTranslationContext lambdaContext = (LambdaTranslationContext)context();
mcimadamore@1612 1203 captureLocalClassDefs(tree.type.tsym, lambdaContext);
rfield@1380 1204 }
rfield@1380 1205 super.visitNewClass(tree);
rfield@1380 1206 }
mcimadamore@1612 1207 //where
mcimadamore@1612 1208 void captureLocalClassDefs(Symbol csym, final LambdaTranslationContext lambdaContext) {
mcimadamore@1612 1209 JCClassDecl localCDef = localClassDefs.get(csym);
mcimadamore@1612 1210 if (localCDef != null && localCDef.pos < lambdaContext.tree.pos) {
mcimadamore@1612 1211 BasicFreeVarCollector fvc = lower.new BasicFreeVarCollector() {
mcimadamore@1612 1212 @Override
mcimadamore@1612 1213 void addFreeVars(ClassSymbol c) {
mcimadamore@1612 1214 captureLocalClassDefs(c, lambdaContext);
mcimadamore@1612 1215 }
mcimadamore@1612 1216 @Override
mcimadamore@1612 1217 void visitSymbol(Symbol sym) {
mcimadamore@1612 1218 if (sym.kind == VAR &&
mcimadamore@1612 1219 sym.owner.kind == MTH &&
mcimadamore@1612 1220 ((VarSymbol)sym).getConstValue() == null) {
mcimadamore@1612 1221 TranslationContext<?> localContext = context();
mcimadamore@1612 1222 while (localContext != null) {
mcimadamore@1612 1223 if (localContext.tree.getTag() == LAMBDA) {
mcimadamore@1612 1224 JCTree block = capturedDecl(localContext.depth, sym);
mcimadamore@1612 1225 if (block == null) break;
mcimadamore@1612 1226 ((LambdaTranslationContext)localContext).addSymbol(sym, CAPTURED_VAR);
mcimadamore@1612 1227 }
mcimadamore@1612 1228 localContext = localContext.prev;
mcimadamore@1612 1229 }
mcimadamore@1612 1230 }
mcimadamore@1612 1231 }
mcimadamore@1612 1232 };
mcimadamore@1612 1233 fvc.scan(localCDef);
mcimadamore@1612 1234 }
mcimadamore@1612 1235 }
rfield@1380 1236
rfield@1380 1237 @Override
rfield@1380 1238 public void visitReference(JCMemberReference tree) {
rfield@1380 1239 scan(tree.getQualifierExpression());
rfield@1380 1240 contextMap.put(tree, makeReferenceContext(tree));
rfield@1380 1241 }
rfield@1380 1242
rfield@1380 1243 @Override
rfield@1380 1244 public void visitSelect(JCFieldAccess tree) {
rfield@1380 1245 if (context() != null && lambdaSelectSymbolFilter(tree.sym)) {
rfield@1380 1246 TranslationContext<?> localContext = context();
rfield@1380 1247 while (localContext != null) {
rfield@1380 1248 if (localContext.tree.hasTag(LAMBDA)) {
rfield@1380 1249 JCClassDecl clazz = (JCClassDecl)capturedDecl(localContext.depth, tree.sym);
rfield@1380 1250 if (clazz == null) break;
rfield@1380 1251 ((LambdaTranslationContext)localContext).addSymbol(clazz.sym, CAPTURED_THIS);
rfield@1380 1252 }
rfield@1380 1253 localContext = localContext.prev;
rfield@1380 1254 }
rfield@1380 1255 scan(tree.selected);
rfield@1380 1256 } else {
rfield@1380 1257 super.visitSelect(tree);
rfield@1380 1258 }
rfield@1380 1259 }
rfield@1380 1260
rfield@1380 1261 @Override
rfield@1380 1262 public void visitVarDef(JCVariableDecl tree) {
rfield@1587 1263 TranslationContext<?> context = context();
rfield@1587 1264 LambdaTranslationContext ltc = (context != null && context instanceof LambdaTranslationContext)?
rfield@1587 1265 (LambdaTranslationContext)context :
rfield@1587 1266 null;
rfield@1587 1267 if (ltc != null) {
rfield@1587 1268 if (frameStack.head.tree.hasTag(LAMBDA)) {
rfield@1587 1269 ltc.addSymbol(tree.sym, LOCAL_VAR);
rfield@1587 1270 }
rfield@1587 1271 // Check for type variables (including as type arguments).
rfield@1587 1272 // If they occur within class nested in a lambda, mark for erasure
rfield@1587 1273 Type type = tree.sym.asType();
rfield@1587 1274 if (inClassWithinLambda() && !types.isSameType(types.erasure(type), type)) {
rfield@1587 1275 ltc.addSymbol(tree.sym, TYPE_VAR);
rfield@1587 1276 }
rfield@1380 1277 }
rfield@1587 1278
rfield@1380 1279 List<Frame> prevStack = frameStack;
rfield@1380 1280 try {
rfield@1380 1281 if (tree.sym.owner.kind == MTH) {
rfield@1380 1282 frameStack.head.addLocal(tree.sym);
rfield@1380 1283 }
rfield@1380 1284 frameStack = frameStack.prepend(new Frame(tree));
rfield@1380 1285 super.visitVarDef(tree);
rfield@1380 1286 }
rfield@1380 1287 finally {
rfield@1380 1288 frameStack = prevStack;
rfield@1380 1289 }
rfield@1380 1290 }
rfield@1380 1291
rfield@1380 1292 private Name lambdaName() {
rfield@1587 1293 return names.lambda.append(names.fromString("" + lambdaCount++));
rfield@1587 1294 }
rfield@1587 1295
rfield@1587 1296 private Name serializedLambdaName(Symbol owner) {
rfield@1587 1297 StringBuilder buf = new StringBuilder();
rfield@1587 1298 buf.append(names.lambda);
rfield@1624 1299 String methodName = owner.name.toString();
rfield@1624 1300 if (methodName.equals("<clinit>"))
rfield@1624 1301 methodName = "static";
rfield@1624 1302 else if (methodName.equals("<init>"))
rfield@1624 1303 methodName = "new";
rfield@1624 1304 buf.append(methodName);
rfield@1587 1305 buf.append('$');
rfield@1587 1306 int methTypeHash = methodSig(owner.type).hashCode();
mcimadamore@1619 1307 buf.append(Integer.toHexString(methTypeHash));
rfield@1587 1308 buf.append('$');
rfield@1587 1309 String temp = buf.toString();
rfield@1587 1310 Integer count = serializableLambdaCounts.get(temp);
rfield@1587 1311 if (count == null) {
rfield@1587 1312 count = 0;
rfield@1587 1313 }
rfield@1587 1314 buf.append(count++);
rfield@1587 1315 serializableLambdaCounts.put(temp, count);
rfield@1587 1316 return names.fromString(buf.toString());
rfield@1380 1317 }
rfield@1380 1318
rfield@1380 1319 /**
rfield@1380 1320 * Return a valid owner given the current declaration stack
rfield@1380 1321 * (required to skip synthetic lambda symbols)
rfield@1380 1322 */
rfield@1380 1323 private Symbol owner() {
mcimadamore@1515 1324 return owner(false);
mcimadamore@1515 1325 }
mcimadamore@1515 1326
mcimadamore@1515 1327 @SuppressWarnings("fallthrough")
mcimadamore@1515 1328 private Symbol owner(boolean skipLambda) {
rfield@1380 1329 List<Frame> frameStack2 = frameStack;
rfield@1380 1330 while (frameStack2.nonEmpty()) {
rfield@1380 1331 switch (frameStack2.head.tree.getTag()) {
rfield@1380 1332 case VARDEF:
rfield@1380 1333 if (((JCVariableDecl)frameStack2.head.tree).sym.isLocal()) {
rfield@1380 1334 frameStack2 = frameStack2.tail;
rfield@1380 1335 break;
rfield@1380 1336 }
rfield@1380 1337 JCClassDecl cdecl = (JCClassDecl)frameStack2.tail.head.tree;
rfield@1587 1338 return initSym(cdecl.sym,
rfield@1587 1339 ((JCVariableDecl)frameStack2.head.tree).sym.flags() & STATIC);
rfield@1380 1340 case BLOCK:
rfield@1380 1341 JCClassDecl cdecl2 = (JCClassDecl)frameStack2.tail.head.tree;
rfield@1587 1342 return initSym(cdecl2.sym,
rfield@1587 1343 ((JCBlock)frameStack2.head.tree).flags & STATIC);
rfield@1380 1344 case CLASSDEF:
rfield@1380 1345 return ((JCClassDecl)frameStack2.head.tree).sym;
rfield@1380 1346 case METHODDEF:
rfield@1380 1347 return ((JCMethodDecl)frameStack2.head.tree).sym;
rfield@1380 1348 case LAMBDA:
mcimadamore@1515 1349 if (!skipLambda)
mcimadamore@1595 1350 return ((LambdaTranslationContext)contextMap
mcimadamore@1595 1351 .get(frameStack2.head.tree)).translatedSym;
rfield@1380 1352 default:
rfield@1380 1353 frameStack2 = frameStack2.tail;
rfield@1380 1354 }
rfield@1380 1355 }
rfield@1380 1356 Assert.error();
rfield@1380 1357 return null;
rfield@1380 1358 }
rfield@1380 1359
rfield@1587 1360 private Symbol initSym(ClassSymbol csym, long flags) {
rfield@1587 1361 boolean isStatic = (flags & STATIC) != 0;
rfield@1587 1362 if (isStatic) {
rfield@1587 1363 //static clinits are generated in Gen - so we need to fake them
rfield@1587 1364 Symbol clinit = clinits.get(csym);
rfield@1587 1365 if (clinit == null) {
rfield@1587 1366 clinit = makeSyntheticMethod(STATIC,
rfield@1587 1367 names.clinit,
rfield@1587 1368 new MethodType(List.<Type>nil(), syms.voidType, List.<Type>nil(), syms.methodClass),
rfield@1587 1369 csym);
rfield@1587 1370 clinits.put(csym, clinit);
rfield@1587 1371 }
rfield@1587 1372 return clinit;
rfield@1587 1373 } else {
rfield@1587 1374 //get the first constructor and treat it as the instance init sym
rfield@1587 1375 for (Symbol s : csym.members_field.getElementsByName(names.init)) {
rfield@1587 1376 return s;
rfield@1587 1377 }
rfield@1587 1378 }
rfield@1587 1379 Assert.error("init not found");
rfield@1587 1380 return null;
rfield@1587 1381 }
rfield@1587 1382
rfield@1587 1383 private JCTree directlyEnclosingLambda() {
rfield@1587 1384 if (frameStack.isEmpty()) {
rfield@1587 1385 return null;
rfield@1587 1386 }
rfield@1380 1387 List<Frame> frameStack2 = frameStack;
rfield@1380 1388 while (frameStack2.nonEmpty()) {
rfield@1380 1389 switch (frameStack2.head.tree.getTag()) {
rfield@1380 1390 case CLASSDEF:
rfield@1380 1391 case METHODDEF:
rfield@1380 1392 return null;
rfield@1380 1393 case LAMBDA:
rfield@1380 1394 return frameStack2.head.tree;
rfield@1380 1395 default:
rfield@1380 1396 frameStack2 = frameStack2.tail;
rfield@1380 1397 }
rfield@1380 1398 }
rfield@1380 1399 Assert.error();
rfield@1380 1400 return null;
rfield@1380 1401 }
rfield@1380 1402
rfield@1587 1403 private boolean inClassWithinLambda() {
rfield@1587 1404 if (frameStack.isEmpty()) {
rfield@1587 1405 return false;
rfield@1587 1406 }
rfield@1587 1407 List<Frame> frameStack2 = frameStack;
rfield@1587 1408 boolean classFound = false;
rfield@1587 1409 while (frameStack2.nonEmpty()) {
rfield@1587 1410 switch (frameStack2.head.tree.getTag()) {
rfield@1587 1411 case LAMBDA:
rfield@1587 1412 return classFound;
rfield@1587 1413 case CLASSDEF:
rfield@1587 1414 classFound = true;
rfield@1587 1415 frameStack2 = frameStack2.tail;
rfield@1587 1416 break;
rfield@1587 1417 default:
rfield@1587 1418 frameStack2 = frameStack2.tail;
rfield@1587 1419 }
rfield@1587 1420 }
rfield@1587 1421 // No lambda
rfield@1587 1422 return false;
rfield@1587 1423 }
rfield@1587 1424
rfield@1380 1425 /**
rfield@1380 1426 * Return the declaration corresponding to a symbol in the enclosing
rfield@1380 1427 * scope; the depth parameter is used to filter out symbols defined
rfield@1380 1428 * in nested scopes (which do not need to undergo capture).
rfield@1380 1429 */
rfield@1380 1430 private JCTree capturedDecl(int depth, Symbol sym) {
rfield@1380 1431 int currentDepth = frameStack.size() - 1;
rfield@1380 1432 for (Frame block : frameStack) {
rfield@1380 1433 switch (block.tree.getTag()) {
rfield@1380 1434 case CLASSDEF:
rfield@1380 1435 ClassSymbol clazz = ((JCClassDecl)block.tree).sym;
rfield@1380 1436 if (sym.isMemberOf(clazz, types)) {
rfield@1380 1437 return currentDepth > depth ? null : block.tree;
rfield@1380 1438 }
rfield@1380 1439 break;
rfield@1380 1440 case VARDEF:
rfield@1380 1441 if (((JCVariableDecl)block.tree).sym == sym &&
rfield@1380 1442 sym.owner.kind == MTH) { //only locals are captured
rfield@1380 1443 return currentDepth > depth ? null : block.tree;
rfield@1380 1444 }
rfield@1380 1445 break;
rfield@1380 1446 case BLOCK:
rfield@1380 1447 case METHODDEF:
rfield@1380 1448 case LAMBDA:
rfield@1380 1449 if (block.locals != null && block.locals.contains(sym)) {
rfield@1380 1450 return currentDepth > depth ? null : block.tree;
rfield@1380 1451 }
rfield@1380 1452 break;
rfield@1380 1453 default:
rfield@1380 1454 Assert.error("bad decl kind " + block.tree.getTag());
rfield@1380 1455 }
rfield@1380 1456 currentDepth--;
rfield@1380 1457 }
rfield@1380 1458 return null;
rfield@1380 1459 }
rfield@1380 1460
rfield@1380 1461 private TranslationContext<?> context() {
rfield@1380 1462 for (Frame frame : frameStack) {
rfield@1380 1463 TranslationContext<?> context = contextMap.get(frame.tree);
rfield@1380 1464 if (context != null) {
rfield@1380 1465 return context;
rfield@1380 1466 }
rfield@1380 1467 }
rfield@1380 1468 return null;
rfield@1380 1469 }
rfield@1380 1470
rfield@1380 1471 /**
rfield@1380 1472 * This is used to filter out those identifiers that needs to be adjusted
rfield@1380 1473 * when translating away lambda expressions
rfield@1380 1474 */
rfield@1380 1475 private boolean lambdaIdentSymbolFilter(Symbol sym) {
rfield@1380 1476 return (sym.kind == VAR || sym.kind == MTH)
rfield@1380 1477 && !sym.isStatic()
rfield@1380 1478 && sym.name != names.init;
rfield@1380 1479 }
rfield@1380 1480
rfield@1380 1481 private boolean lambdaSelectSymbolFilter(Symbol sym) {
rfield@1380 1482 return (sym.kind == VAR || sym.kind == MTH) &&
rfield@1380 1483 !sym.isStatic() &&
rfield@1380 1484 (sym.name == names._this ||
rfield@1380 1485 sym.name == names._super);
rfield@1380 1486 }
rfield@1380 1487
rfield@1380 1488 /**
rfield@1380 1489 * This is used to filter out those new class expressions that need to
rfield@1380 1490 * be qualified with an enclosing tree
rfield@1380 1491 */
rfield@1380 1492 private boolean lambdaNewClassFilter(TranslationContext<?> context, JCNewClass tree) {
rfield@1380 1493 if (context != null
rfield@1380 1494 && tree.encl == null
rfield@1380 1495 && tree.def == null
rfield@1405 1496 && !tree.type.getEnclosingType().hasTag(NONE)) {
rfield@1380 1497 Type encl = tree.type.getEnclosingType();
rfield@1380 1498 Type current = context.owner.enclClass().type;
rfield@1405 1499 while (!current.hasTag(NONE)) {
rfield@1380 1500 if (current.tsym.isSubClass(encl.tsym, types)) {
rfield@1380 1501 return true;
rfield@1380 1502 }
rfield@1380 1503 current = current.getEnclosingType();
rfield@1380 1504 }
rfield@1380 1505 return false;
rfield@1380 1506 } else {
rfield@1380 1507 return false;
rfield@1380 1508 }
rfield@1380 1509 }
rfield@1380 1510
rfield@1380 1511 private TranslationContext<JCLambda> makeLambdaContext(JCLambda tree) {
rfield@1380 1512 return new LambdaTranslationContext(tree);
rfield@1380 1513 }
rfield@1380 1514
rfield@1380 1515 private TranslationContext<JCMemberReference> makeReferenceContext(JCMemberReference tree) {
rfield@1380 1516 return new ReferenceTranslationContext(tree);
rfield@1380 1517 }
rfield@1380 1518
rfield@1380 1519 private class Frame {
rfield@1380 1520 final JCTree tree;
rfield@1380 1521 List<Symbol> locals;
rfield@1380 1522
rfield@1380 1523 public Frame(JCTree tree) {
rfield@1380 1524 this.tree = tree;
rfield@1380 1525 }
rfield@1380 1526
rfield@1380 1527 void addLocal(Symbol sym) {
rfield@1380 1528 if (locals == null) {
rfield@1380 1529 locals = List.nil();
rfield@1380 1530 }
rfield@1380 1531 locals = locals.prepend(sym);
rfield@1380 1532 }
rfield@1380 1533 }
rfield@1380 1534
rfield@1380 1535 /**
rfield@1380 1536 * This class is used to store important information regarding translation of
rfield@1380 1537 * lambda expression/method references (see subclasses).
rfield@1380 1538 */
mcimadamore@1510 1539 private abstract class TranslationContext<T extends JCFunctionalExpression> {
rfield@1380 1540
rfield@1380 1541 /** the underlying (untranslated) tree */
rfield@1380 1542 T tree;
rfield@1380 1543
rfield@1380 1544 /** points to the adjusted enclosing scope in which this lambda/mref expression occurs */
rfield@1380 1545 Symbol owner;
rfield@1380 1546
rfield@1380 1547 /** the depth of this lambda expression in the frame stack */
rfield@1380 1548 int depth;
rfield@1380 1549
rfield@1380 1550 /** the enclosing translation context (set for nested lambdas/mref) */
rfield@1380 1551 TranslationContext<?> prev;
rfield@1380 1552
rfield@1380 1553 TranslationContext(T tree) {
rfield@1380 1554 this.tree = tree;
rfield@1380 1555 this.owner = owner();
rfield@1380 1556 this.depth = frameStack.size() - 1;
rfield@1380 1557 this.prev = context();
rfield@1380 1558 }
rfield@1587 1559
rfield@1587 1560 /** does this functional expression need to be created using alternate metafactory? */
rfield@1587 1561 boolean needsAltMetafactory() {
rfield@1587 1562 return (tree.targets.length() > 1 ||
rfield@1587 1563 isSerializable());
rfield@1587 1564 }
rfield@1587 1565
rfield@1587 1566 /** does this functional expression require serialization support? */
rfield@1587 1567 boolean isSerializable() {
rfield@1587 1568 for (Symbol target : tree.targets) {
rfield@1587 1569 if (types.asSuper(target.type, syms.serializableType.tsym) != null) {
rfield@1587 1570 return true;
rfield@1587 1571 }
rfield@1587 1572 }
rfield@1587 1573 return false;
rfield@1587 1574 }
rfield@1380 1575 }
rfield@1380 1576
rfield@1380 1577 /**
rfield@1380 1578 * This class retains all the useful information about a lambda expression;
rfield@1380 1579 * the contents of this class are filled by the LambdaAnalyzer visitor,
rfield@1380 1580 * and the used by the main translation routines in order to adjust references
rfield@1380 1581 * to captured locals/members, etc.
rfield@1380 1582 */
rfield@1380 1583 private class LambdaTranslationContext extends TranslationContext<JCLambda> {
rfield@1380 1584
rfield@1380 1585 /** variable in the enclosing context to which this lambda is assigned */
rfield@1380 1586 Symbol self;
rfield@1380 1587
rfield@1380 1588 /** map from original to translated lambda parameters */
rfield@1380 1589 Map<Symbol, Symbol> lambdaParams = new LinkedHashMap<Symbol, Symbol>();
rfield@1380 1590
rfield@1380 1591 /** map from original to translated lambda locals */
rfield@1380 1592 Map<Symbol, Symbol> lambdaLocals = new LinkedHashMap<Symbol, Symbol>();
rfield@1380 1593
rfield@1380 1594 /** map from variables in enclosing scope to translated synthetic parameters */
rfield@1380 1595 Map<Symbol, Symbol> capturedLocals = new LinkedHashMap<Symbol, Symbol>();
rfield@1380 1596
rfield@1380 1597 /** map from class symbols to translated synthetic parameters (for captured member access) */
rfield@1380 1598 Map<Symbol, Symbol> capturedThis = new LinkedHashMap<Symbol, Symbol>();
rfield@1380 1599
rfield@1587 1600 /** map from original to translated lambda locals */
rfield@1587 1601 Map<Symbol, Symbol> typeVars = new LinkedHashMap<Symbol, Symbol>();
rfield@1587 1602
rfield@1380 1603 /** the synthetic symbol for the method hoisting the translated lambda */
rfield@1380 1604 Symbol translatedSym;
rfield@1380 1605
rfield@1380 1606 List<JCVariableDecl> syntheticParams;
rfield@1380 1607
rfield@1380 1608 LambdaTranslationContext(JCLambda tree) {
rfield@1380 1609 super(tree);
rfield@1380 1610 Frame frame = frameStack.head;
rfield@1380 1611 if (frame.tree.hasTag(VARDEF)) {
rfield@1380 1612 self = ((JCVariableDecl)frame.tree).sym;
rfield@1380 1613 }
rfield@1587 1614 Name name = isSerializable() ? serializedLambdaName(owner) : lambdaName();
rfield@1587 1615 this.translatedSym = makeSyntheticMethod(0, name, null, owner.enclClass());
rfield@1380 1616 }
rfield@1380 1617
rfield@1380 1618 /**
rfield@1380 1619 * Translate a symbol of a given kind into something suitable for the
rfield@1380 1620 * synthetic lambda body
rfield@1380 1621 */
mcimadamore@1612 1622 Symbol translate(String name, final Symbol sym, LambdaSymbolKind skind) {
rfield@1587 1623 switch (skind) {
rfield@1587 1624 case CAPTURED_THIS:
rfield@1587 1625 return sym; // self represented
rfield@1587 1626 case TYPE_VAR:
rfield@1587 1627 // Just erase the type var
mcimadamore@1595 1628 return new VarSymbol(sym.flags(), names.fromString(name),
mcimadamore@1595 1629 types.erasure(sym.type), sym.owner);
mcimadamore@1612 1630 case CAPTURED_VAR:
mcimadamore@1612 1631 return new VarSymbol(SYNTHETIC | FINAL, names.fromString(name), types.erasure(sym.type), translatedSym) {
mcimadamore@1612 1632 @Override
mcimadamore@1612 1633 public Symbol baseSymbol() {
mcimadamore@1612 1634 //keep mapping with original captured symbol
mcimadamore@1612 1635 return sym;
mcimadamore@1612 1636 }
mcimadamore@1612 1637 };
rfield@1587 1638 default:
rfield@1587 1639 return makeSyntheticVar(FINAL, name, types.erasure(sym.type), translatedSym);
rfield@1380 1640 }
rfield@1380 1641 }
rfield@1380 1642
rfield@1380 1643 void addSymbol(Symbol sym, LambdaSymbolKind skind) {
rfield@1380 1644 Map<Symbol, Symbol> transMap = null;
rfield@1380 1645 String preferredName;
rfield@1380 1646 switch (skind) {
rfield@1380 1647 case CAPTURED_THIS:
rfield@1380 1648 transMap = capturedThis;
rfield@1380 1649 preferredName = "encl$" + capturedThis.size();
rfield@1380 1650 break;
rfield@1380 1651 case CAPTURED_VAR:
rfield@1380 1652 transMap = capturedLocals;
rfield@1380 1653 preferredName = "cap$" + capturedLocals.size();
rfield@1380 1654 break;
rfield@1380 1655 case LOCAL_VAR:
rfield@1380 1656 transMap = lambdaLocals;
rfield@1380 1657 preferredName = sym.name.toString();
rfield@1380 1658 break;
rfield@1380 1659 case PARAM:
rfield@1380 1660 transMap = lambdaParams;
rfield@1380 1661 preferredName = sym.name.toString();
rfield@1380 1662 break;
rfield@1587 1663 case TYPE_VAR:
rfield@1587 1664 transMap = typeVars;
rfield@1587 1665 preferredName = sym.name.toString();
rfield@1587 1666 break;
rfield@1380 1667 default: throw new AssertionError();
rfield@1380 1668 }
rfield@1380 1669 if (!transMap.containsKey(sym)) {
rfield@1380 1670 transMap.put(sym, translate(preferredName, sym, skind));
rfield@1380 1671 }
rfield@1380 1672 }
rfield@1380 1673
rfield@1380 1674 Map<Symbol, Symbol> getSymbolMap(LambdaSymbolKind... skinds) {
rfield@1380 1675 LinkedHashMap<Symbol, Symbol> translationMap = new LinkedHashMap<Symbol, Symbol>();
rfield@1380 1676 for (LambdaSymbolKind skind : skinds) {
rfield@1380 1677 switch (skind) {
rfield@1380 1678 case CAPTURED_THIS:
rfield@1380 1679 translationMap.putAll(capturedThis);
rfield@1380 1680 break;
rfield@1380 1681 case CAPTURED_VAR:
rfield@1380 1682 translationMap.putAll(capturedLocals);
rfield@1380 1683 break;
rfield@1380 1684 case LOCAL_VAR:
rfield@1380 1685 translationMap.putAll(lambdaLocals);
rfield@1380 1686 break;
rfield@1380 1687 case PARAM:
rfield@1380 1688 translationMap.putAll(lambdaParams);
rfield@1380 1689 break;
rfield@1587 1690 case TYPE_VAR:
rfield@1587 1691 translationMap.putAll(typeVars);
rfield@1587 1692 break;
rfield@1380 1693 default: throw new AssertionError();
rfield@1380 1694 }
rfield@1380 1695 }
rfield@1380 1696 return translationMap;
rfield@1380 1697 }
rfield@1380 1698
rfield@1380 1699 /**
rfield@1380 1700 * The translatedSym is not complete/accurate until the analysis is
rfield@1380 1701 * finished. Once the analysis is finished, the translatedSym is
rfield@1380 1702 * "completed" -- updated with type information, access modifiers,
rfield@1380 1703 * and full parameter list.
rfield@1380 1704 */
rfield@1380 1705 void complete() {
rfield@1380 1706 if (syntheticParams != null) {
rfield@1380 1707 return;
rfield@1380 1708 }
rfield@1380 1709 boolean inInterface = translatedSym.owner.isInterface();
rfield@1380 1710 boolean thisReferenced = !getSymbolMap(CAPTURED_THIS).isEmpty();
rfield@1380 1711 boolean needInstance = thisReferenced || inInterface;
rfield@1380 1712
rfield@1380 1713 // If instance access isn't needed, make it static
rfield@1380 1714 // Interface methods much be public default methods, otherwise make it private
mcimadamore@1595 1715 translatedSym.flags_field = SYNTHETIC | (needInstance? 0 : STATIC) |
mcimadamore@1595 1716 (inInterface? PUBLIC | DEFAULT : PRIVATE);
rfield@1380 1717
rfield@1380 1718 //compute synthetic params
rfield@1380 1719 ListBuffer<JCVariableDecl> params = ListBuffer.lb();
rfield@1380 1720
rfield@1380 1721 // The signature of the method is augmented with the following
rfield@1380 1722 // synthetic parameters:
rfield@1380 1723 //
rfield@1380 1724 // 1) reference to enclosing contexts captured by the lambda expression
rfield@1380 1725 // 2) enclosing locals captured by the lambda expression
rfield@1380 1726 for (Symbol thisSym : getSymbolMap(CAPTURED_VAR, PARAM).values()) {
rfield@1380 1727 params.append(make.VarDef((VarSymbol) thisSym, null));
rfield@1380 1728 }
rfield@1380 1729
rfield@1380 1730 syntheticParams = params.toList();
rfield@1380 1731
rfield@1380 1732 //prepend synthetic args to translated lambda method signature
rfield@1587 1733 translatedSym.type = types.createMethodTypeWithParameters(
rfield@1587 1734 generatedLambdaSig(),
rfield@1380 1735 TreeInfo.types(syntheticParams));
rfield@1380 1736 }
rfield@1380 1737
rfield@1380 1738 Type generatedLambdaSig() {
mcimadamore@1510 1739 return types.erasure(tree.descriptorType);
rfield@1380 1740 }
rfield@1380 1741 }
rfield@1380 1742
rfield@1380 1743 /**
rfield@1380 1744 * This class retains all the useful information about a method reference;
rfield@1380 1745 * the contents of this class are filled by the LambdaAnalyzer visitor,
rfield@1380 1746 * and the used by the main translation routines in order to adjust method
rfield@1380 1747 * references (i.e. in case a bridge is needed)
rfield@1380 1748 */
rfield@1380 1749 private class ReferenceTranslationContext extends TranslationContext<JCMemberReference> {
rfield@1380 1750
rfield@1380 1751 final boolean isSuper;
rfield@1380 1752 final Symbol bridgeSym;
rfield@1380 1753
rfield@1380 1754 ReferenceTranslationContext(JCMemberReference tree) {
rfield@1380 1755 super(tree);
rfield@1380 1756 this.isSuper = tree.hasKind(ReferenceKind.SUPER);
rfield@1380 1757 this.bridgeSym = needsBridge()
rfield@1380 1758 ? makeSyntheticMethod(isSuper ? 0 : STATIC,
rfield@1380 1759 lambdaName().append(names.fromString("$bridge")), null,
rfield@1380 1760 owner.enclClass())
rfield@1380 1761 : null;
rfield@1380 1762 }
rfield@1380 1763
rfield@1380 1764 /**
rfield@1380 1765 * Get the opcode associated with this method reference
rfield@1380 1766 */
rfield@1380 1767 int referenceKind() {
rfield@1380 1768 return LambdaToMethod.this.referenceKind(needsBridge() ? bridgeSym : tree.sym);
rfield@1380 1769 }
rfield@1380 1770
rfield@1380 1771 boolean needsVarArgsConversion() {
rfield@1380 1772 return tree.varargsElement != null;
rfield@1380 1773 }
rfield@1380 1774
rfield@1380 1775 /**
rfield@1380 1776 * @return Is this an array operation like clone()
rfield@1380 1777 */
rfield@1380 1778 boolean isArrayOp() {
rfield@1380 1779 return tree.sym.owner == syms.arrayClass;
rfield@1380 1780 }
rfield@1380 1781
mcimadamore@1597 1782 boolean isPrivateConstructor() {
mcimadamore@1615 1783 //hack needed to workaround 292 bug (8005122)
mcimadamore@1615 1784 //when 292 issue is fixed we should simply remove this
mcimadamore@1597 1785 return tree.sym.name == names.init &&
mcimadamore@1597 1786 (tree.sym.flags() & PRIVATE) != 0;
mcimadamore@1597 1787 }
mcimadamore@1597 1788
mcimadamore@1615 1789 boolean receiverAccessible() {
mcimadamore@1615 1790 //hack needed to workaround 292 bug (7087658)
mcimadamore@1615 1791 //when 292 issue is fixed we should remove this and change the backend
mcimadamore@1615 1792 //code to always generate a method handle to an accessible method
mcimadamore@1615 1793 return tree.ownerAccessible;
mcimadamore@1615 1794 }
mcimadamore@1615 1795
rfield@1380 1796 /**
rfield@1380 1797 * Does this reference needs a bridge (i.e. var args need to be
rfield@1380 1798 * expanded or "super" is used)
rfield@1380 1799 */
rfield@1380 1800 final boolean needsBridge() {
mcimadamore@1615 1801 return isSuper || needsVarArgsConversion() || isArrayOp() ||
mcimadamore@1615 1802 isPrivateConstructor() || !receiverAccessible();
rfield@1380 1803 }
rfield@1380 1804
rfield@1380 1805 Type generatedRefSig() {
rfield@1380 1806 return types.erasure(tree.sym.type);
rfield@1380 1807 }
rfield@1380 1808
rfield@1380 1809 Type bridgedRefSig() {
mcimadamore@1510 1810 return types.erasure(types.findDescriptorSymbol(tree.targets.head).type);
rfield@1380 1811 }
rfield@1380 1812 }
rfield@1380 1813 }
rfield@1380 1814 // </editor-fold>
rfield@1380 1815
rfield@1380 1816 enum LambdaSymbolKind {
rfield@1380 1817 CAPTURED_VAR,
rfield@1380 1818 CAPTURED_THIS,
rfield@1380 1819 LOCAL_VAR,
rfield@1587 1820 PARAM,
rfield@1587 1821 TYPE_VAR;
rfield@1587 1822 }
rfield@1587 1823
rfield@1587 1824 /**
rfield@1587 1825 * ****************************************************************
rfield@1587 1826 * Signature Generation
rfield@1587 1827 * ****************************************************************
rfield@1587 1828 */
rfield@1587 1829
rfield@1587 1830 private String methodSig(Type type) {
rfield@1587 1831 L2MSignatureGenerator sg = new L2MSignatureGenerator();
rfield@1587 1832 sg.assembleSig(type);
rfield@1587 1833 return sg.toString();
rfield@1587 1834 }
rfield@1587 1835
rfield@1587 1836 private String classSig(Type type) {
rfield@1587 1837 L2MSignatureGenerator sg = new L2MSignatureGenerator();
rfield@1587 1838 sg.assembleClassSig(type);
rfield@1587 1839 return sg.toString();
rfield@1587 1840 }
rfield@1587 1841
rfield@1587 1842 /**
rfield@1587 1843 * Signature Generation
rfield@1587 1844 */
rfield@1587 1845 private class L2MSignatureGenerator extends Types.SignatureGenerator {
rfield@1587 1846
rfield@1587 1847 /**
rfield@1587 1848 * An output buffer for type signatures.
rfield@1587 1849 */
rfield@1587 1850 StringBuilder sb = new StringBuilder();
rfield@1587 1851
rfield@1587 1852 L2MSignatureGenerator() {
rfield@1587 1853 super(types);
rfield@1587 1854 }
rfield@1587 1855
rfield@1587 1856 @Override
rfield@1587 1857 protected void append(char ch) {
rfield@1587 1858 sb.append(ch);
rfield@1587 1859 }
rfield@1587 1860
rfield@1587 1861 @Override
rfield@1587 1862 protected void append(byte[] ba) {
rfield@1587 1863 sb.append(new String(ba));
rfield@1587 1864 }
rfield@1587 1865
rfield@1587 1866 @Override
rfield@1587 1867 protected void append(Name name) {
rfield@1587 1868 sb.append(name.toString());
rfield@1587 1869 }
rfield@1587 1870
rfield@1587 1871 @Override
rfield@1587 1872 public String toString() {
rfield@1587 1873 return sb.toString();
rfield@1587 1874 }
rfield@1380 1875 }
rfield@1380 1876 }

Mercurial Repository: jdk8-mips64-public/langtools

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