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src/share/classes/com/sun/tools/javac/comp/TransTypes.java@56f59723fddf (annotated)

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

Mon, 06 Dec 2010 11:50:37 +0000

author

mcimadamore

date

Mon, 06 Dec 2010 11:50:37 +0000

changeset 774

56f59723fddf

parent 769

9359f4222545

child 798

4868a36f6fd8

permissions

-rw-r--r--

7002070: If catch clause has an incompatible type, error pointer points to first exception type in list
Summary: Attribution should check each component of a disjunctive type separately, rather than checking the corresponding lub()
Reviewed-by: jjg

duke@1	1	/*
ohair@554	2	* Copyright (c) 1999, 2008, Oracle and/or its affiliates. All rights reserved.
duke@1	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
duke@1	4	*
duke@1	5	* This code is free software; you can redistribute it and/or modify it
duke@1	6	* under the terms of the GNU General Public License version 2 only, as
ohair@554	7	* published by the Free Software Foundation. Oracle designates this
duke@1	8	* particular file as subject to the "Classpath" exception as provided
ohair@554	9	* by Oracle in the LICENSE file that accompanied this code.
duke@1	10	*
duke@1	11	* This code is distributed in the hope that it will be useful, but WITHOUT
duke@1	12	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
duke@1	13	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
duke@1	14	* version 2 for more details (a copy is included in the LICENSE file that
duke@1	15	* accompanied this code).
duke@1	16	*
duke@1	17	* You should have received a copy of the GNU General Public License version
duke@1	18	* 2 along with this work; if not, write to the Free Software Foundation,
duke@1	19	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
duke@1	20	*
ohair@554	21	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
ohair@554	22	* or visit www.oracle.com if you need additional information or have any
ohair@554	23	* questions.
duke@1	24	*/
duke@1	25
duke@1	26	package com.sun.tools.javac.comp;
duke@1	27
duke@1	28	import java.util.*;
duke@1	29
jjg@308	30	import javax.lang.model.element.ElementKind;
jjg@308	31
duke@1	32	import com.sun.tools.javac.code.*;
duke@1	33	import com.sun.tools.javac.code.Symbol.*;
duke@1	34	import com.sun.tools.javac.tree.*;
duke@1	35	import com.sun.tools.javac.tree.JCTree.*;
duke@1	36	import com.sun.tools.javac.util.*;
duke@1	37	import com.sun.tools.javac.util.JCDiagnostic.DiagnosticPosition;
duke@1	38	import com.sun.tools.javac.util.List;
duke@1	39
duke@1	40	import static com.sun.tools.javac.code.Flags.*;
duke@1	41	import static com.sun.tools.javac.code.Kinds.*;
duke@1	42	import static com.sun.tools.javac.code.TypeTags.*;
duke@1	43
duke@1	44	/** This pass translates Generic Java to conventional Java.
duke@1	45	*
jjg@581	46	* <p><b>This is NOT part of any supported API.
jjg@581	47	* If you write code that depends on this, you do so at your own risk.
duke@1	48	* This code and its internal interfaces are subject to change or
duke@1	49	* deletion without notice.</b>
duke@1	50	*/
duke@1	51	public class TransTypes extends TreeTranslator {
duke@1	52	/** The context key for the TransTypes phase. */
duke@1	53	protected static final Context.Key<TransTypes> transTypesKey =
duke@1	54	new Context.Key<TransTypes>();
duke@1	55
duke@1	56	/** Get the instance for this context. */
duke@1	57	public static TransTypes instance(Context context) {
duke@1	58	TransTypes instance = context.get(transTypesKey);
duke@1	59	if (instance == null)
duke@1	60	instance = new TransTypes(context);
duke@1	61	return instance;
duke@1	62	}
duke@1	63
jjg@113	64	private Names names;
duke@1	65	private Log log;
duke@1	66	private Symtab syms;
duke@1	67	private TreeMaker make;
duke@1	68	private Enter enter;
duke@1	69	private boolean allowEnums;
duke@1	70	private Types types;
duke@1	71	private final Resolve resolve;
jjg@477	72	private final TypeAnnotations typeAnnotations;
duke@1	73
duke@1	74	/**
duke@1	75	* Flag to indicate whether or not to generate bridge methods.
duke@1	76	* For pre-Tiger source there is no need for bridge methods, so it
duke@1	77	* can be skipped to get better performance for -source 1.4 etc.
duke@1	78	*/
duke@1	79	private final boolean addBridges;
duke@1	80
duke@1	81	protected TransTypes(Context context) {
duke@1	82	context.put(transTypesKey, this);
jjg@113	83	names = Names.instance(context);
duke@1	84	log = Log.instance(context);
duke@1	85	syms = Symtab.instance(context);
duke@1	86	enter = Enter.instance(context);
duke@1	87	overridden = new HashMap<MethodSymbol,MethodSymbol>();
duke@1	88	Source source = Source.instance(context);
duke@1	89	allowEnums = source.allowEnums();
duke@1	90	addBridges = source.addBridges();
duke@1	91	types = Types.instance(context);
duke@1	92	make = TreeMaker.instance(context);
duke@1	93	resolve = Resolve.instance(context);
jjg@477	94	typeAnnotations = TypeAnnotations.instance(context);
duke@1	95	}
duke@1	96
duke@1	97	/** A hashtable mapping bridge methods to the methods they override after
duke@1	98	* type erasure.
duke@1	99	*/
duke@1	100	Map<MethodSymbol,MethodSymbol> overridden;
duke@1	101
duke@1	102	/** Construct an attributed tree for a cast of expression to target type,
duke@1	103	* unless it already has precisely that type.
duke@1	104	* @param tree The expression tree.
duke@1	105	* @param target The target type.
duke@1	106	*/
duke@1	107	JCExpression cast(JCExpression tree, Type target) {
duke@1	108	int oldpos = make.pos;
duke@1	109	make.at(tree.pos);
duke@1	110	if (!types.isSameType(tree.type, target)) {
duke@1	111	if (!resolve.isAccessible(env, target.tsym))
duke@1	112	resolve.logAccessError(env, tree, target);
duke@1	113	tree = make.TypeCast(make.Type(target), tree).setType(target);
duke@1	114	}
duke@1	115	make.pos = oldpos;
duke@1	116	return tree;
duke@1	117	}
duke@1	118
duke@1	119	/** Construct an attributed tree to coerce an expression to some erased
duke@1	120	* target type, unless the expression is already assignable to that type.
duke@1	121	* If target type is a constant type, use its base type instead.
duke@1	122	* @param tree The expression tree.
duke@1	123	* @param target The target type.
duke@1	124	*/
duke@1	125	JCExpression coerce(JCExpression tree, Type target) {
duke@1	126	Type btarget = target.baseType();
duke@1	127	if (tree.type.isPrimitive() == target.isPrimitive()) {
duke@1	128	return types.isAssignable(tree.type, btarget, Warner.noWarnings)
duke@1	129	? tree
duke@1	130	: cast(tree, btarget);
duke@1	131	}
duke@1	132	return tree;
duke@1	133	}
duke@1	134
duke@1	135	/** Given an erased reference type, assume this type as the tree's type.
duke@1	136	* Then, coerce to some given target type unless target type is null.
duke@1	137	* This operation is used in situations like the following:
duke@1	138	*
duke@1	139	* class Cell<A> { A value; }
duke@1	140	* ...
duke@1	141	* Cell<Integer> cell;
duke@1	142	* Integer x = cell.value;
duke@1	143	*
duke@1	144	* Since the erasure of Cell.value is Object, but the type
duke@1	145	* of cell.value in the assignment is Integer, we need to
duke@1	146	* adjust the original type of cell.value to Object, and insert
duke@1	147	* a cast to Integer. That is, the last assignment becomes:
duke@1	148	*
duke@1	149	* Integer x = (Integer)cell.value;
duke@1	150	*
duke@1	151	* @param tree The expression tree whose type might need adjustment.
duke@1	152	* @param erasedType The expression's type after erasure.
duke@1	153	* @param target The target type, which is usually the erasure of the
duke@1	154	* expression's original type.
duke@1	155	*/
duke@1	156	JCExpression retype(JCExpression tree, Type erasedType, Type target) {
duke@1	157	// System.err.println("retype " + tree + " to " + erasedType);//DEBUG
duke@1	158	if (erasedType.tag > lastBaseTag) {
duke@1	159	if (target != null && target.isPrimitive())
duke@1	160	target = erasure(tree.type);
duke@1	161	tree.type = erasedType;
duke@1	162	if (target != null) return coerce(tree, target);
duke@1	163	}
duke@1	164	return tree;
duke@1	165	}
duke@1	166
duke@1	167	/** Translate method argument list, casting each argument
duke@1	168	* to its corresponding type in a list of target types.
duke@1	169	* @param _args The method argument list.
duke@1	170	* @param parameters The list of target types.
duke@1	171	* @param varargsElement The erasure of the varargs element type,
duke@1	172	* or null if translating a non-varargs invocation
duke@1	173	*/
duke@1	174	<T extends JCTree> List<T> translateArgs(List<T> _args,
duke@1	175	List<Type> parameters,
duke@1	176	Type varargsElement) {
duke@1	177	if (parameters.isEmpty()) return _args;
duke@1	178	List<T> args = _args;
duke@1	179	while (parameters.tail.nonEmpty()) {
duke@1	180	args.head = translate(args.head, parameters.head);
duke@1	181	args = args.tail;
duke@1	182	parameters = parameters.tail;
duke@1	183	}
duke@1	184	Type parameter = parameters.head;
duke@1	185	assert varargsElement != null || args.length() == 1;
duke@1	186	if (varargsElement != null) {
duke@1	187	while (args.nonEmpty()) {
duke@1	188	args.head = translate(args.head, varargsElement);
duke@1	189	args = args.tail;
duke@1	190	}
duke@1	191	} else {
duke@1	192	args.head = translate(args.head, parameter);
duke@1	193	}
duke@1	194	return _args;
duke@1	195	}
duke@1	196
duke@1	197	/** Add a bridge definition and enter corresponding method symbol in
duke@1	198	* local scope of origin.
duke@1	199	*
duke@1	200	* @param pos The source code position to be used for the definition.
duke@1	201	* @param meth The method for which a bridge needs to be added
duke@1	202	* @param impl That method's implementation (possibly the method itself)
duke@1	203	* @param origin The class to which the bridge will be added
duke@1	204	* @param hypothetical
duke@1	205	* True if the bridge method is not strictly necessary in the
duke@1	206	* binary, but is represented in the symbol table to detect
duke@1	207	* erasure clashes.
duke@1	208	* @param bridges The list buffer to which the bridge will be added
duke@1	209	*/
duke@1	210	void addBridge(DiagnosticPosition pos,
duke@1	211	MethodSymbol meth,
duke@1	212	MethodSymbol impl,
duke@1	213	ClassSymbol origin,
duke@1	214	boolean hypothetical,
duke@1	215	ListBuffer<JCTree> bridges) {
duke@1	216	make.at(pos);
duke@1	217	Type origType = types.memberType(origin.type, meth);
duke@1	218	Type origErasure = erasure(origType);
duke@1	219
duke@1	220	// Create a bridge method symbol and a bridge definition without a body.
duke@1	221	Type bridgeType = meth.erasure(types);
duke@1	222	long flags = impl.flags() & AccessFlags | SYNTHETIC | BRIDGE;
duke@1	223	if (hypothetical) flags |= HYPOTHETICAL;
duke@1	224	MethodSymbol bridge = new MethodSymbol(flags,
duke@1	225	meth.name,
duke@1	226	bridgeType,
duke@1	227	origin);
duke@1	228	if (!hypothetical) {
duke@1	229	JCMethodDecl md = make.MethodDef(bridge, null);
duke@1	230
duke@1	231	// The bridge calls this.impl(..), if we have an implementation
duke@1	232	// in the current class, super.impl(...) otherwise.
duke@1	233	JCExpression receiver = (impl.owner == origin)
duke@1	234	? make.This(origin.erasure(types))
duke@1	235	: make.Super(types.supertype(origin.type).tsym.erasure(types), origin);
duke@1	236
duke@1	237	// The type returned from the original method.
duke@1	238	Type calltype = erasure(impl.type.getReturnType());
duke@1	239
duke@1	240	// Construct a call of this.impl(params), or super.impl(params),
duke@1	241	// casting params and possibly results as needed.
duke@1	242	JCExpression call =
duke@1	243	make.Apply(
duke@1	244	null,
duke@1	245	make.Select(receiver, impl).setType(calltype),
duke@1	246	translateArgs(make.Idents(md.params), origErasure.getParameterTypes(), null))
duke@1	247	.setType(calltype);
duke@1	248	JCStatement stat = (origErasure.getReturnType().tag == VOID)
duke@1	249	? make.Exec(call)
duke@1	250	: make.Return(coerce(call, bridgeType.getReturnType()));
duke@1	251	md.body = make.Block(0, List.of(stat));
duke@1	252
duke@1	253	// Add bridge to `bridges' buffer
duke@1	254	bridges.append(md);
duke@1	255	}
duke@1	256
duke@1	257	// Add bridge to scope of enclosing class and `overridden' table.
duke@1	258	origin.members().enter(bridge);
duke@1	259	overridden.put(bridge, meth);
duke@1	260	}
duke@1	261
duke@1	262	/** Add bridge if given symbol is a non-private, non-static member
duke@1	263	* of the given class, which is either defined in the class or non-final
duke@1	264	* inherited, and one of the two following conditions holds:
duke@1	265	* 1. The method's type changes in the given class, as compared to the
duke@1	266	* class where the symbol was defined, (in this case
duke@1	267	* we have extended a parameterized class with non-trivial parameters).
duke@1	268	* 2. The method has an implementation with a different erased return type.
duke@1	269	* (in this case we have used co-variant returns).
duke@1	270	* If a bridge already exists in some other class, no new bridge is added.
duke@1	271	* Instead, it is checked that the bridge symbol overrides the method symbol.
duke@1	272	* (Spec ???).
duke@1	273	* todo: what about bridges for privates???
duke@1	274	*
duke@1	275	* @param pos The source code position to be used for the definition.
duke@1	276	* @param sym The symbol for which a bridge might have to be added.
duke@1	277	* @param origin The class in which the bridge would go.
duke@1	278	* @param bridges The list buffer to which the bridge would be added.
duke@1	279	*/
duke@1	280	void addBridgeIfNeeded(DiagnosticPosition pos,
duke@1	281	Symbol sym,
duke@1	282	ClassSymbol origin,
duke@1	283	ListBuffer<JCTree> bridges) {
duke@1	284	if (sym.kind == MTH &&
duke@1	285	sym.name != names.init &&
mcimadamore@673	286	(sym.flags() & (PRIVATE | STATIC)) == 0 &&
mcimadamore@673	287	(sym.flags() & (SYNTHETIC | OVERRIDE_BRIDGE)) != SYNTHETIC &&
duke@1	288	sym.isMemberOf(origin, types))
duke@1	289	{
duke@1	290	MethodSymbol meth = (MethodSymbol)sym;
duke@1	291	MethodSymbol bridge = meth.binaryImplementation(origin, types);
mcimadamore@673	292	MethodSymbol impl = meth.implementation(origin, types, true, overrideBridgeFilter);
duke@1	293	if (bridge == null ||
duke@1	294	bridge == meth ||
duke@1	295	(impl != null && !bridge.owner.isSubClass(impl.owner, types))) {
duke@1	296	// No bridge was added yet.
duke@1	297	if (impl != null && isBridgeNeeded(meth, impl, origin.type)) {
duke@1	298	addBridge(pos, meth, impl, origin, bridge==impl, bridges);
duke@1	299	} else if (impl == meth
duke@1	300	&& impl.owner != origin
duke@1	301	&& (impl.flags() & FINAL) == 0
duke@1	302	&& (meth.flags() & (ABSTRACT|PUBLIC)) == PUBLIC
duke@1	303	&& (origin.flags() & PUBLIC) > (impl.owner.flags() & PUBLIC)) {
duke@1	304	// this is to work around a horrible but permanent
duke@1	305	// reflection design error.
duke@1	306	addBridge(pos, meth, impl, origin, false, bridges);
duke@1	307	}
mcimadamore@673	308	} else if ((bridge.flags() & (SYNTHETIC | OVERRIDE_BRIDGE)) == SYNTHETIC) {
duke@1	309	MethodSymbol other = overridden.get(bridge);
duke@1	310	if (other != null && other != meth) {
duke@1	311	if (impl == null || !impl.overrides(other, origin, types, true)) {
duke@1	312	// Bridge for other symbol pair was added
duke@1	313	log.error(pos, "name.clash.same.erasure.no.override",
duke@1	314	other, other.location(origin.type, types),
duke@1	315	meth, meth.location(origin.type, types));
duke@1	316	}
duke@1	317	}
duke@1	318	} else if (!bridge.overrides(meth, origin, types, true)) {
duke@1	319	// Accidental binary override without source override.
duke@1	320	if (bridge.owner == origin ||
duke@1	321	types.asSuper(bridge.owner.type, meth.owner) == null)
duke@1	322	// Don't diagnose the problem if it would already
duke@1	323	// have been reported in the superclass
duke@1	324	log.error(pos, "name.clash.same.erasure.no.override",
duke@1	325	bridge, bridge.location(origin.type, types),
duke@1	326	meth, meth.location(origin.type, types));
duke@1	327	}
duke@1	328	}
duke@1	329	}
duke@1	330	// where
mcimadamore@673	331	Filter<Symbol> overrideBridgeFilter = new Filter<Symbol>() {
mcimadamore@673	332	public boolean accepts(Symbol s) {
mcimadamore@673	333	return (s.flags() & (SYNTHETIC | OVERRIDE_BRIDGE)) != SYNTHETIC;
mcimadamore@673	334	}
mcimadamore@673	335	};
duke@1	336	/**
duke@1	337	* @param method The symbol for which a bridge might have to be added
duke@1	338	* @param impl The implementation of method
duke@1	339	* @param dest The type in which the bridge would go
duke@1	340	*/
duke@1	341	private boolean isBridgeNeeded(MethodSymbol method,
duke@1	342	MethodSymbol impl,
duke@1	343	Type dest) {
duke@1	344	if (impl != method) {
duke@1	345	// If either method or impl have different erasures as
duke@1	346	// members of dest, a bridge is needed.
duke@1	347	Type method_erasure = method.erasure(types);
duke@1	348	if (!isSameMemberWhenErased(dest, method, method_erasure))
duke@1	349	return true;
duke@1	350	Type impl_erasure = impl.erasure(types);
duke@1	351	if (!isSameMemberWhenErased(dest, impl, impl_erasure))
duke@1	352	return true;
duke@1	353
duke@1	354	// If the erasure of the return type is different, a
duke@1	355	// bridge is needed.
duke@1	356	return !types.isSameType(impl_erasure.getReturnType(),
duke@1	357	method_erasure.getReturnType());
duke@1	358	} else {
duke@1	359	// method and impl are the same...
duke@1	360	if ((method.flags() & ABSTRACT) != 0) {
duke@1	361	// ...and abstract so a bridge is not needed.
duke@1	362	// Concrete subclasses will bridge as needed.
duke@1	363	return false;
duke@1	364	}
duke@1	365
duke@1	366	// The erasure of the return type is always the same
duke@1	367	// for the same symbol. Reducing the three tests in
duke@1	368	// the other branch to just one:
duke@1	369	return !isSameMemberWhenErased(dest, method, method.erasure(types));
duke@1	370	}
duke@1	371	}
duke@1	372	/**
duke@1	373	* Lookup the method as a member of the type. Compare the
duke@1	374	* erasures.
duke@1	375	* @param type the class where to look for the method
duke@1	376	* @param method the method to look for in class
duke@1	377	* @param erasure the erasure of method
duke@1	378	*/
duke@1	379	private boolean isSameMemberWhenErased(Type type,
duke@1	380	MethodSymbol method,
duke@1	381	Type erasure) {
duke@1	382	return types.isSameType(erasure(types.memberType(type, method)),
duke@1	383	erasure);
duke@1	384	}
duke@1	385
duke@1	386	void addBridges(DiagnosticPosition pos,
duke@1	387	TypeSymbol i,
duke@1	388	ClassSymbol origin,
duke@1	389	ListBuffer<JCTree> bridges) {
duke@1	390	for (Scope.Entry e = i.members().elems; e != null; e = e.sibling)
duke@1	391	addBridgeIfNeeded(pos, e.sym, origin, bridges);
duke@1	392	for (List<Type> l = types.interfaces(i.type); l.nonEmpty(); l = l.tail)
duke@1	393	addBridges(pos, l.head.tsym, origin, bridges);
duke@1	394	}
duke@1	395
duke@1	396	/** Add all necessary bridges to some class appending them to list buffer.
duke@1	397	* @param pos The source code position to be used for the bridges.
duke@1	398	* @param origin The class in which the bridges go.
duke@1	399	* @param bridges The list buffer to which the bridges are added.
duke@1	400	*/
duke@1	401	void addBridges(DiagnosticPosition pos, ClassSymbol origin, ListBuffer<JCTree> bridges) {
duke@1	402	Type st = types.supertype(origin.type);
duke@1	403	while (st.tag == CLASS) {
duke@1	404	// if (isSpecialization(st))
duke@1	405	addBridges(pos, st.tsym, origin, bridges);
duke@1	406	st = types.supertype(st);
duke@1	407	}
duke@1	408	for (List<Type> l = types.interfaces(origin.type); l.nonEmpty(); l = l.tail)
duke@1	409	// if (isSpecialization(l.head))
duke@1	410	addBridges(pos, l.head.tsym, origin, bridges);
duke@1	411	}
duke@1	412
duke@1	413	/* ************************************************************************
duke@1	414	* Visitor methods
duke@1	415	*************************************************************************/
duke@1	416
duke@1	417	/** Visitor argument: proto-type.
duke@1	418	*/
duke@1	419	private Type pt;
duke@1	420
duke@1	421	/** Visitor method: perform a type translation on tree.
duke@1	422	*/
duke@1	423	public <T extends JCTree> T translate(T tree, Type pt) {
duke@1	424	Type prevPt = this.pt;
duke@1	425	try {
duke@1	426	this.pt = pt;
duke@1	427	return translate(tree);
duke@1	428	} finally {
duke@1	429	this.pt = prevPt;
duke@1	430	}
duke@1	431	}
duke@1	432
duke@1	433	/** Visitor method: perform a type translation on list of trees.
duke@1	434	*/
duke@1	435	public <T extends JCTree> List<T> translate(List<T> trees, Type pt) {
duke@1	436	Type prevPt = this.pt;
duke@1	437	List<T> res;
duke@1	438	try {
duke@1	439	this.pt = pt;
duke@1	440	res = translate(trees);
duke@1	441	} finally {
duke@1	442	this.pt = prevPt;
duke@1	443	}
duke@1	444	return res;
duke@1	445	}
duke@1	446
duke@1	447	public void visitClassDef(JCClassDecl tree) {
jjg@477	448	typeAnnotations.taFillAndLift(tree, true);
duke@1	449	translateClass(tree.sym);
duke@1	450	result = tree;
duke@1	451	}
duke@1	452
duke@1	453	JCMethodDecl currentMethod = null;
duke@1	454	public void visitMethodDef(JCMethodDecl tree) {
jjg@308	455	tree.sym.typeAnnotations = tree.sym.typeAnnotations;
duke@1	456	JCMethodDecl previousMethod = currentMethod;
duke@1	457	try {
duke@1	458	currentMethod = tree;
duke@1	459	tree.restype = translate(tree.restype, null);
duke@1	460	tree.typarams = List.nil();
duke@1	461	tree.params = translateVarDefs(tree.params);
duke@1	462	tree.thrown = translate(tree.thrown, null);
duke@1	463	tree.body = translate(tree.body, tree.sym.erasure(types).getReturnType());
duke@1	464	tree.type = erasure(tree.type);
duke@1	465	result = tree;
duke@1	466	} finally {
duke@1	467	currentMethod = previousMethod;
duke@1	468	}
duke@1	469
duke@1	470	// Check that we do not introduce a name clash by erasing types.
duke@1	471	for (Scope.Entry e = tree.sym.owner.members().lookup(tree.name);
duke@1	472	e.sym != null;
duke@1	473	e = e.next()) {
duke@1	474	if (e.sym != tree.sym &&
duke@1	475	types.isSameType(erasure(e.sym.type), tree.type)) {
duke@1	476	log.error(tree.pos(),
duke@1	477	"name.clash.same.erasure", tree.sym,
duke@1	478	e.sym);
duke@1	479	return;
duke@1	480	}
duke@1	481	}
duke@1	482	}
duke@1	483
duke@1	484	public void visitVarDef(JCVariableDecl tree) {
duke@1	485	tree.vartype = translate(tree.vartype, null);
duke@1	486	tree.init = translate(tree.init, tree.sym.erasure(types));
duke@1	487	tree.type = erasure(tree.type);
duke@1	488	result = tree;
duke@1	489	}
duke@1	490
duke@1	491	public void visitDoLoop(JCDoWhileLoop tree) {
duke@1	492	tree.body = translate(tree.body);
duke@1	493	tree.cond = translate(tree.cond, syms.booleanType);
duke@1	494	result = tree;
duke@1	495	}
duke@1	496
duke@1	497	public void visitWhileLoop(JCWhileLoop tree) {
duke@1	498	tree.cond = translate(tree.cond, syms.booleanType);
duke@1	499	tree.body = translate(tree.body);
duke@1	500	result = tree;
duke@1	501	}
duke@1	502
duke@1	503	public void visitForLoop(JCForLoop tree) {
duke@1	504	tree.init = translate(tree.init, null);
duke@1	505	if (tree.cond != null)
duke@1	506	tree.cond = translate(tree.cond, syms.booleanType);
duke@1	507	tree.step = translate(tree.step, null);
duke@1	508	tree.body = translate(tree.body);
duke@1	509	result = tree;
duke@1	510	}
duke@1	511
duke@1	512	public void visitForeachLoop(JCEnhancedForLoop tree) {
duke@1	513	tree.var = translate(tree.var, null);
duke@1	514	Type iterableType = tree.expr.type;
duke@1	515	tree.expr = translate(tree.expr, erasure(tree.expr.type));
duke@1	516	if (types.elemtype(tree.expr.type) == null)
duke@1	517	tree.expr.type = iterableType; // preserve type for Lower
duke@1	518	tree.body = translate(tree.body);
duke@1	519	result = tree;
duke@1	520	}
duke@1	521
duke@1	522	public void visitSwitch(JCSwitch tree) {
duke@1	523	Type selsuper = types.supertype(tree.selector.type);
duke@1	524	boolean enumSwitch = selsuper != null &&
duke@1	525	selsuper.tsym == syms.enumSym;
duke@1	526	Type target = enumSwitch ? erasure(tree.selector.type) : syms.intType;
duke@1	527	tree.selector = translate(tree.selector, target);
duke@1	528	tree.cases = translateCases(tree.cases);
duke@1	529	result = tree;
duke@1	530	}
duke@1	531
duke@1	532	public void visitCase(JCCase tree) {
duke@1	533	tree.pat = translate(tree.pat, null);
duke@1	534	tree.stats = translate(tree.stats);
duke@1	535	result = tree;
duke@1	536	}
duke@1	537
duke@1	538	public void visitSynchronized(JCSynchronized tree) {
duke@1	539	tree.lock = translate(tree.lock, erasure(tree.lock.type));
duke@1	540	tree.body = translate(tree.body);
duke@1	541	result = tree;
duke@1	542	}
duke@1	543
darcy@609	544	public void visitTry(JCTry tree) {
darcy@609	545	tree.resources = translate(tree.resources, syms.autoCloseableType);
darcy@609	546	tree.body = translate(tree.body);
darcy@609	547	tree.catchers = translateCatchers(tree.catchers);
darcy@609	548	tree.finalizer = translate(tree.finalizer);
darcy@609	549	result = tree;
darcy@609	550	}
darcy@609	551
duke@1	552	public void visitConditional(JCConditional tree) {
duke@1	553	tree.cond = translate(tree.cond, syms.booleanType);
duke@1	554	tree.truepart = translate(tree.truepart, erasure(tree.type));
duke@1	555	tree.falsepart = translate(tree.falsepart, erasure(tree.type));
duke@1	556	tree.type = erasure(tree.type);
mcimadamore@120	557	result = retype(tree, tree.type, pt);
duke@1	558	}
duke@1	559
duke@1	560	public void visitIf(JCIf tree) {
duke@1	561	tree.cond = translate(tree.cond, syms.booleanType);
duke@1	562	tree.thenpart = translate(tree.thenpart);
duke@1	563	tree.elsepart = translate(tree.elsepart);
duke@1	564	result = tree;
duke@1	565	}
duke@1	566
duke@1	567	public void visitExec(JCExpressionStatement tree) {
duke@1	568	tree.expr = translate(tree.expr, null);
duke@1	569	result = tree;
duke@1	570	}
duke@1	571
duke@1	572	public void visitReturn(JCReturn tree) {
duke@1	573	tree.expr = translate(tree.expr, currentMethod.sym.erasure(types).getReturnType());
duke@1	574	result = tree;
duke@1	575	}
duke@1	576
duke@1	577	public void visitThrow(JCThrow tree) {
duke@1	578	tree.expr = translate(tree.expr, erasure(tree.expr.type));
duke@1	579	result = tree;
duke@1	580	}
duke@1	581
duke@1	582	public void visitAssert(JCAssert tree) {
duke@1	583	tree.cond = translate(tree.cond, syms.booleanType);
duke@1	584	if (tree.detail != null)
duke@1	585	tree.detail = translate(tree.detail, erasure(tree.detail.type));
duke@1	586	result = tree;
duke@1	587	}
duke@1	588
duke@1	589	public void visitApply(JCMethodInvocation tree) {
duke@1	590	tree.meth = translate(tree.meth, null);
duke@1	591	Symbol meth = TreeInfo.symbol(tree.meth);
duke@1	592	Type mt = meth.erasure(types);
duke@1	593	List<Type> argtypes = mt.getParameterTypes();
duke@1	594	if (allowEnums &&
duke@1	595	meth.name==names.init &&
duke@1	596	meth.owner == syms.enumSym)
duke@1	597	argtypes = argtypes.tail.tail;
duke@1	598	if (tree.varargsElement != null)
duke@1	599	tree.varargsElement = types.erasure(tree.varargsElement);
duke@1	600	else
duke@1	601	assert tree.args.length() == argtypes.length();
duke@1	602	tree.args = translateArgs(tree.args, argtypes, tree.varargsElement);
duke@1	603
duke@1	604	// Insert casts of method invocation results as needed.
duke@1	605	result = retype(tree, mt.getReturnType(), pt);
duke@1	606	}
duke@1	607
duke@1	608	public void visitNewClass(JCNewClass tree) {
duke@1	609	if (tree.encl != null)
duke@1	610	tree.encl = translate(tree.encl, erasure(tree.encl.type));
duke@1	611	tree.clazz = translate(tree.clazz, null);
duke@1	612	if (tree.varargsElement != null)
duke@1	613	tree.varargsElement = types.erasure(tree.varargsElement);
duke@1	614	tree.args = translateArgs(
duke@1	615	tree.args, tree.constructor.erasure(types).getParameterTypes(), tree.varargsElement);
duke@1	616	tree.def = translate(tree.def, null);
duke@1	617	tree.type = erasure(tree.type);
duke@1	618	result = tree;
duke@1	619	}
duke@1	620
duke@1	621	public void visitNewArray(JCNewArray tree) {
duke@1	622	tree.elemtype = translate(tree.elemtype, null);
duke@1	623	translate(tree.dims, syms.intType);
jjg@511	624	if (tree.type != null) {
jjg@511	625	tree.elems = translate(tree.elems, erasure(types.elemtype(tree.type)));
jjg@511	626	tree.type = erasure(tree.type);
jjg@511	627	} else {
jjg@511	628	tree.elems = translate(tree.elems, null);
jjg@511	629	}
duke@1	630
duke@1	631	result = tree;
duke@1	632	}
duke@1	633
duke@1	634	public void visitParens(JCParens tree) {
duke@1	635	tree.expr = translate(tree.expr, pt);
duke@1	636	tree.type = erasure(tree.type);
duke@1	637	result = tree;
duke@1	638	}
duke@1	639
duke@1	640	public void visitAssign(JCAssign tree) {
duke@1	641	tree.lhs = translate(tree.lhs, null);
duke@1	642	tree.rhs = translate(tree.rhs, erasure(tree.lhs.type));
duke@1	643	tree.type = erasure(tree.type);
duke@1	644	result = tree;
duke@1	645	}
duke@1	646
duke@1	647	public void visitAssignop(JCAssignOp tree) {
mcimadamore@360	648	tree.lhs = translate(tree.lhs, null);
mcimadamore@133	649	tree.rhs = translate(tree.rhs, tree.operator.type.getParameterTypes().tail.head);
duke@1	650	tree.type = erasure(tree.type);
duke@1	651	result = tree;
duke@1	652	}
duke@1	653
duke@1	654	public void visitUnary(JCUnary tree) {
duke@1	655	tree.arg = translate(tree.arg, tree.operator.type.getParameterTypes().head);
duke@1	656	result = tree;
duke@1	657	}
duke@1	658
duke@1	659	public void visitBinary(JCBinary tree) {
duke@1	660	tree.lhs = translate(tree.lhs, tree.operator.type.getParameterTypes().head);
duke@1	661	tree.rhs = translate(tree.rhs, tree.operator.type.getParameterTypes().tail.head);
duke@1	662	result = tree;
duke@1	663	}
duke@1	664
duke@1	665	public void visitTypeCast(JCTypeCast tree) {
duke@1	666	tree.clazz = translate(tree.clazz, null);
duke@1	667	tree.type = erasure(tree.type);
duke@1	668	tree.expr = translate(tree.expr, tree.type);
duke@1	669	result = tree;
duke@1	670	}
duke@1	671
duke@1	672	public void visitTypeTest(JCInstanceOf tree) {
duke@1	673	tree.expr = translate(tree.expr, null);
duke@1	674	tree.clazz = translate(tree.clazz, null);
duke@1	675	result = tree;
duke@1	676	}
duke@1	677
duke@1	678	public void visitIndexed(JCArrayAccess tree) {
duke@1	679	tree.indexed = translate(tree.indexed, erasure(tree.indexed.type));
duke@1	680	tree.index = translate(tree.index, syms.intType);
duke@1	681
duke@1	682	// Insert casts of indexed expressions as needed.
duke@1	683	result = retype(tree, types.elemtype(tree.indexed.type), pt);
duke@1	684	}
duke@1	685
duke@1	686	// There ought to be nothing to rewrite here;
duke@1	687	// we don't generate code.
duke@1	688	public void visitAnnotation(JCAnnotation tree) {
duke@1	689	result = tree;
duke@1	690	}
duke@1	691
duke@1	692	public void visitIdent(JCIdent tree) {
duke@1	693	Type et = tree.sym.erasure(types);
duke@1	694
duke@1	695	// Map type variables to their bounds.
duke@1	696	if (tree.sym.kind == TYP && tree.sym.type.tag == TYPEVAR) {
duke@1	697	result = make.at(tree.pos).Type(et);
duke@1	698	} else
duke@1	699	// Map constants expressions to themselves.
duke@1	700	if (tree.type.constValue() != null) {
duke@1	701	result = tree;
duke@1	702	}
duke@1	703	// Insert casts of variable uses as needed.
duke@1	704	else if (tree.sym.kind == VAR) {
duke@1	705	result = retype(tree, et, pt);
duke@1	706	}
duke@1	707	else {
duke@1	708	tree.type = erasure(tree.type);
duke@1	709	result = tree;
duke@1	710	}
duke@1	711	}
duke@1	712
duke@1	713	public void visitSelect(JCFieldAccess tree) {
duke@1	714	Type t = tree.selected.type;
mcimadamore@23	715	while (t.tag == TYPEVAR)
mcimadamore@23	716	t = t.getUpperBound();
mcimadamore@23	717	if (t.isCompound()) {
duke@1	718	if ((tree.sym.flags() & IPROXY) != 0) {
duke@1	719	tree.sym = ((MethodSymbol)tree.sym).
duke@1	720	implemented((TypeSymbol)tree.sym.owner, types);
duke@1	721	}
mcimadamore@769	722	tree.selected = coerce(
mcimadamore@23	723	translate(tree.selected, erasure(tree.selected.type)),
duke@1	724	erasure(tree.sym.owner.type));
duke@1	725	} else
duke@1	726	tree.selected = translate(tree.selected, erasure(t));
duke@1	727
duke@1	728	// Map constants expressions to themselves.
duke@1	729	if (tree.type.constValue() != null) {
duke@1	730	result = tree;
duke@1	731	}
duke@1	732	// Insert casts of variable uses as needed.
duke@1	733	else if (tree.sym.kind == VAR) {
duke@1	734	result = retype(tree, tree.sym.erasure(types), pt);
duke@1	735	}
duke@1	736	else {
duke@1	737	tree.type = erasure(tree.type);
duke@1	738	result = tree;
duke@1	739	}
duke@1	740	}
duke@1	741
duke@1	742	public void visitTypeArray(JCArrayTypeTree tree) {
duke@1	743	tree.elemtype = translate(tree.elemtype, null);
duke@1	744	tree.type = erasure(tree.type);
duke@1	745	result = tree;
duke@1	746	}
duke@1	747
duke@1	748	/** Visitor method for parameterized types.
duke@1	749	*/
duke@1	750	public void visitTypeApply(JCTypeApply tree) {
jjg@308	751	JCTree clazz = translate(tree.clazz, null);
jjg@308	752	result = clazz;
duke@1	753	}
duke@1	754
duke@1	755	/**************************************************************************
duke@1	756	* utility methods
duke@1	757	*************************************************************************/
duke@1	758
duke@1	759	private Type erasure(Type t) {
duke@1	760	return types.erasure(t);
duke@1	761	}
duke@1	762
mcimadamore@673	763	private boolean boundsRestricted(ClassSymbol c) {
mcimadamore@673	764	Type st = types.supertype(c.type);
mcimadamore@673	765	if (st.isParameterized()) {
mcimadamore@673	766	List<Type> actuals = st.allparams();
mcimadamore@673	767	List<Type> formals = st.tsym.type.allparams();
mcimadamore@673	768	while (!actuals.isEmpty() && !formals.isEmpty()) {
mcimadamore@673	769	Type actual = actuals.head;
mcimadamore@673	770	Type formal = formals.head;
mcimadamore@673	771
mcimadamore@673	772	if (!types.isSameType(types.erasure(actual),
mcimadamore@673	773	types.erasure(formal)))
mcimadamore@673	774	return true;
mcimadamore@673	775
mcimadamore@673	776	actuals = actuals.tail;
mcimadamore@673	777	formals = formals.tail;
mcimadamore@673	778	}
mcimadamore@673	779	}
mcimadamore@673	780	return false;
mcimadamore@673	781	}
mcimadamore@673	782
mcimadamore@673	783	private List<JCTree> addOverrideBridgesIfNeeded(DiagnosticPosition pos,
mcimadamore@673	784	final ClassSymbol c) {
mcimadamore@673	785	ListBuffer<JCTree> buf = ListBuffer.lb();
mcimadamore@673	786	if (c.isInterface() || !boundsRestricted(c))
mcimadamore@673	787	return buf.toList();
mcimadamore@673	788	Type t = types.supertype(c.type);
mcimadamore@673	789	Scope s = t.tsym.members();
mcimadamore@673	790	if (s.elems != null) {
mcimadamore@673	791	for (Symbol sym : s.getElements(new NeedsOverridBridgeFilter(c))) {
mcimadamore@673	792
mcimadamore@673	793	MethodSymbol m = (MethodSymbol)sym;
mcimadamore@673	794	MethodSymbol member = (MethodSymbol)m.asMemberOf(c.type, types);
mcimadamore@673	795	MethodSymbol impl = m.implementation(c, types, false);
mcimadamore@673	796
mcimadamore@673	797	if ((impl == null || impl.owner != c) &&
mcimadamore@673	798	!types.isSameType(member.erasure(types), m.erasure(types))) {
mcimadamore@673	799	addOverrideBridges(pos, m, member, c, buf);
mcimadamore@673	800	}
mcimadamore@673	801	}
mcimadamore@673	802	}
mcimadamore@673	803	return buf.toList();
mcimadamore@673	804	}
mcimadamore@673	805	// where
mcimadamore@673	806	class NeedsOverridBridgeFilter implements Filter<Symbol> {
mcimadamore@673	807
mcimadamore@673	808	ClassSymbol c;
mcimadamore@673	809
mcimadamore@673	810	NeedsOverridBridgeFilter(ClassSymbol c) {
mcimadamore@673	811	this.c = c;
mcimadamore@673	812	}
mcimadamore@673	813	public boolean accepts(Symbol s) {
mcimadamore@673	814	return s.kind == MTH &&
mcimadamore@673	815	!s.isConstructor() &&
mcimadamore@673	816	s.isInheritedIn(c, types) &&
mcimadamore@673	817	(s.flags() & FINAL) == 0 &&
mcimadamore@673	818	(s.flags() & (SYNTHETIC | OVERRIDE_BRIDGE)) != SYNTHETIC;
mcimadamore@673	819	}
mcimadamore@673	820	}
mcimadamore@673	821
mcimadamore@673	822	private void addOverrideBridges(DiagnosticPosition pos,
mcimadamore@673	823	MethodSymbol impl,
mcimadamore@673	824	MethodSymbol member,
mcimadamore@673	825	ClassSymbol c,
mcimadamore@673	826	ListBuffer<JCTree> bridges) {
mcimadamore@673	827	Type implErasure = impl.erasure(types);
mcimadamore@673	828	long flags = (impl.flags() & AccessFlags) | SYNTHETIC | BRIDGE | OVERRIDE_BRIDGE;
mcimadamore@673	829	member = new MethodSymbol(flags, member.name, member.type, c);
mcimadamore@673	830	JCMethodDecl md = make.MethodDef(member, null);
mcimadamore@673	831	JCExpression receiver = make.Super(types.supertype(c.type).tsym.erasure(types), c);
mcimadamore@673	832	Type calltype = erasure(impl.type.getReturnType());
mcimadamore@673	833	JCExpression call =
mcimadamore@673	834	make.Apply(null,
mcimadamore@673	835	make.Select(receiver, impl).setType(calltype),
mcimadamore@673	836	translateArgs(make.Idents(md.params),
mcimadamore@673	837	implErasure.getParameterTypes(), null))
mcimadamore@673	838	.setType(calltype);
mcimadamore@673	839	JCStatement stat = (member.getReturnType().tag == VOID)
mcimadamore@673	840	? make.Exec(call)
mcimadamore@673	841	: make.Return(coerce(call, member.erasure(types).getReturnType()));
mcimadamore@673	842	md.body = make.Block(0, List.of(stat));
mcimadamore@673	843	c.members().enter(member);
mcimadamore@673	844	bridges.append(md);
mcimadamore@673	845	}
mcimadamore@673	846
duke@1	847	/**************************************************************************
duke@1	848	* main method
duke@1	849	*************************************************************************/
duke@1	850
duke@1	851	private Env<AttrContext> env;
duke@1	852
duke@1	853	void translateClass(ClassSymbol c) {
duke@1	854	Type st = types.supertype(c.type);
duke@1	855
duke@1	856	// process superclass before derived
duke@1	857	if (st.tag == CLASS)
duke@1	858	translateClass((ClassSymbol)st.tsym);
duke@1	859
duke@1	860	Env<AttrContext> myEnv = enter.typeEnvs.remove(c);
duke@1	861	if (myEnv == null)
duke@1	862	return;
duke@1	863	Env<AttrContext> oldEnv = env;
duke@1	864	try {
duke@1	865	env = myEnv;
duke@1	866	// class has not been translated yet
duke@1	867
duke@1	868	TreeMaker savedMake = make;
duke@1	869	Type savedPt = pt;
duke@1	870	make = make.forToplevel(env.toplevel);
duke@1	871	pt = null;
duke@1	872	try {
duke@1	873	JCClassDecl tree = (JCClassDecl) env.tree;
duke@1	874	tree.typarams = List.nil();
duke@1	875	super.visitClassDef(tree);
duke@1	876	make.at(tree.pos);
duke@1	877	if (addBridges) {
duke@1	878	ListBuffer<JCTree> bridges = new ListBuffer<JCTree>();
mcimadamore@730	879	if (false) //see CR: 6996415
mcimadamore@730	880	bridges.appendList(addOverrideBridgesIfNeeded(tree, c));
duke@1	881	if ((tree.sym.flags() & INTERFACE) == 0)
duke@1	882	addBridges(tree.pos(), tree.sym, bridges);
duke@1	883	tree.defs = bridges.toList().prependList(tree.defs);
duke@1	884	}
duke@1	885	tree.type = erasure(tree.type);
duke@1	886	} finally {
duke@1	887	make = savedMake;
duke@1	888	pt = savedPt;
duke@1	889	}
duke@1	890	} finally {
duke@1	891	env = oldEnv;
duke@1	892	}
duke@1	893	}
duke@1	894
duke@1	895	/** Translate a toplevel class definition.
duke@1	896	* @param cdef The definition to be translated.
duke@1	897	*/
duke@1	898	public JCTree translateTopLevelClass(JCTree cdef, TreeMaker make) {
duke@1	899	// note that this method does NOT support recursion.
duke@1	900	this.make = make;
duke@1	901	pt = null;
duke@1	902	return translate(cdef, null);
duke@1	903	}
duke@1	904	}