EMMA Coverage Report

EMMA Coverage Report (generated Thu Dec 06 17:57:59 GMT 2007)
[all classes][com.sun.tools.javac.comp]

COVERAGE SUMMARY FOR SOURCE FILE [Infer.java]

name	class, %	method, %	block, %	line, %
Infer.java	100% (4/4)	29% (6/21)	10% (89/927)	12% (19/165)

COVERAGE BREAKDOWN BY CLASS AND METHOD

name	class, %	method, %	block, %	line, %

class Infer	100% (1/1)	27% (3/11)	8% (66/800)	10% (15/143)
access$000 (Infer): Infer$NoInstanceException		0% (0/1)	0% (0/3)	0% (0/1)
checkWithinBounds (List, List, Warner): void		0% (0/1)	0% (0/48)	0% (0/8)
instantiateArg (Type$ForAll, Type, List, Warner): Type		0% (0/1)	0% (0/36)	0% (0/6)
instantiateExpr (Type$ForAll, Type, Warner): Type		0% (0/1)	0% (0/117)	0% (0/17)
instantiateMethod (List, Type$MethodType, List, boolean, boolean, Warner): Type		0% (0/1)	0% (0/265)	0% (0/49)
isSubClass (Type, List): boolean		0% (0/1)	0% (0/76)	0% (0/13)
maximizeInst (Type$UndetVar, Warner): void		0% (0/1)	0% (0/77)	0% (0/13)
minimizeInst (Type$UndetVar, Warner): void		0% (0/1)	0% (0/112)	0% (0/21)
<static initializer>		100% (1/1)	100% (11/11)	100% (2/2)
Infer (Context): void		100% (1/1)	100% (41/41)	100% (9/9)
instance (Context): Infer		100% (1/1)	100% (14/14)	100% (4/4)

class Infer$NoInstanceException	100% (1/1)	17% (1/6)	13% (9/68)	31% (4/13)
getDiagnostic (): JCDiagnostic		0% (0/1)	0% (0/3)	0% (0/1)
setMessage (String): Infer$NoInstanceException		0% (0/1)	0% (0/8)	0% (0/2)
setMessage (String, Object): Infer$NoInstanceException		0% (0/1)	0% (0/12)	0% (0/2)
setMessage (String, Object, Object): Infer$NoInstanceException		0% (0/1)	0% (0/16)	0% (0/2)
setMessage (String, Object, Object, Object): Infer$NoInstanceException		0% (0/1)	0% (0/20)	0% (0/2)
Infer$NoInstanceException (boolean): void		100% (1/1)	100% (9/9)	100% (4/4)

class Infer$2	100% (1/1)	50% (1/2)	18% (7/39)	12% (1/8)
apply (Type): Type		0% (0/1)	0% (0/32)	0% (0/7)
Infer$2 (Infer, String): void		100% (1/1)	100% (7/7)	100% (1/1)

class Infer$1	100% (1/1)	50% (1/2)	35% (7/20)	33% (1/3)
apply (Type): Type		0% (0/1)	0% (0/13)	0% (0/2)
Infer$1 (Infer, String): void		100% (1/1)	100% (7/7)	100% (1/1)

1	/*
2	* Copyright 1999-2006 Sun Microsystems, Inc. All Rights Reserved.
3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4	*
5	* This code is free software; you can redistribute it and/or modify it
6	* under the terms of the GNU General Public License version 2 only, as
7	* published by the Free Software Foundation. Sun designates this
8	* particular file as subject to the "Classpath" exception as provided
9	* by Sun in the LICENSE file that accompanied this code.
10	*
11	* This code is distributed in the hope that it will be useful, but WITHOUT
12	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
13	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14	* version 2 for more details (a copy is included in the LICENSE file that
15	* accompanied this code).
16	*
17	* You should have received a copy of the GNU General Public License version
18	* 2 along with this work; if not, write to the Free Software Foundation,
19	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
20	*
21	* Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
22	* CA 95054 USA or visit www.sun.com if you need additional information or
23	* have any questions.
24	*/
25
26	package com.sun.tools.javac.comp;
27
28	import com.sun.tools.javac.util.*;
29	import com.sun.tools.javac.util.List;
30	import com.sun.tools.javac.code.*;
31	import com.sun.tools.javac.code.Type.*;
32
33	import static com.sun.tools.javac.code.Flags.*;
34	import static com.sun.tools.javac.code.Kinds.*;
35	import static com.sun.tools.javac.code.TypeTags.*;
36
37	/** Helper class for type parameter inference, used by the attribution phase.
38	*
39	* <p><b>This is NOT part of any API supported by Sun Microsystems. If
40	* you write code that depends on this, you do so at your own risk.
41	* This code and its internal interfaces are subject to change or
42	* deletion without notice.</b>
43	*/
44	public class Infer {
45	protected static final Context.Key<Infer> inferKey =
46	new Context.Key<Infer>();
47
48	/** A value for prototypes that admit any type, including polymorphic ones. */
49	public static final Type anyPoly = new Type(NONE, null);
50
51	Symtab syms;
52	Types types;
53
54	public static Infer instance(Context context) {
55	Infer instance = context.get(inferKey);
56	if (instance == null)
57	instance = new Infer(context);
58	return instance;
59	}
60
61	protected Infer(Context context) {
62	context.put(inferKey, this);
63	syms = Symtab.instance(context);
64	types = Types.instance(context);
65	}
66
67	public static class NoInstanceException extends RuntimeException {
68	private static final long serialVersionUID = 0;
69
70	boolean isAmbiguous; // exist several incomparable best instances?
71
72	JCDiagnostic diagnostic;
73
74	NoInstanceException(boolean isAmbiguous) {
75	this.diagnostic = null;
76	this.isAmbiguous = isAmbiguous;
77	}
78	NoInstanceException setMessage(String key) {
79	this.diagnostic = JCDiagnostic.fragment(key);
80	return this;
81	}
82	NoInstanceException setMessage(String key, Object arg1) {
83	this.diagnostic = JCDiagnostic.fragment(key, arg1);
84	return this;
85	}
86	NoInstanceException setMessage(String key, Object arg1, Object arg2) {
87	this.diagnostic = JCDiagnostic.fragment(key, arg1, arg2);
88	return this;
89	}
90	NoInstanceException setMessage(String key, Object arg1, Object arg2, Object arg3) {
91	this.diagnostic = JCDiagnostic.fragment(key, arg1, arg2, arg3);
92	return this;
93	}
94	public JCDiagnostic getDiagnostic() {
95	return diagnostic;
96	}
97	}
98	private final NoInstanceException ambiguousNoInstanceException =
99	new NoInstanceException(true);
100	private final NoInstanceException unambiguousNoInstanceException =
101	new NoInstanceException(false);
102
103	/***************************************************************************
104	* Auxiliary type values and classes
105	***************************************************************************/
106
107	/** A mapping that turns type variables into undetermined type variables.
108	*/
109	Mapping fromTypeVarFun = new Mapping("fromTypeVarFun") {
110	public Type apply(Type t) {
111	if (t.tag == TYPEVAR) return new UndetVar(t);
112	else return t.map(this);
113	}
114	};
115
116	/** A mapping that returns its type argument with every UndetVar replaced
117	* by its `inst' field. Throws a NoInstanceException
118	* if this not possible because an `inst' field is null.
119	*/
120	Mapping getInstFun = new Mapping("getInstFun") {
121	public Type apply(Type t) {
122	switch (t.tag) {
123	case UNKNOWN:
124	throw ambiguousNoInstanceException
125	.setMessage("undetermined.type");
126	case UNDETVAR:
127	UndetVar that = (UndetVar) t;
128	if (that.inst == null)
129	throw ambiguousNoInstanceException
130	.setMessage("type.variable.has.undetermined.type",
131	that.qtype);
132	return apply(that.inst);
133	default:
134	return t.map(this);
135	}
136	}
137	};
138
139	/***************************************************************************
140	* Mini/Maximization of UndetVars
141	***************************************************************************/
142
143	/** Instantiate undetermined type variable to its minimal upper bound.
144	* Throw a NoInstanceException if this not possible.
145	*/
146	void maximizeInst(UndetVar that, Warner warn) throws NoInstanceException {
147	if (that.inst == null) {
148	if (that.hibounds.isEmpty())
149	that.inst = syms.objectType;
150	else if (that.hibounds.tail.isEmpty())
151	that.inst = that.hibounds.head;
152	else {
153	for (List<Type> bs = that.hibounds;
154	bs.nonEmpty() && that.inst == null;
155	bs = bs.tail) {
156	// System.out.println("hibounds = " + that.hibounds);//DEBUG
157	if (isSubClass(bs.head, that.hibounds))
158	that.inst = types.fromUnknownFun.apply(bs.head);
159	}
160	if (that.inst == null \|\| !types.isSubtypeUnchecked(that.inst, that.hibounds, warn))
161	throw ambiguousNoInstanceException
162	.setMessage("no.unique.maximal.instance.exists",
163	that.qtype, that.hibounds);
164	}
165	}
166	}
167	//where
168	private boolean isSubClass(Type t, final List<Type> ts) {
169	t = t.baseType();
170	if (t.tag == TYPEVAR) {
171	List<Type> bounds = types.getBounds((TypeVar)t);
172	for (Type s : ts) {
173	if (!types.isSameType(t, s.baseType())) {
174	for (Type bound : bounds) {
175	if (!isSubClass(bound, List.of(s.baseType())))
176	return false;
177	}
178	}
179	}
180	} else {
181	for (Type s : ts) {
182	if (!t.tsym.isSubClass(s.baseType().tsym, types))
183	return false;
184	}
185	}
186	return true;
187	}
188
189	/** Instaniate undetermined type variable to the lub of all its lower bounds.
190	* Throw a NoInstanceException if this not possible.
191	*/
192	void minimizeInst(UndetVar that, Warner warn) throws NoInstanceException {
193	if (that.inst == null) {
194	if (that.lobounds.isEmpty())
195	that.inst = syms.botType;
196	else if (that.lobounds.tail.isEmpty())
197	that.inst = that.lobounds.head;
198	else {
199	that.inst = types.lub(that.lobounds);
200	if (that.inst == null)
201	throw ambiguousNoInstanceException
202	.setMessage("no.unique.minimal.instance.exists",
203	that.qtype, that.lobounds);
204	}
205	// VGJ: sort of inlined maximizeInst() below. Adding
206	// bounds can cause lobounds that are above hibounds.
207	if (that.hibounds.isEmpty())
208	return;
209	Type hb = null;
210	if (that.hibounds.tail.isEmpty())
211	hb = that.hibounds.head;
212	else for (List<Type> bs = that.hibounds;
213	bs.nonEmpty() && hb == null;
214	bs = bs.tail) {
215	if (isSubClass(bs.head, that.hibounds))
216	hb = types.fromUnknownFun.apply(bs.head);
217	}
218	if (hb == null \|\|
219	!types.isSubtypeUnchecked(hb, that.hibounds, warn) \|\|
220	!types.isSubtypeUnchecked(that.inst, hb, warn))
221	throw ambiguousNoInstanceException;
222	}
223	}
224
225	/***************************************************************************
226	* Exported Methods
227	***************************************************************************/
228
229	/** Try to instantiate expression type `that' to given type `to'.
230	* If a maximal instantiation exists which makes this type
231	* a subtype of type `to', return the instantiated type.
232	* If no instantiation exists, or if several incomparable
233	* best instantiations exist throw a NoInstanceException.
234	*/
235	public Type instantiateExpr(ForAll that,
236	Type to,
237	Warner warn) throws NoInstanceException {
238	List<Type> undetvars = Type.map(that.tvars, fromTypeVarFun);
239	for (List<Type> l = undetvars; l.nonEmpty(); l = l.tail) {
240	UndetVar v = (UndetVar) l.head;
241	ListBuffer<Type> hibounds = new ListBuffer<Type>();
242	for (List<Type> l1 = types.getBounds((TypeVar) v.qtype); l1.nonEmpty(); l1 = l1.tail) {
243	if (!l1.head.containsSome(that.tvars)) {
244	hibounds.append(l1.head);
245	}
246	}
247	v.hibounds = hibounds.toList();
248	}
249	Type qtype1 = types.subst(that.qtype, that.tvars, undetvars);
250	if (!types.isSubtype(qtype1, to)) {
251	throw unambiguousNoInstanceException
252	.setMessage("no.conforming.instance.exists",
253	that.tvars, that.qtype, to);
254	}
255	for (List<Type> l = undetvars; l.nonEmpty(); l = l.tail)
256	maximizeInst((UndetVar) l.head, warn);
257	// System.out.println(" = " + qtype1.map(getInstFun));//DEBUG
258
259	// check bounds
260	List<Type> targs = Type.map(undetvars, getInstFun);
261	targs = types.subst(targs, that.tvars, targs);
262	checkWithinBounds(that.tvars, targs, warn);
263
264	return getInstFun.apply(qtype1);
265	}
266
267	/** Instantiate method type `mt' by finding instantiations of
268	* `tvars' so that method can be applied to `argtypes'.
269	*/
270	public Type instantiateMethod(List<Type> tvars,
271	MethodType mt,
272	List<Type> argtypes,
273	boolean allowBoxing,
274	boolean useVarargs,
275	Warner warn) throws NoInstanceException {
276	//-System.err.println("instantiateMethod(" + tvars + ", " + mt + ", " + argtypes + ")"); //DEBUG
277	List<Type> undetvars = Type.map(tvars, fromTypeVarFun);
278	List<Type> formals = mt.argtypes;
279
280	// instantiate all polymorphic argument types and
281	// set up lower bounds constraints for undetvars
282	Type varargsFormal = useVarargs ? formals.last() : null;
283	while (argtypes.nonEmpty() && formals.head != varargsFormal) {
284	Type ft = formals.head;
285	Type at = argtypes.head.baseType();
286	if (at.tag == FORALL)
287	at = instantiateArg((ForAll) at, ft, tvars, warn);
288	Type sft = types.subst(ft, tvars, undetvars);
289	boolean works = allowBoxing
290	? types.isConvertible(at, sft, warn)
291	: types.isSubtypeUnchecked(at, sft, warn);
292	if (!works) {
293	throw unambiguousNoInstanceException
294	.setMessage("no.conforming.assignment.exists",
295	tvars, at, ft);
296	}
297	formals = formals.tail;
298	argtypes = argtypes.tail;
299	}
300	if (formals.head != varargsFormal \|\| // not enough args
301	!useVarargs && argtypes.nonEmpty()) { // too many args
302	// argument lists differ in length
303	throw unambiguousNoInstanceException
304	.setMessage("arg.length.mismatch");
305	}
306
307	// for varargs arguments as well
308	if (useVarargs) {
309	Type elt = types.elemtype(varargsFormal);
310	Type sft = types.subst(elt, tvars, undetvars);
311	while (argtypes.nonEmpty()) {
312	Type ft = sft;
313	Type at = argtypes.head.baseType();
314	if (at.tag == FORALL)
315	at = instantiateArg((ForAll) at, ft, tvars, warn);
316	boolean works = types.isConvertible(at, sft, warn);
317	if (!works) {
318	throw unambiguousNoInstanceException
319	.setMessage("no.conforming.assignment.exists",
320	tvars, at, ft);
321	}
322	argtypes = argtypes.tail;
323	}
324	}
325
326	// minimize as yet undetermined type variables
327	for (Type t : undetvars)
328	minimizeInst((UndetVar) t, warn);
329
330	/** Type variables instantiated to bottom */
331	ListBuffer<Type> restvars = new ListBuffer<Type>();
332
333	/** Instantiated types or TypeVars if under-constrained */
334	ListBuffer<Type> insttypes = new ListBuffer<Type>();
335
336	/** Instantiated types or UndetVars if under-constrained */
337	ListBuffer<Type> undettypes = new ListBuffer<Type>();
338
339	for (Type t : undetvars) {
340	UndetVar uv = (UndetVar)t;
341	if (uv.inst.tag == BOT) {
342	restvars.append(uv.qtype);
343	insttypes.append(uv.qtype);
344	undettypes.append(uv);
345	uv.inst = null;
346	} else {
347	insttypes.append(uv.inst);
348	undettypes.append(uv.inst);
349	}
350	}
351	checkWithinBounds(tvars, undettypes.toList(), warn);
352
353	if (!restvars.isEmpty()) {
354	// if there are uninstantiated variables,
355	// quantify result type with them
356	mt = new MethodType(mt.argtypes,
357	new ForAll(restvars.toList(), mt.restype),
358	mt.thrown, syms.methodClass);
359	}
360
361	// return instantiated version of method type
362	return types.subst(mt, tvars, insttypes.toList());
363	}
364	//where
365
366	/** Try to instantiate argument type `that' to given type `to'.
367	* If this fails, try to insantiate `that' to `to' where
368	* every occurrence of a type variable in `tvars' is replaced
369	* by an unknown type.
370	*/
371	private Type instantiateArg(ForAll that,
372	Type to,
373	List<Type> tvars,
374	Warner warn) throws NoInstanceException {
375	List<Type> targs;
376	try {
377	return instantiateExpr(that, to, warn);
378	} catch (NoInstanceException ex) {
379	Type to1 = to;
380	for (List<Type> l = tvars; l.nonEmpty(); l = l.tail)
381	to1 = types.subst(to1, List.of(l.head), List.of(syms.unknownType));
382	return instantiateExpr(that, to1, warn);
383	}
384	}
385
386	/** check that type parameters are within their bounds.
387	*/
388	private void checkWithinBounds(List<Type> tvars,
389	List<Type> arguments,
390	Warner warn)
391	throws NoInstanceException {
392	for (List<Type> tvs = tvars, args = arguments;
393	tvs.nonEmpty();
394	tvs = tvs.tail, args = args.tail) {
395	if (args.head instanceof UndetVar) continue;
396	List<Type> bounds = types.subst(types.getBounds((TypeVar)tvs.head), tvars, arguments);
397	if (!types.isSubtypeUnchecked(args.head, bounds, warn))
398	throw unambiguousNoInstanceException
399	.setMessage("inferred.do.not.conform.to.bounds",
400	arguments, tvars);
401	}
402	}
403	}

[all classes][com.sun.tools.javac.comp]

EMMA 2.0.5312 (C) Vladimir Roubtsov