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1 /*
2  * Copyright (c) 2008, 2013, Oracle and/or its affiliates. All rights reserved.
3  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4  *
5  * This code is free software; you can redistribute it and/or modify it
6  * under the terms of the GNU General Public License version 2 only, as
7  * published by the Free Software Foundation.  Oracle designates this
8  * particular file as subject to the "Classpath" exception as provided
9  * by Oracle in the LICENSE file that accompanied this code.
10  *
11  * This code is distributed in the hope that it will be useful, but WITHOUT
12  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
13  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
14  * version 2 for more details (a copy is included in the LICENSE file that
15  * accompanied this code).
16  *
17  * You should have received a copy of the GNU General Public License version
18  * 2 along with this work; if not, write to the Free Software Foundation,
19  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
20  *
21  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
22  * or visit www.oracle.com if you need additional information or have any
23  * questions.
24  */
25 
26 package java.lang.invoke;
27 
28 import sun.invoke.util.Wrapper;
29 import java.lang.ref.SoftReference;
30 import static java.lang.invoke.MethodHandleStatics.*;
31 
32 /**
33  * Shared information for a group of method types, which differ
34  * only by reference types, and therefore share a common erasure
35  * and wrapping.
36  * <p>
37  * For an empirical discussion of the structure of method types,
38  * see <a href="http://groups.google.com/group/jvm-languages/browse_thread/thread/ac9308ae74da9b7e/">
39  * the thread "Avoiding Boxing" on jvm-languages</a>.
40  * There are approximately 2000 distinct erased method types in the JDK.
41  * There are a little over 10 times that number of unerased types.
42  * No more than half of these are likely to be loaded at once.
43  * @author John Rose
44  */
45 final class MethodTypeForm {
46     final int[] argToSlotTable, slotToArgTable;
47     final long argCounts;               // packed slot & value counts
48     final long primCounts;              // packed prim & double counts
49     final MethodType erasedType;        // the canonical erasure
50     final MethodType basicType;         // the canonical erasure, with primitives simplified
51 
52     // BEGIN Android-removed: Cached adaptors / lambda forms.
53     // The upstream caching mechanism will not work on Android because of fundamental differences
54     // in the Android runtime/implementation of MethodHandle. LambdaForm is not supported on
55     // Android for similar reasons.
56     /*
57     // Cached adapter information:
58     @Stable final SoftReference<MethodHandle>[] methodHandles;
59     // Indexes into methodHandles:
60     static final int
61             MH_BASIC_INV      =  0,  // cached instance of MH.invokeBasic
62             MH_NF_INV         =  1,  // cached helper for LF.NamedFunction
63             MH_UNINIT_CS      =  2,  // uninitialized call site
64             MH_LIMIT          =  3;
65 
66     // Cached lambda form information, for basic types only:
67     final @Stable SoftReference<LambdaForm>[] lambdaForms;
68     // Indexes into lambdaForms:
69     static final int
70             LF_INVVIRTUAL              =  0,  // DMH invokeVirtual
71             LF_INVSTATIC               =  1,
72             LF_INVSPECIAL              =  2,
73             LF_NEWINVSPECIAL           =  3,
74             LF_INVINTERFACE            =  4,
75             LF_INVSTATIC_INIT          =  5,  // DMH invokeStatic with <clinit> barrier
76             LF_INTERPRET               =  6,  // LF interpreter
77             LF_REBIND                  =  7,  // BoundMethodHandle
78             LF_DELEGATE                =  8,  // DelegatingMethodHandle
79             LF_DELEGATE_BLOCK_INLINING =  9,  // Counting DelegatingMethodHandle w/ @DontInline
80             LF_EX_LINKER               = 10,  // invokeExact_MT (for invokehandle)
81             LF_EX_INVOKER              = 11,  // MHs.invokeExact
82             LF_GEN_LINKER              = 12,  // generic invoke_MT (for invokehandle)
83             LF_GEN_INVOKER             = 13,  // generic MHs.invoke
84             LF_CS_LINKER               = 14,  // linkToCallSite_CS
85             LF_MH_LINKER               = 15,  // linkToCallSite_MH
86             LF_GWC                     = 16,  // guardWithCatch (catchException)
87             LF_GWT                     = 17,  // guardWithTest
88             LF_LIMIT                   = 18;
89     */
90     // END Android-removed: Cached adaptors / lambda forms.
91 
92     /** Return the type corresponding uniquely (1-1) to this MT-form.
93      *  It might have any primitive returns or arguments, but will have no references except Object.
94      */
erasedType()95     public MethodType erasedType() {
96         return erasedType;
97     }
98 
99     /** Return the basic type derived from the erased type of this MT-form.
100      *  A basic type is erased (all references Object) and also has all primitive
101      *  types (except int, long, float, double, void) normalized to int.
102      *  Such basic types correspond to low-level JVM calling sequences.
103      */
basicType()104     public MethodType basicType() {
105         return basicType;
106     }
107 
assertIsBasicType()108     private boolean assertIsBasicType() {
109         // primitives must be flattened also
110         assert(erasedType == basicType)
111                 : "erasedType: " + erasedType + " != basicType: " + basicType;
112         return true;
113     }
114 
115     // BEGIN Android-removed: Cached adaptors / lambda forms.
116     /*
117     public MethodHandle cachedMethodHandle(int which) {
118         assert(assertIsBasicType());
119         SoftReference<MethodHandle> entry = methodHandles[which];
120         return (entry != null) ? entry.get() : null;
121     }
122 
123     synchronized public MethodHandle setCachedMethodHandle(int which, MethodHandle mh) {
124         // Simulate a CAS, to avoid racy duplication of results.
125         SoftReference<MethodHandle> entry = methodHandles[which];
126         if (entry != null) {
127             MethodHandle prev = entry.get();
128             if (prev != null) {
129                 return prev;
130             }
131         }
132         methodHandles[which] = new SoftReference<>(mh);
133         return mh;
134     }
135 
136     public LambdaForm cachedLambdaForm(int which) {
137         assert(assertIsBasicType());
138         SoftReference<LambdaForm> entry = lambdaForms[which];
139         return (entry != null) ? entry.get() : null;
140     }
141 
142     synchronized public LambdaForm setCachedLambdaForm(int which, LambdaForm form) {
143         // Simulate a CAS, to avoid racy duplication of results.
144         SoftReference<LambdaForm> entry = lambdaForms[which];
145         if (entry != null) {
146             LambdaForm prev = entry.get();
147             if (prev != null) {
148                 return prev;
149             }
150         }
151         lambdaForms[which] = new SoftReference<>(form);
152         return form;
153     }
154     */
155     // END Android-removed: Cached adaptors / lambda forms.
156 
157     /**
158      * Build an MTF for a given type, which must have all references erased to Object.
159      * This MTF will stand for that type and all un-erased variations.
160      * Eagerly compute some basic properties of the type, common to all variations.
161      */
162     @SuppressWarnings({"rawtypes", "unchecked"})
MethodTypeForm(MethodType erasedType)163     protected MethodTypeForm(MethodType erasedType) {
164         this.erasedType = erasedType;
165 
166         Class<?>[] ptypes = erasedType.ptypes();
167         int ptypeCount = ptypes.length;
168         int pslotCount = ptypeCount;            // temp. estimate
169         int rtypeCount = 1;                     // temp. estimate
170         int rslotCount = 1;                     // temp. estimate
171 
172         int[] argToSlotTab = null, slotToArgTab = null;
173 
174         // Walk the argument types, looking for primitives.
175         int pac = 0, lac = 0, prc = 0, lrc = 0;
176         Class<?>[] epts = ptypes;
177         Class<?>[] bpts = epts;
178         for (int i = 0; i < epts.length; i++) {
179             Class<?> pt = epts[i];
180             if (pt != Object.class) {
181                 ++pac;
182                 Wrapper w = Wrapper.forPrimitiveType(pt);
183                 if (w.isDoubleWord())  ++lac;
184                 if (w.isSubwordOrInt() && pt != int.class) {
185                     if (bpts == epts)
186                         bpts = bpts.clone();
187                     bpts[i] = int.class;
188                 }
189             }
190         }
191         pslotCount += lac;                  // #slots = #args + #longs
192         Class<?> rt = erasedType.returnType();
193         Class<?> bt = rt;
194         if (rt != Object.class) {
195             ++prc;          // even void.class counts as a prim here
196             Wrapper w = Wrapper.forPrimitiveType(rt);
197             if (w.isDoubleWord())  ++lrc;
198             if (w.isSubwordOrInt() && rt != int.class)
199                 bt = int.class;
200             // adjust #slots, #args
201             if (rt == void.class)
202                 rtypeCount = rslotCount = 0;
203             else
204                 rslotCount += lrc;
205         }
206         if (epts == bpts && bt == rt) {
207             this.basicType = erasedType;
208         } else {
209             this.basicType = MethodType.makeImpl(bt, bpts, true);
210             // fill in rest of data from the basic type:
211             MethodTypeForm that = this.basicType.form();
212             assert(this != that);
213             this.primCounts = that.primCounts;
214             this.argCounts = that.argCounts;
215             this.argToSlotTable = that.argToSlotTable;
216             this.slotToArgTable = that.slotToArgTable;
217             // Android-removed: Cached adaptors / lambda forms.
218             // this.methodHandles = null;
219             // this.lambdaForms = null;
220             return;
221         }
222         if (lac != 0) {
223             int slot = ptypeCount + lac;
224             slotToArgTab = new int[slot+1];
225             argToSlotTab = new int[1+ptypeCount];
226             argToSlotTab[0] = slot;  // argument "-1" is past end of slots
227             for (int i = 0; i < epts.length; i++) {
228                 Class<?> pt = epts[i];
229                 Wrapper w = Wrapper.forBasicType(pt);
230                 if (w.isDoubleWord())  --slot;
231                 --slot;
232                 slotToArgTab[slot] = i+1; // "+1" see argSlotToParameter note
233                 argToSlotTab[1+i]  = slot;
234             }
235             assert(slot == 0);  // filled the table
236         } else if (pac != 0) {
237             // have primitives but no long primitives; share slot counts with generic
238             assert(ptypeCount == pslotCount);
239             MethodTypeForm that = MethodType.genericMethodType(ptypeCount).form();
240             assert(this != that);
241             slotToArgTab = that.slotToArgTable;
242             argToSlotTab = that.argToSlotTable;
243         } else {
244             int slot = ptypeCount; // first arg is deepest in stack
245             slotToArgTab = new int[slot+1];
246             argToSlotTab = new int[1+ptypeCount];
247             argToSlotTab[0] = slot;  // argument "-1" is past end of slots
248             for (int i = 0; i < ptypeCount; i++) {
249                 --slot;
250                 slotToArgTab[slot] = i+1; // "+1" see argSlotToParameter note
251                 argToSlotTab[1+i]  = slot;
252             }
253         }
254         this.primCounts = pack(lrc, prc, lac, pac);
255         this.argCounts = pack(rslotCount, rtypeCount, pslotCount, ptypeCount);
256         this.argToSlotTable = argToSlotTab;
257         this.slotToArgTable = slotToArgTab;
258 
259         if (pslotCount >= 256)  throw newIllegalArgumentException("too many arguments");
260 
261         // Initialize caches, but only for basic types
262         assert(basicType == erasedType);
263         // Android-removed: Cached adaptors / lambda forms.
264         // this.lambdaForms   = new SoftReference[LF_LIMIT];
265         // this.methodHandles = new SoftReference[MH_LIMIT];
266     }
267 
pack(int a, int b, int c, int d)268     private static long pack(int a, int b, int c, int d) {
269         assert(((a|b|c|d) & ~0xFFFF) == 0);
270         long hw = ((a << 16) | b), lw = ((c << 16) | d);
271         return (hw << 32) | lw;
272     }
unpack(long packed, int word)273     private static char unpack(long packed, int word) { // word==0 => return a, ==3 => return d
274         assert(word <= 3);
275         return (char)(packed >> ((3-word) * 16));
276     }
277 
parameterCount()278     public int parameterCount() {                      // # outgoing values
279         return unpack(argCounts, 3);
280     }
parameterSlotCount()281     public int parameterSlotCount() {                  // # outgoing interpreter slots
282         return unpack(argCounts, 2);
283     }
returnCount()284     public int returnCount() {                         // = 0 (V), or 1
285         return unpack(argCounts, 1);
286     }
returnSlotCount()287     public int returnSlotCount() {                     // = 0 (V), 2 (J/D), or 1
288         return unpack(argCounts, 0);
289     }
primitiveParameterCount()290     public int primitiveParameterCount() {
291         return unpack(primCounts, 3);
292     }
longPrimitiveParameterCount()293     public int longPrimitiveParameterCount() {
294         return unpack(primCounts, 2);
295     }
primitiveReturnCount()296     public int primitiveReturnCount() {                // = 0 (obj), or 1
297         return unpack(primCounts, 1);
298     }
longPrimitiveReturnCount()299     public int longPrimitiveReturnCount() {            // = 1 (J/D), or 0
300         return unpack(primCounts, 0);
301     }
hasPrimitives()302     public boolean hasPrimitives() {
303         return primCounts != 0;
304     }
hasNonVoidPrimitives()305     public boolean hasNonVoidPrimitives() {
306         if (primCounts == 0)  return false;
307         if (primitiveParameterCount() != 0)  return true;
308         return (primitiveReturnCount() != 0 && returnCount() != 0);
309     }
hasLongPrimitives()310     public boolean hasLongPrimitives() {
311         return (longPrimitiveParameterCount() | longPrimitiveReturnCount()) != 0;
312     }
parameterToArgSlot(int i)313     public int parameterToArgSlot(int i) {
314         return argToSlotTable[1+i];
315     }
argSlotToParameter(int argSlot)316     public int argSlotToParameter(int argSlot) {
317         // Note:  Empty slots are represented by zero in this table.
318         // Valid arguments slots contain incremented entries, so as to be non-zero.
319         // We return -1 the caller to mean an empty slot.
320         return slotToArgTable[argSlot] - 1;
321     }
322 
findForm(MethodType mt)323     static MethodTypeForm findForm(MethodType mt) {
324         MethodType erased = canonicalize(mt, ERASE, ERASE);
325         if (erased == null) {
326             // It is already erased.  Make a new MethodTypeForm.
327             return new MethodTypeForm(mt);
328         } else {
329             // Share the MethodTypeForm with the erased version.
330             return erased.form();
331         }
332     }
333 
334     /** Codes for {@link #canonicalize(java.lang.Class, int)}.
335      * ERASE means change every reference to {@code Object}.
336      * WRAP means convert primitives (including {@code void} to their
337      * corresponding wrapper types.  UNWRAP means the reverse of WRAP.
338      * INTS means convert all non-void primitive types to int or long,
339      * according to size.  LONGS means convert all non-void primitives
340      * to long, regardless of size.  RAW_RETURN means convert a type
341      * (assumed to be a return type) to int if it is smaller than an int,
342      * or if it is void.
343      */
344     public static final int NO_CHANGE = 0, ERASE = 1, WRAP = 2, UNWRAP = 3, INTS = 4, LONGS = 5, RAW_RETURN = 6;
345 
346     /** Canonicalize the types in the given method type.
347      * If any types change, intern the new type, and return it.
348      * Otherwise return null.
349      */
canonicalize(MethodType mt, int howRet, int howArgs)350     public static MethodType canonicalize(MethodType mt, int howRet, int howArgs) {
351         Class<?>[] ptypes = mt.ptypes();
352         Class<?>[] ptc = MethodTypeForm.canonicalizeAll(ptypes, howArgs);
353         Class<?> rtype = mt.returnType();
354         Class<?> rtc = MethodTypeForm.canonicalize(rtype, howRet);
355         if (ptc == null && rtc == null) {
356             // It is already canonical.
357             return null;
358         }
359         // Find the erased version of the method type:
360         if (rtc == null)  rtc = rtype;
361         if (ptc == null)  ptc = ptypes;
362         return MethodType.makeImpl(rtc, ptc, true);
363     }
364 
365     /** Canonicalize the given return or param type.
366      *  Return null if the type is already canonicalized.
367      */
canonicalize(Class<?> t, int how)368     static Class<?> canonicalize(Class<?> t, int how) {
369         Class<?> ct;
370         if (t == Object.class) {
371             // no change, ever
372         } else if (!t.isPrimitive()) {
373             switch (how) {
374                 case UNWRAP:
375                     ct = Wrapper.asPrimitiveType(t);
376                     if (ct != t)  return ct;
377                     break;
378                 case RAW_RETURN:
379                 case ERASE:
380                     return Object.class;
381             }
382         } else if (t == void.class) {
383             // no change, usually
384             switch (how) {
385                 case RAW_RETURN:
386                     return int.class;
387                 case WRAP:
388                     return Void.class;
389             }
390         } else {
391             // non-void primitive
392             switch (how) {
393                 case WRAP:
394                     return Wrapper.asWrapperType(t);
395                 case INTS:
396                     if (t == int.class || t == long.class)
397                         return null;  // no change
398                     if (t == double.class)
399                         return long.class;
400                     return int.class;
401                 case LONGS:
402                     if (t == long.class)
403                         return null;  // no change
404                     return long.class;
405                 case RAW_RETURN:
406                     if (t == int.class || t == long.class ||
407                         t == float.class || t == double.class)
408                         return null;  // no change
409                     // everything else returns as an int
410                     return int.class;
411             }
412         }
413         // no change; return null to signify
414         return null;
415     }
416 
417     /** Canonicalize each param type in the given array.
418      *  Return null if all types are already canonicalized.
419      */
canonicalizeAll(Class<?>[] ts, int how)420     static Class<?>[] canonicalizeAll(Class<?>[] ts, int how) {
421         Class<?>[] cs = null;
422         for (int imax = ts.length, i = 0; i < imax; i++) {
423             Class<?> c = canonicalize(ts[i], how);
424             if (c == void.class)
425                 c = null;  // a Void parameter was unwrapped to void; ignore
426             if (c != null) {
427                 if (cs == null)
428                     cs = ts.clone();
429                 cs[i] = c;
430             }
431         }
432         return cs;
433     }
434 
435     @Override
toString()436     public String toString() {
437         return "Form"+erasedType;
438     }
439 }
440