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annotate src/share/vm/opto/type.hpp @ 4597:8bc6f680a88d
fixed visual studio project files
author | Christian Haeubl <christian.haeubl@oracle.com> |
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date | Tue, 14 Feb 2012 15:01:36 -0800 |
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0 | 1 /* |
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2 * Copyright (c) 1997, 2011, Oracle and/or its affiliates. All rights reserved. |
0 | 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. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #ifndef SHARE_VM_OPTO_TYPE_HPP |
26 #define SHARE_VM_OPTO_TYPE_HPP | |
27 | |
28 #include "libadt/port.hpp" | |
29 #include "opto/adlcVMDeps.hpp" | |
30 #include "runtime/handles.hpp" | |
31 | |
0 | 32 // Portions of code courtesy of Clifford Click |
33 | |
34 // Optimization - Graph Style | |
35 | |
36 | |
37 // This class defines a Type lattice. The lattice is used in the constant | |
38 // propagation algorithms, and for some type-checking of the iloc code. | |
39 // Basic types include RSD's (lower bound, upper bound, stride for integers), | |
40 // float & double precision constants, sets of data-labels and code-labels. | |
41 // The complete lattice is described below. Subtypes have no relationship to | |
42 // up or down in the lattice; that is entirely determined by the behavior of | |
43 // the MEET/JOIN functions. | |
44 | |
45 class Dict; | |
46 class Type; | |
47 class TypeD; | |
48 class TypeF; | |
49 class TypeInt; | |
50 class TypeLong; | |
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51 class TypeNarrowOop; |
0 | 52 class TypeAry; |
53 class TypeTuple; | |
54 class TypePtr; | |
55 class TypeRawPtr; | |
56 class TypeOopPtr; | |
57 class TypeInstPtr; | |
58 class TypeAryPtr; | |
59 class TypeKlassPtr; | |
60 | |
61 //------------------------------Type------------------------------------------- | |
62 // Basic Type object, represents a set of primitive Values. | |
63 // Types are hash-cons'd into a private class dictionary, so only one of each | |
64 // different kind of Type exists. Types are never modified after creation, so | |
65 // all their interesting fields are constant. | |
66 class Type { | |
3939 | 67 friend class VMStructs; |
68 | |
0 | 69 public: |
70 enum TYPES { | |
71 Bad=0, // Type check | |
72 Control, // Control of code (not in lattice) | |
73 Top, // Top of the lattice | |
74 Int, // Integer range (lo-hi) | |
75 Long, // Long integer range (lo-hi) | |
76 Half, // Placeholder half of doubleword | |
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77 NarrowOop, // Compressed oop pointer |
0 | 78 |
79 Tuple, // Method signature or object layout | |
80 Array, // Array types | |
81 | |
82 AnyPtr, // Any old raw, klass, inst, or array pointer | |
83 RawPtr, // Raw (non-oop) pointers | |
84 OopPtr, // Any and all Java heap entities | |
85 InstPtr, // Instance pointers (non-array objects) | |
86 AryPtr, // Array pointers | |
87 KlassPtr, // Klass pointers | |
88 // (Ptr order matters: See is_ptr, isa_ptr, is_oopptr, isa_oopptr.) | |
89 | |
90 Function, // Function signature | |
91 Abio, // Abstract I/O | |
92 Return_Address, // Subroutine return address | |
93 Memory, // Abstract store | |
94 FloatTop, // No float value | |
95 FloatCon, // Floating point constant | |
96 FloatBot, // Any float value | |
97 DoubleTop, // No double value | |
98 DoubleCon, // Double precision constant | |
99 DoubleBot, // Any double value | |
100 Bottom, // Bottom of lattice | |
101 lastype // Bogus ending type (not in lattice) | |
102 }; | |
103 | |
104 // Signal values for offsets from a base pointer | |
105 enum OFFSET_SIGNALS { | |
106 OffsetTop = -2000000000, // undefined offset | |
107 OffsetBot = -2000000001 // any possible offset | |
108 }; | |
109 | |
110 // Min and max WIDEN values. | |
111 enum WIDEN { | |
112 WidenMin = 0, | |
113 WidenMax = 3 | |
114 }; | |
115 | |
116 private: | |
117 // Dictionary of types shared among compilations. | |
118 static Dict* _shared_type_dict; | |
119 | |
120 static int uhash( const Type *const t ); | |
121 // Structural equality check. Assumes that cmp() has already compared | |
122 // the _base types and thus knows it can cast 't' appropriately. | |
123 virtual bool eq( const Type *t ) const; | |
124 | |
125 // Top-level hash-table of types | |
126 static Dict *type_dict() { | |
127 return Compile::current()->type_dict(); | |
128 } | |
129 | |
130 // DUAL operation: reflect around lattice centerline. Used instead of | |
131 // join to ensure my lattice is symmetric up and down. Dual is computed | |
132 // lazily, on demand, and cached in _dual. | |
133 const Type *_dual; // Cached dual value | |
134 // Table for efficient dualing of base types | |
135 static const TYPES dual_type[lastype]; | |
136 | |
137 protected: | |
138 // Each class of type is also identified by its base. | |
139 const TYPES _base; // Enum of Types type | |
140 | |
141 Type( TYPES t ) : _dual(NULL), _base(t) {} // Simple types | |
142 // ~Type(); // Use fast deallocation | |
143 const Type *hashcons(); // Hash-cons the type | |
144 | |
145 public: | |
146 | |
147 inline void* operator new( size_t x ) { | |
148 Compile* compile = Compile::current(); | |
149 compile->set_type_last_size(x); | |
150 void *temp = compile->type_arena()->Amalloc_D(x); | |
151 compile->set_type_hwm(temp); | |
152 return temp; | |
153 } | |
154 inline void operator delete( void* ptr ) { | |
155 Compile* compile = Compile::current(); | |
156 compile->type_arena()->Afree(ptr,compile->type_last_size()); | |
157 } | |
158 | |
159 // Initialize the type system for a particular compilation. | |
160 static void Initialize(Compile* compile); | |
161 | |
162 // Initialize the types shared by all compilations. | |
163 static void Initialize_shared(Compile* compile); | |
164 | |
165 TYPES base() const { | |
166 assert(_base > Bad && _base < lastype, "sanity"); | |
167 return _base; | |
168 } | |
169 | |
170 // Create a new hash-consd type | |
171 static const Type *make(enum TYPES); | |
172 // Test for equivalence of types | |
173 static int cmp( const Type *const t1, const Type *const t2 ); | |
174 // Test for higher or equal in lattice | |
175 int higher_equal( const Type *t ) const { return !cmp(meet(t),t); } | |
176 | |
177 // MEET operation; lower in lattice. | |
178 const Type *meet( const Type *t ) const; | |
179 // WIDEN: 'widens' for Ints and other range types | |
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180 virtual const Type *widen( const Type *old, const Type* limit ) const { return this; } |
0 | 181 // NARROW: complement for widen, used by pessimistic phases |
182 virtual const Type *narrow( const Type *old ) const { return this; } | |
183 | |
184 // DUAL operation: reflect around lattice centerline. Used instead of | |
185 // join to ensure my lattice is symmetric up and down. | |
186 const Type *dual() const { return _dual; } | |
187 | |
188 // Compute meet dependent on base type | |
189 virtual const Type *xmeet( const Type *t ) const; | |
190 virtual const Type *xdual() const; // Compute dual right now. | |
191 | |
192 // JOIN operation; higher in lattice. Done by finding the dual of the | |
193 // meet of the dual of the 2 inputs. | |
194 const Type *join( const Type *t ) const { | |
195 return dual()->meet(t->dual())->dual(); } | |
196 | |
197 // Modified version of JOIN adapted to the needs Node::Value. | |
198 // Normalizes all empty values to TOP. Does not kill _widen bits. | |
199 // Currently, it also works around limitations involving interface types. | |
200 virtual const Type *filter( const Type *kills ) const; | |
201 | |
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202 #ifdef ASSERT |
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203 // One type is interface, the other is oop |
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204 virtual bool interface_vs_oop(const Type *t) const; |
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205 #endif |
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206 |
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207 // Returns true if this pointer points at memory which contains a |
163 | 208 // compressed oop references. |
209 bool is_ptr_to_narrowoop() const; | |
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210 |
0 | 211 // Convenience access |
212 float getf() const; | |
213 double getd() const; | |
214 | |
215 const TypeInt *is_int() const; | |
216 const TypeInt *isa_int() const; // Returns NULL if not an Int | |
217 const TypeLong *is_long() const; | |
218 const TypeLong *isa_long() const; // Returns NULL if not a Long | |
219 const TypeD *is_double_constant() const; // Asserts it is a DoubleCon | |
220 const TypeD *isa_double_constant() const; // Returns NULL if not a DoubleCon | |
221 const TypeF *is_float_constant() const; // Asserts it is a FloatCon | |
222 const TypeF *isa_float_constant() const; // Returns NULL if not a FloatCon | |
223 const TypeTuple *is_tuple() const; // Collection of fields, NOT a pointer | |
224 const TypeAry *is_ary() const; // Array, NOT array pointer | |
225 const TypePtr *is_ptr() const; // Asserts it is a ptr type | |
226 const TypePtr *isa_ptr() const; // Returns NULL if not ptr type | |
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227 const TypeRawPtr *isa_rawptr() const; // NOT Java oop |
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228 const TypeRawPtr *is_rawptr() const; // Asserts is rawptr |
163 | 229 const TypeNarrowOop *is_narrowoop() const; // Java-style GC'd pointer |
230 const TypeNarrowOop *isa_narrowoop() const; // Returns NULL if not oop ptr type | |
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231 const TypeOopPtr *isa_oopptr() const; // Returns NULL if not oop ptr type |
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232 const TypeOopPtr *is_oopptr() const; // Java-style GC'd pointer |
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233 const TypeKlassPtr *isa_klassptr() const; // Returns NULL if not KlassPtr |
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234 const TypeKlassPtr *is_klassptr() const; // assert if not KlassPtr |
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235 const TypeInstPtr *isa_instptr() const; // Returns NULL if not InstPtr |
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236 const TypeInstPtr *is_instptr() const; // Instance |
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237 const TypeAryPtr *isa_aryptr() const; // Returns NULL if not AryPtr |
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238 const TypeAryPtr *is_aryptr() const; // Array oop |
0 | 239 virtual bool is_finite() const; // Has a finite value |
240 virtual bool is_nan() const; // Is not a number (NaN) | |
241 | |
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242 // Returns this ptr type or the equivalent ptr type for this compressed pointer. |
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243 const TypePtr* make_ptr() const; |
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244 |
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245 // Returns this oopptr type or the equivalent oopptr type for this compressed pointer. |
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246 // Asserts if the underlying type is not an oopptr or narrowoop. |
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247 const TypeOopPtr* make_oopptr() const; |
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248 |
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249 // Returns this compressed pointer or the equivalent compressed version |
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250 // of this pointer type. |
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251 const TypeNarrowOop* make_narrowoop() const; |
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252 |
0 | 253 // Special test for register pressure heuristic |
254 bool is_floatingpoint() const; // True if Float or Double base type | |
255 | |
256 // Do you have memory, directly or through a tuple? | |
257 bool has_memory( ) const; | |
258 | |
259 // Are you a pointer type or not? | |
260 bool isa_oop_ptr() const; | |
261 | |
262 // TRUE if type is a singleton | |
263 virtual bool singleton(void) const; | |
264 | |
265 // TRUE if type is above the lattice centerline, and is therefore vacuous | |
266 virtual bool empty(void) const; | |
267 | |
268 // Return a hash for this type. The hash function is public so ConNode | |
269 // (constants) can hash on their constant, which is represented by a Type. | |
270 virtual int hash() const; | |
271 | |
272 // Map ideal registers (machine types) to ideal types | |
273 static const Type *mreg2type[]; | |
274 | |
275 // Printing, statistics | |
276 static const char * const msg[lastype]; // Printable strings | |
277 #ifndef PRODUCT | |
278 void dump_on(outputStream *st) const; | |
279 void dump() const { | |
280 dump_on(tty); | |
281 } | |
282 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; | |
283 static void dump_stats(); | |
284 static void verify_lastype(); // Check that arrays match type enum | |
285 #endif | |
286 void typerr(const Type *t) const; // Mixing types error | |
287 | |
288 // Create basic type | |
289 static const Type* get_const_basic_type(BasicType type) { | |
290 assert((uint)type <= T_CONFLICT && _const_basic_type[type] != NULL, "bad type"); | |
291 return _const_basic_type[type]; | |
292 } | |
293 | |
294 // Mapping to the array element's basic type. | |
295 BasicType array_element_basic_type() const; | |
296 | |
297 // Create standard type for a ciType: | |
298 static const Type* get_const_type(ciType* type); | |
299 | |
300 // Create standard zero value: | |
301 static const Type* get_zero_type(BasicType type) { | |
302 assert((uint)type <= T_CONFLICT && _zero_type[type] != NULL, "bad type"); | |
303 return _zero_type[type]; | |
304 } | |
305 | |
306 // Report if this is a zero value (not top). | |
307 bool is_zero_type() const { | |
308 BasicType type = basic_type(); | |
309 if (type == T_VOID || type >= T_CONFLICT) | |
310 return false; | |
311 else | |
312 return (this == _zero_type[type]); | |
313 } | |
314 | |
315 // Convenience common pre-built types. | |
316 static const Type *ABIO; | |
317 static const Type *BOTTOM; | |
318 static const Type *CONTROL; | |
319 static const Type *DOUBLE; | |
320 static const Type *FLOAT; | |
321 static const Type *HALF; | |
322 static const Type *MEMORY; | |
323 static const Type *MULTI; | |
324 static const Type *RETURN_ADDRESS; | |
325 static const Type *TOP; | |
326 | |
327 // Mapping from compiler type to VM BasicType | |
328 BasicType basic_type() const { return _basic_type[_base]; } | |
329 | |
330 // Mapping from CI type system to compiler type: | |
331 static const Type* get_typeflow_type(ciType* type); | |
332 | |
333 private: | |
334 // support arrays | |
335 static const BasicType _basic_type[]; | |
336 static const Type* _zero_type[T_CONFLICT+1]; | |
337 static const Type* _const_basic_type[T_CONFLICT+1]; | |
338 }; | |
339 | |
340 //------------------------------TypeF------------------------------------------ | |
341 // Class of Float-Constant Types. | |
342 class TypeF : public Type { | |
343 TypeF( float f ) : Type(FloatCon), _f(f) {}; | |
344 public: | |
345 virtual bool eq( const Type *t ) const; | |
346 virtual int hash() const; // Type specific hashing | |
347 virtual bool singleton(void) const; // TRUE if type is a singleton | |
348 virtual bool empty(void) const; // TRUE if type is vacuous | |
349 public: | |
350 const float _f; // Float constant | |
351 | |
352 static const TypeF *make(float f); | |
353 | |
354 virtual bool is_finite() const; // Has a finite value | |
355 virtual bool is_nan() const; // Is not a number (NaN) | |
356 | |
357 virtual const Type *xmeet( const Type *t ) const; | |
358 virtual const Type *xdual() const; // Compute dual right now. | |
359 // Convenience common pre-built types. | |
360 static const TypeF *ZERO; // positive zero only | |
361 static const TypeF *ONE; | |
362 #ifndef PRODUCT | |
363 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; | |
364 #endif | |
365 }; | |
366 | |
367 //------------------------------TypeD------------------------------------------ | |
368 // Class of Double-Constant Types. | |
369 class TypeD : public Type { | |
370 TypeD( double d ) : Type(DoubleCon), _d(d) {}; | |
371 public: | |
372 virtual bool eq( const Type *t ) const; | |
373 virtual int hash() const; // Type specific hashing | |
374 virtual bool singleton(void) const; // TRUE if type is a singleton | |
375 virtual bool empty(void) const; // TRUE if type is vacuous | |
376 public: | |
377 const double _d; // Double constant | |
378 | |
379 static const TypeD *make(double d); | |
380 | |
381 virtual bool is_finite() const; // Has a finite value | |
382 virtual bool is_nan() const; // Is not a number (NaN) | |
383 | |
384 virtual const Type *xmeet( const Type *t ) const; | |
385 virtual const Type *xdual() const; // Compute dual right now. | |
386 // Convenience common pre-built types. | |
387 static const TypeD *ZERO; // positive zero only | |
388 static const TypeD *ONE; | |
389 #ifndef PRODUCT | |
390 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; | |
391 #endif | |
392 }; | |
393 | |
394 //------------------------------TypeInt---------------------------------------- | |
395 // Class of integer ranges, the set of integers between a lower bound and an | |
396 // upper bound, inclusive. | |
397 class TypeInt : public Type { | |
398 TypeInt( jint lo, jint hi, int w ); | |
399 public: | |
400 virtual bool eq( const Type *t ) const; | |
401 virtual int hash() const; // Type specific hashing | |
402 virtual bool singleton(void) const; // TRUE if type is a singleton | |
403 virtual bool empty(void) const; // TRUE if type is vacuous | |
404 public: | |
405 const jint _lo, _hi; // Lower bound, upper bound | |
406 const short _widen; // Limit on times we widen this sucker | |
407 | |
408 static const TypeInt *make(jint lo); | |
409 // must always specify w | |
410 static const TypeInt *make(jint lo, jint hi, int w); | |
411 | |
412 // Check for single integer | |
413 int is_con() const { return _lo==_hi; } | |
414 bool is_con(int i) const { return is_con() && _lo == i; } | |
415 jint get_con() const { assert( is_con(), "" ); return _lo; } | |
416 | |
417 virtual bool is_finite() const; // Has a finite value | |
418 | |
419 virtual const Type *xmeet( const Type *t ) const; | |
420 virtual const Type *xdual() const; // Compute dual right now. | |
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421 virtual const Type *widen( const Type *t, const Type* limit_type ) const; |
0 | 422 virtual const Type *narrow( const Type *t ) const; |
423 // Do not kill _widen bits. | |
424 virtual const Type *filter( const Type *kills ) const; | |
425 // Convenience common pre-built types. | |
426 static const TypeInt *MINUS_1; | |
427 static const TypeInt *ZERO; | |
428 static const TypeInt *ONE; | |
429 static const TypeInt *BOOL; | |
430 static const TypeInt *CC; | |
431 static const TypeInt *CC_LT; // [-1] == MINUS_1 | |
432 static const TypeInt *CC_GT; // [1] == ONE | |
433 static const TypeInt *CC_EQ; // [0] == ZERO | |
434 static const TypeInt *CC_LE; // [-1,0] | |
435 static const TypeInt *CC_GE; // [0,1] == BOOL (!) | |
436 static const TypeInt *BYTE; | |
624 | 437 static const TypeInt *UBYTE; |
0 | 438 static const TypeInt *CHAR; |
439 static const TypeInt *SHORT; | |
440 static const TypeInt *POS; | |
441 static const TypeInt *POS1; | |
442 static const TypeInt *INT; | |
443 static const TypeInt *SYMINT; // symmetric range [-max_jint..max_jint] | |
444 #ifndef PRODUCT | |
445 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; | |
446 #endif | |
447 }; | |
448 | |
449 | |
450 //------------------------------TypeLong--------------------------------------- | |
451 // Class of long integer ranges, the set of integers between a lower bound and | |
452 // an upper bound, inclusive. | |
453 class TypeLong : public Type { | |
454 TypeLong( jlong lo, jlong hi, int w ); | |
455 public: | |
456 virtual bool eq( const Type *t ) const; | |
457 virtual int hash() const; // Type specific hashing | |
458 virtual bool singleton(void) const; // TRUE if type is a singleton | |
459 virtual bool empty(void) const; // TRUE if type is vacuous | |
460 public: | |
461 const jlong _lo, _hi; // Lower bound, upper bound | |
462 const short _widen; // Limit on times we widen this sucker | |
463 | |
464 static const TypeLong *make(jlong lo); | |
465 // must always specify w | |
466 static const TypeLong *make(jlong lo, jlong hi, int w); | |
467 | |
468 // Check for single integer | |
469 int is_con() const { return _lo==_hi; } | |
145 | 470 bool is_con(int i) const { return is_con() && _lo == i; } |
0 | 471 jlong get_con() const { assert( is_con(), "" ); return _lo; } |
472 | |
473 virtual bool is_finite() const; // Has a finite value | |
474 | |
475 virtual const Type *xmeet( const Type *t ) const; | |
476 virtual const Type *xdual() const; // Compute dual right now. | |
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477 virtual const Type *widen( const Type *t, const Type* limit_type ) const; |
0 | 478 virtual const Type *narrow( const Type *t ) const; |
479 // Do not kill _widen bits. | |
480 virtual const Type *filter( const Type *kills ) const; | |
481 // Convenience common pre-built types. | |
482 static const TypeLong *MINUS_1; | |
483 static const TypeLong *ZERO; | |
484 static const TypeLong *ONE; | |
485 static const TypeLong *POS; | |
486 static const TypeLong *LONG; | |
487 static const TypeLong *INT; // 32-bit subrange [min_jint..max_jint] | |
488 static const TypeLong *UINT; // 32-bit unsigned [0..max_juint] | |
489 #ifndef PRODUCT | |
490 virtual void dump2( Dict &d, uint, outputStream *st ) const;// Specialized per-Type dumping | |
491 #endif | |
492 }; | |
493 | |
494 //------------------------------TypeTuple-------------------------------------- | |
495 // Class of Tuple Types, essentially type collections for function signatures | |
496 // and class layouts. It happens to also be a fast cache for the HotSpot | |
497 // signature types. | |
498 class TypeTuple : public Type { | |
499 TypeTuple( uint cnt, const Type **fields ) : Type(Tuple), _cnt(cnt), _fields(fields) { } | |
500 public: | |
501 virtual bool eq( const Type *t ) const; | |
502 virtual int hash() const; // Type specific hashing | |
503 virtual bool singleton(void) const; // TRUE if type is a singleton | |
504 virtual bool empty(void) const; // TRUE if type is vacuous | |
505 | |
506 public: | |
507 const uint _cnt; // Count of fields | |
508 const Type ** const _fields; // Array of field types | |
509 | |
510 // Accessors: | |
511 uint cnt() const { return _cnt; } | |
512 const Type* field_at(uint i) const { | |
513 assert(i < _cnt, "oob"); | |
514 return _fields[i]; | |
515 } | |
516 void set_field_at(uint i, const Type* t) { | |
517 assert(i < _cnt, "oob"); | |
518 _fields[i] = t; | |
519 } | |
520 | |
521 static const TypeTuple *make( uint cnt, const Type **fields ); | |
522 static const TypeTuple *make_range(ciSignature *sig); | |
523 static const TypeTuple *make_domain(ciInstanceKlass* recv, ciSignature *sig); | |
524 | |
525 // Subroutine call type with space allocated for argument types | |
526 static const Type **fields( uint arg_cnt ); | |
527 | |
528 virtual const Type *xmeet( const Type *t ) const; | |
529 virtual const Type *xdual() const; // Compute dual right now. | |
530 // Convenience common pre-built types. | |
531 static const TypeTuple *IFBOTH; | |
532 static const TypeTuple *IFFALSE; | |
533 static const TypeTuple *IFTRUE; | |
534 static const TypeTuple *IFNEITHER; | |
535 static const TypeTuple *LOOPBODY; | |
536 static const TypeTuple *MEMBAR; | |
537 static const TypeTuple *STORECONDITIONAL; | |
538 static const TypeTuple *START_I2C; | |
539 static const TypeTuple *INT_PAIR; | |
540 static const TypeTuple *LONG_PAIR; | |
541 #ifndef PRODUCT | |
542 virtual void dump2( Dict &d, uint, outputStream *st ) const; // Specialized per-Type dumping | |
543 #endif | |
544 }; | |
545 | |
546 //------------------------------TypeAry---------------------------------------- | |
547 // Class of Array Types | |
548 class TypeAry : public Type { | |
549 TypeAry( const Type *elem, const TypeInt *size) : Type(Array), | |
550 _elem(elem), _size(size) {} | |
551 public: | |
552 virtual bool eq( const Type *t ) const; | |
553 virtual int hash() const; // Type specific hashing | |
554 virtual bool singleton(void) const; // TRUE if type is a singleton | |
555 virtual bool empty(void) const; // TRUE if type is vacuous | |
556 | |
557 private: | |
558 const Type *_elem; // Element type of array | |
559 const TypeInt *_size; // Elements in array | |
560 friend class TypeAryPtr; | |
561 | |
562 public: | |
563 static const TypeAry *make( const Type *elem, const TypeInt *size); | |
564 | |
565 virtual const Type *xmeet( const Type *t ) const; | |
566 virtual const Type *xdual() const; // Compute dual right now. | |
567 bool ary_must_be_exact() const; // true if arrays of such are never generic | |
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568 #ifdef ASSERT |
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569 // One type is interface, the other is oop |
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570 virtual bool interface_vs_oop(const Type *t) const; |
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571 #endif |
0 | 572 #ifndef PRODUCT |
573 virtual void dump2( Dict &d, uint, outputStream *st ) const; // Specialized per-Type dumping | |
574 #endif | |
575 }; | |
576 | |
577 //------------------------------TypePtr---------------------------------------- | |
578 // Class of machine Pointer Types: raw data, instances or arrays. | |
579 // If the _base enum is AnyPtr, then this refers to all of the above. | |
580 // Otherwise the _base will indicate which subset of pointers is affected, | |
581 // and the class will be inherited from. | |
582 class TypePtr : public Type { | |
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583 friend class TypeNarrowOop; |
0 | 584 public: |
585 enum PTR { TopPTR, AnyNull, Constant, Null, NotNull, BotPTR, lastPTR }; | |
586 protected: | |
587 TypePtr( TYPES t, PTR ptr, int offset ) : Type(t), _ptr(ptr), _offset(offset) {} | |
588 virtual bool eq( const Type *t ) const; | |
589 virtual int hash() const; // Type specific hashing | |
590 static const PTR ptr_meet[lastPTR][lastPTR]; | |
591 static const PTR ptr_dual[lastPTR]; | |
592 static const char * const ptr_msg[lastPTR]; | |
593 | |
594 public: | |
595 const int _offset; // Offset into oop, with TOP & BOT | |
596 const PTR _ptr; // Pointer equivalence class | |
597 | |
598 const int offset() const { return _offset; } | |
599 const PTR ptr() const { return _ptr; } | |
600 | |
601 static const TypePtr *make( TYPES t, PTR ptr, int offset ); | |
602 | |
603 // Return a 'ptr' version of this type | |
604 virtual const Type *cast_to_ptr_type(PTR ptr) const; | |
605 | |
606 virtual intptr_t get_con() const; | |
607 | |
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608 int xadd_offset( intptr_t offset ) const; |
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609 virtual const TypePtr *add_offset( intptr_t offset ) const; |
0 | 610 |
611 virtual bool singleton(void) const; // TRUE if type is a singleton | |
612 virtual bool empty(void) const; // TRUE if type is vacuous | |
613 virtual const Type *xmeet( const Type *t ) const; | |
614 int meet_offset( int offset ) const; | |
615 int dual_offset( ) const; | |
616 virtual const Type *xdual() const; // Compute dual right now. | |
617 | |
618 // meet, dual and join over pointer equivalence sets | |
619 PTR meet_ptr( const PTR in_ptr ) const { return ptr_meet[in_ptr][ptr()]; } | |
620 PTR dual_ptr() const { return ptr_dual[ptr()]; } | |
621 | |
622 // This is textually confusing unless one recalls that | |
623 // join(t) == dual()->meet(t->dual())->dual(). | |
624 PTR join_ptr( const PTR in_ptr ) const { | |
625 return ptr_dual[ ptr_meet[ ptr_dual[in_ptr] ] [ dual_ptr() ] ]; | |
626 } | |
627 | |
628 // Tests for relation to centerline of type lattice: | |
629 static bool above_centerline(PTR ptr) { return (ptr <= AnyNull); } | |
630 static bool below_centerline(PTR ptr) { return (ptr >= NotNull); } | |
631 // Convenience common pre-built types. | |
632 static const TypePtr *NULL_PTR; | |
633 static const TypePtr *NOTNULL; | |
634 static const TypePtr *BOTTOM; | |
635 #ifndef PRODUCT | |
636 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; | |
637 #endif | |
638 }; | |
639 | |
640 //------------------------------TypeRawPtr------------------------------------- | |
641 // Class of raw pointers, pointers to things other than Oops. Examples | |
642 // include the stack pointer, top of heap, card-marking area, handles, etc. | |
643 class TypeRawPtr : public TypePtr { | |
644 protected: | |
645 TypeRawPtr( PTR ptr, address bits ) : TypePtr(RawPtr,ptr,0), _bits(bits){} | |
646 public: | |
647 virtual bool eq( const Type *t ) const; | |
648 virtual int hash() const; // Type specific hashing | |
649 | |
650 const address _bits; // Constant value, if applicable | |
651 | |
652 static const TypeRawPtr *make( PTR ptr ); | |
653 static const TypeRawPtr *make( address bits ); | |
654 | |
655 // Return a 'ptr' version of this type | |
656 virtual const Type *cast_to_ptr_type(PTR ptr) const; | |
657 | |
658 virtual intptr_t get_con() const; | |
659 | |
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660 virtual const TypePtr *add_offset( intptr_t offset ) const; |
0 | 661 |
662 virtual const Type *xmeet( const Type *t ) const; | |
663 virtual const Type *xdual() const; // Compute dual right now. | |
664 // Convenience common pre-built types. | |
665 static const TypeRawPtr *BOTTOM; | |
666 static const TypeRawPtr *NOTNULL; | |
667 #ifndef PRODUCT | |
668 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; | |
669 #endif | |
670 }; | |
671 | |
672 //------------------------------TypeOopPtr------------------------------------- | |
673 // Some kind of oop (Java pointer), either klass or instance or array. | |
674 class TypeOopPtr : public TypePtr { | |
675 protected: | |
163 | 676 TypeOopPtr( TYPES t, PTR ptr, ciKlass* k, bool xk, ciObject* o, int offset, int instance_id ); |
0 | 677 public: |
678 virtual bool eq( const Type *t ) const; | |
679 virtual int hash() const; // Type specific hashing | |
680 virtual bool singleton(void) const; // TRUE if type is a singleton | |
681 enum { | |
223 | 682 InstanceTop = -1, // undefined instance |
683 InstanceBot = 0 // any possible instance | |
0 | 684 }; |
685 protected: | |
686 | |
687 // Oop is NULL, unless this is a constant oop. | |
688 ciObject* _const_oop; // Constant oop | |
689 // If _klass is NULL, then so is _sig. This is an unloaded klass. | |
690 ciKlass* _klass; // Klass object | |
691 // Does the type exclude subclasses of the klass? (Inexact == polymorphic.) | |
692 bool _klass_is_exact; | |
163 | 693 bool _is_ptr_to_narrowoop; |
0 | 694 |
223 | 695 // If not InstanceTop or InstanceBot, indicates that this is |
696 // a particular instance of this type which is distinct. | |
697 // This is the the node index of the allocation node creating this instance. | |
698 int _instance_id; | |
0 | 699 |
700 static const TypeOopPtr* make_from_klass_common(ciKlass* klass, bool klass_change, bool try_for_exact); | |
701 | |
223 | 702 int dual_instance_id() const; |
703 int meet_instance_id(int uid) const; | |
0 | 704 |
705 public: | |
706 // Creates a type given a klass. Correctly handles multi-dimensional arrays | |
707 // Respects UseUniqueSubclasses. | |
708 // If the klass is final, the resulting type will be exact. | |
709 static const TypeOopPtr* make_from_klass(ciKlass* klass) { | |
710 return make_from_klass_common(klass, true, false); | |
711 } | |
712 // Same as before, but will produce an exact type, even if | |
713 // the klass is not final, as long as it has exactly one implementation. | |
714 static const TypeOopPtr* make_from_klass_unique(ciKlass* klass) { | |
715 return make_from_klass_common(klass, true, true); | |
716 } | |
717 // Same as before, but does not respects UseUniqueSubclasses. | |
718 // Use this only for creating array element types. | |
719 static const TypeOopPtr* make_from_klass_raw(ciKlass* klass) { | |
720 return make_from_klass_common(klass, false, false); | |
721 } | |
722 // Creates a singleton type given an object. | |
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723 // If the object cannot be rendered as a constant, |
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724 // may return a non-singleton type. |
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725 // If require_constant, produce a NULL if a singleton is not possible. |
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726 static const TypeOopPtr* make_from_constant(ciObject* o, bool require_constant = false); |
0 | 727 |
728 // Make a generic (unclassed) pointer to an oop. | |
992 | 729 static const TypeOopPtr* make(PTR ptr, int offset, int instance_id); |
0 | 730 |
731 ciObject* const_oop() const { return _const_oop; } | |
732 virtual ciKlass* klass() const { return _klass; } | |
733 bool klass_is_exact() const { return _klass_is_exact; } | |
163 | 734 |
735 // Returns true if this pointer points at memory which contains a | |
736 // compressed oop references. | |
737 bool is_ptr_to_narrowoop_nv() const { return _is_ptr_to_narrowoop; } | |
738 | |
223 | 739 bool is_known_instance() const { return _instance_id > 0; } |
740 int instance_id() const { return _instance_id; } | |
741 bool is_known_instance_field() const { return is_known_instance() && _offset >= 0; } | |
0 | 742 |
743 virtual intptr_t get_con() const; | |
744 | |
745 virtual const Type *cast_to_ptr_type(PTR ptr) const; | |
746 | |
747 virtual const Type *cast_to_exactness(bool klass_is_exact) const; | |
748 | |
223 | 749 virtual const TypeOopPtr *cast_to_instance_id(int instance_id) const; |
0 | 750 |
751 // corresponding pointer to klass, for a given instance | |
752 const TypeKlassPtr* as_klass_type() const; | |
753 | |
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754 virtual const TypePtr *add_offset( intptr_t offset ) const; |
0 | 755 |
756 virtual const Type *xmeet( const Type *t ) const; | |
757 virtual const Type *xdual() const; // Compute dual right now. | |
758 | |
759 // Do not allow interface-vs.-noninterface joins to collapse to top. | |
760 virtual const Type *filter( const Type *kills ) const; | |
761 | |
762 // Convenience common pre-built type. | |
763 static const TypeOopPtr *BOTTOM; | |
764 #ifndef PRODUCT | |
765 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; | |
766 #endif | |
767 }; | |
768 | |
769 //------------------------------TypeInstPtr------------------------------------ | |
770 // Class of Java object pointers, pointing either to non-array Java instances | |
771 // or to a klassOop (including array klasses). | |
772 class TypeInstPtr : public TypeOopPtr { | |
773 TypeInstPtr( PTR ptr, ciKlass* k, bool xk, ciObject* o, int offset, int instance_id ); | |
774 virtual bool eq( const Type *t ) const; | |
775 virtual int hash() const; // Type specific hashing | |
776 | |
777 ciSymbol* _name; // class name | |
778 | |
779 public: | |
780 ciSymbol* name() const { return _name; } | |
781 | |
782 bool is_loaded() const { return _klass->is_loaded(); } | |
783 | |
784 // Make a pointer to a constant oop. | |
785 static const TypeInstPtr *make(ciObject* o) { | |
786 return make(TypePtr::Constant, o->klass(), true, o, 0); | |
787 } | |
788 | |
789 // Make a pointer to a constant oop with offset. | |
790 static const TypeInstPtr *make(ciObject* o, int offset) { | |
791 return make(TypePtr::Constant, o->klass(), true, o, offset); | |
792 } | |
793 | |
794 // Make a pointer to some value of type klass. | |
795 static const TypeInstPtr *make(PTR ptr, ciKlass* klass) { | |
796 return make(ptr, klass, false, NULL, 0); | |
797 } | |
798 | |
799 // Make a pointer to some non-polymorphic value of exactly type klass. | |
800 static const TypeInstPtr *make_exact(PTR ptr, ciKlass* klass) { | |
801 return make(ptr, klass, true, NULL, 0); | |
802 } | |
803 | |
804 // Make a pointer to some value of type klass with offset. | |
805 static const TypeInstPtr *make(PTR ptr, ciKlass* klass, int offset) { | |
806 return make(ptr, klass, false, NULL, offset); | |
807 } | |
808 | |
809 // Make a pointer to an oop. | |
223 | 810 static const TypeInstPtr *make(PTR ptr, ciKlass* k, bool xk, ciObject* o, int offset, int instance_id = InstanceBot ); |
0 | 811 |
812 // If this is a java.lang.Class constant, return the type for it or NULL. | |
813 // Pass to Type::get_const_type to turn it to a type, which will usually | |
814 // be a TypeInstPtr, but may also be a TypeInt::INT for int.class, etc. | |
815 ciType* java_mirror_type() const; | |
816 | |
817 virtual const Type *cast_to_ptr_type(PTR ptr) const; | |
818 | |
819 virtual const Type *cast_to_exactness(bool klass_is_exact) const; | |
820 | |
223 | 821 virtual const TypeOopPtr *cast_to_instance_id(int instance_id) const; |
0 | 822 |
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823 virtual const TypePtr *add_offset( intptr_t offset ) const; |
0 | 824 |
825 virtual const Type *xmeet( const Type *t ) const; | |
826 virtual const TypeInstPtr *xmeet_unloaded( const TypeInstPtr *t ) const; | |
827 virtual const Type *xdual() const; // Compute dual right now. | |
828 | |
829 // Convenience common pre-built types. | |
830 static const TypeInstPtr *NOTNULL; | |
831 static const TypeInstPtr *BOTTOM; | |
832 static const TypeInstPtr *MIRROR; | |
833 static const TypeInstPtr *MARK; | |
834 static const TypeInstPtr *KLASS; | |
835 #ifndef PRODUCT | |
836 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; // Specialized per-Type dumping | |
837 #endif | |
838 }; | |
839 | |
840 //------------------------------TypeAryPtr------------------------------------- | |
841 // Class of Java array pointers | |
842 class TypeAryPtr : public TypeOopPtr { | |
1761 | 843 TypeAryPtr( PTR ptr, ciObject* o, const TypeAry *ary, ciKlass* k, bool xk, int offset, int instance_id ) : TypeOopPtr(AryPtr,ptr,k,xk,o,offset, instance_id), _ary(ary) { |
844 #ifdef ASSERT | |
845 if (k != NULL) { | |
846 // Verify that specified klass and TypeAryPtr::klass() follow the same rules. | |
847 ciKlass* ck = compute_klass(true); | |
1792 | 848 if (k != ck) { |
1761 | 849 this->dump(); tty->cr(); |
850 tty->print(" k: "); | |
851 k->print(); tty->cr(); | |
852 tty->print("ck: "); | |
853 if (ck != NULL) ck->print(); | |
854 else tty->print("<NULL>"); | |
855 tty->cr(); | |
856 assert(false, "unexpected TypeAryPtr::_klass"); | |
857 } | |
858 } | |
859 #endif | |
860 } | |
0 | 861 virtual bool eq( const Type *t ) const; |
862 virtual int hash() const; // Type specific hashing | |
863 const TypeAry *_ary; // Array we point into | |
864 | |
1761 | 865 ciKlass* compute_klass(DEBUG_ONLY(bool verify = false)) const; |
866 | |
0 | 867 public: |
868 // Accessors | |
869 ciKlass* klass() const; | |
870 const TypeAry* ary() const { return _ary; } | |
871 const Type* elem() const { return _ary->_elem; } | |
872 const TypeInt* size() const { return _ary->_size; } | |
873 | |
223 | 874 static const TypeAryPtr *make( PTR ptr, const TypeAry *ary, ciKlass* k, bool xk, int offset, int instance_id = InstanceBot); |
0 | 875 // Constant pointer to array |
223 | 876 static const TypeAryPtr *make( PTR ptr, ciObject* o, const TypeAry *ary, ciKlass* k, bool xk, int offset, int instance_id = InstanceBot); |
0 | 877 |
878 // Return a 'ptr' version of this type | |
879 virtual const Type *cast_to_ptr_type(PTR ptr) const; | |
880 | |
881 virtual const Type *cast_to_exactness(bool klass_is_exact) const; | |
882 | |
223 | 883 virtual const TypeOopPtr *cast_to_instance_id(int instance_id) const; |
0 | 884 |
885 virtual const TypeAryPtr* cast_to_size(const TypeInt* size) const; | |
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886 virtual const TypeInt* narrow_size_type(const TypeInt* size) const; |
0 | 887 |
888 virtual bool empty(void) const; // TRUE if type is vacuous | |
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889 virtual const TypePtr *add_offset( intptr_t offset ) const; |
0 | 890 |
891 virtual const Type *xmeet( const Type *t ) const; | |
892 virtual const Type *xdual() const; // Compute dual right now. | |
893 | |
894 // Convenience common pre-built types. | |
895 static const TypeAryPtr *RANGE; | |
896 static const TypeAryPtr *OOPS; | |
163 | 897 static const TypeAryPtr *NARROWOOPS; |
0 | 898 static const TypeAryPtr *BYTES; |
899 static const TypeAryPtr *SHORTS; | |
900 static const TypeAryPtr *CHARS; | |
901 static const TypeAryPtr *INTS; | |
902 static const TypeAryPtr *LONGS; | |
903 static const TypeAryPtr *FLOATS; | |
904 static const TypeAryPtr *DOUBLES; | |
905 // selects one of the above: | |
906 static const TypeAryPtr *get_array_body_type(BasicType elem) { | |
907 assert((uint)elem <= T_CONFLICT && _array_body_type[elem] != NULL, "bad elem type"); | |
908 return _array_body_type[elem]; | |
909 } | |
910 static const TypeAryPtr *_array_body_type[T_CONFLICT+1]; | |
911 // sharpen the type of an int which is used as an array size | |
820
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912 #ifdef ASSERT |
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913 // One type is interface, the other is oop |
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914 virtual bool interface_vs_oop(const Type *t) const; |
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915 #endif |
0 | 916 #ifndef PRODUCT |
917 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; // Specialized per-Type dumping | |
918 #endif | |
919 }; | |
920 | |
921 //------------------------------TypeKlassPtr----------------------------------- | |
922 // Class of Java Klass pointers | |
923 class TypeKlassPtr : public TypeOopPtr { | |
924 TypeKlassPtr( PTR ptr, ciKlass* klass, int offset ); | |
925 | |
926 virtual bool eq( const Type *t ) const; | |
927 virtual int hash() const; // Type specific hashing | |
928 | |
929 public: | |
930 ciSymbol* name() const { return _klass->name(); } | |
931 | |
555 | 932 bool is_loaded() const { return _klass->is_loaded(); } |
933 | |
0 | 934 // ptr to klass 'k' |
935 static const TypeKlassPtr *make( ciKlass* k ) { return make( TypePtr::Constant, k, 0); } | |
936 // ptr to klass 'k' with offset | |
937 static const TypeKlassPtr *make( ciKlass* k, int offset ) { return make( TypePtr::Constant, k, offset); } | |
938 // ptr to klass 'k' or sub-klass | |
939 static const TypeKlassPtr *make( PTR ptr, ciKlass* k, int offset); | |
940 | |
941 virtual const Type *cast_to_ptr_type(PTR ptr) const; | |
942 | |
943 virtual const Type *cast_to_exactness(bool klass_is_exact) const; | |
944 | |
945 // corresponding pointer to instance, for a given class | |
946 const TypeOopPtr* as_instance_type() const; | |
947 | |
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948 virtual const TypePtr *add_offset( intptr_t offset ) const; |
0 | 949 virtual const Type *xmeet( const Type *t ) const; |
950 virtual const Type *xdual() const; // Compute dual right now. | |
951 | |
952 // Convenience common pre-built types. | |
953 static const TypeKlassPtr* OBJECT; // Not-null object klass or below | |
954 static const TypeKlassPtr* OBJECT_OR_NULL; // Maybe-null version of same | |
955 #ifndef PRODUCT | |
956 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; // Specialized per-Type dumping | |
957 #endif | |
958 }; | |
959 | |
163 | 960 //------------------------------TypeNarrowOop---------------------------------- |
113
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961 // A compressed reference to some kind of Oop. This type wraps around |
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962 // a preexisting TypeOopPtr and forwards most of it's operations to |
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963 // the underlying type. It's only real purpose is to track the |
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964 // oopness of the compressed oop value when we expose the conversion |
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965 // between the normal and the compressed form. |
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966 class TypeNarrowOop : public Type { |
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967 protected: |
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968 const TypePtr* _ptrtype; // Could be TypePtr::NULL_PTR |
113
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969 |
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970 TypeNarrowOop( const TypePtr* ptrtype): Type(NarrowOop), |
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971 _ptrtype(ptrtype) { |
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972 assert(ptrtype->offset() == 0 || |
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973 ptrtype->offset() == OffsetBot || |
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974 ptrtype->offset() == OffsetTop, "no real offsets"); |
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975 } |
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976 public: |
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977 virtual bool eq( const Type *t ) const; |
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978 virtual int hash() const; // Type specific hashing |
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979 virtual bool singleton(void) const; // TRUE if type is a singleton |
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980 |
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981 virtual const Type *xmeet( const Type *t ) const; |
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982 virtual const Type *xdual() const; // Compute dual right now. |
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983 |
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984 virtual intptr_t get_con() const; |
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985 |
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986 // Do not allow interface-vs.-noninterface joins to collapse to top. |
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987 virtual const Type *filter( const Type *kills ) const; |
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988 |
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989 virtual bool empty(void) const; // TRUE if type is vacuous |
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990 |
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991 static const TypeNarrowOop *make( const TypePtr* type); |
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992 |
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993 static const TypeNarrowOop* make_from_constant(ciObject* con, bool require_constant = false) { |
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994 return make(TypeOopPtr::make_from_constant(con, require_constant)); |
113
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995 } |
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996 |
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997 // returns the equivalent ptr type for this compressed pointer |
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998 const TypePtr *get_ptrtype() const { |
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999 return _ptrtype; |
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1000 } |
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1001 |
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1002 static const TypeNarrowOop *BOTTOM; |
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1003 static const TypeNarrowOop *NULL_PTR; |
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1004 |
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1005 #ifndef PRODUCT |
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1006 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; |
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1007 #endif |
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1008 }; |
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1009 |
0 | 1010 //------------------------------TypeFunc--------------------------------------- |
1011 // Class of Array Types | |
1012 class TypeFunc : public Type { | |
1013 TypeFunc( const TypeTuple *domain, const TypeTuple *range ) : Type(Function), _domain(domain), _range(range) {} | |
1014 virtual bool eq( const Type *t ) const; | |
1015 virtual int hash() const; // Type specific hashing | |
1016 virtual bool singleton(void) const; // TRUE if type is a singleton | |
1017 virtual bool empty(void) const; // TRUE if type is vacuous | |
1018 public: | |
1019 // Constants are shared among ADLC and VM | |
1020 enum { Control = AdlcVMDeps::Control, | |
1021 I_O = AdlcVMDeps::I_O, | |
1022 Memory = AdlcVMDeps::Memory, | |
1023 FramePtr = AdlcVMDeps::FramePtr, | |
1024 ReturnAdr = AdlcVMDeps::ReturnAdr, | |
1025 Parms = AdlcVMDeps::Parms | |
1026 }; | |
1027 | |
1028 const TypeTuple* const _domain; // Domain of inputs | |
1029 const TypeTuple* const _range; // Range of results | |
1030 | |
1031 // Accessors: | |
1032 const TypeTuple* domain() const { return _domain; } | |
1033 const TypeTuple* range() const { return _range; } | |
1034 | |
1035 static const TypeFunc *make(ciMethod* method); | |
1036 static const TypeFunc *make(ciSignature signature, const Type* extra); | |
1037 static const TypeFunc *make(const TypeTuple* domain, const TypeTuple* range); | |
1038 | |
1039 virtual const Type *xmeet( const Type *t ) const; | |
1040 virtual const Type *xdual() const; // Compute dual right now. | |
1041 | |
1042 BasicType return_type() const; | |
1043 | |
1044 #ifndef PRODUCT | |
1045 virtual void dump2( Dict &d, uint depth, outputStream *st ) const; // Specialized per-Type dumping | |
1046 void print_flattened() const; // Print a 'flattened' signature | |
1047 #endif | |
1048 // Convenience common pre-built types. | |
1049 }; | |
1050 | |
1051 //------------------------------accessors-------------------------------------- | |
163 | 1052 inline bool Type::is_ptr_to_narrowoop() const { |
1053 #ifdef _LP64 | |
1054 return (isa_oopptr() != NULL && is_oopptr()->is_ptr_to_narrowoop_nv()); | |
1055 #else | |
1056 return false; | |
1057 #endif | |
1058 } | |
1059 | |
0 | 1060 inline float Type::getf() const { |
1061 assert( _base == FloatCon, "Not a FloatCon" ); | |
1062 return ((TypeF*)this)->_f; | |
1063 } | |
1064 | |
1065 inline double Type::getd() const { | |
1066 assert( _base == DoubleCon, "Not a DoubleCon" ); | |
1067 return ((TypeD*)this)->_d; | |
1068 } | |
1069 | |
1070 inline const TypeF *Type::is_float_constant() const { | |
1071 assert( _base == FloatCon, "Not a Float" ); | |
1072 return (TypeF*)this; | |
1073 } | |
1074 | |
1075 inline const TypeF *Type::isa_float_constant() const { | |
1076 return ( _base == FloatCon ? (TypeF*)this : NULL); | |
1077 } | |
1078 | |
1079 inline const TypeD *Type::is_double_constant() const { | |
1080 assert( _base == DoubleCon, "Not a Double" ); | |
1081 return (TypeD*)this; | |
1082 } | |
1083 | |
1084 inline const TypeD *Type::isa_double_constant() const { | |
1085 return ( _base == DoubleCon ? (TypeD*)this : NULL); | |
1086 } | |
1087 | |
1088 inline const TypeInt *Type::is_int() const { | |
1089 assert( _base == Int, "Not an Int" ); | |
1090 return (TypeInt*)this; | |
1091 } | |
1092 | |
1093 inline const TypeInt *Type::isa_int() const { | |
1094 return ( _base == Int ? (TypeInt*)this : NULL); | |
1095 } | |
1096 | |
1097 inline const TypeLong *Type::is_long() const { | |
1098 assert( _base == Long, "Not a Long" ); | |
1099 return (TypeLong*)this; | |
1100 } | |
1101 | |
1102 inline const TypeLong *Type::isa_long() const { | |
1103 return ( _base == Long ? (TypeLong*)this : NULL); | |
1104 } | |
1105 | |
1106 inline const TypeTuple *Type::is_tuple() const { | |
1107 assert( _base == Tuple, "Not a Tuple" ); | |
1108 return (TypeTuple*)this; | |
1109 } | |
1110 | |
1111 inline const TypeAry *Type::is_ary() const { | |
1112 assert( _base == Array , "Not an Array" ); | |
1113 return (TypeAry*)this; | |
1114 } | |
1115 | |
1116 inline const TypePtr *Type::is_ptr() const { | |
1117 // AnyPtr is the first Ptr and KlassPtr the last, with no non-ptrs between. | |
1118 assert(_base >= AnyPtr && _base <= KlassPtr, "Not a pointer"); | |
1119 return (TypePtr*)this; | |
1120 } | |
1121 | |
1122 inline const TypePtr *Type::isa_ptr() const { | |
1123 // AnyPtr is the first Ptr and KlassPtr the last, with no non-ptrs between. | |
1124 return (_base >= AnyPtr && _base <= KlassPtr) ? (TypePtr*)this : NULL; | |
1125 } | |
1126 | |
1127 inline const TypeOopPtr *Type::is_oopptr() const { | |
1128 // OopPtr is the first and KlassPtr the last, with no non-oops between. | |
1129 assert(_base >= OopPtr && _base <= KlassPtr, "Not a Java pointer" ) ; | |
1130 return (TypeOopPtr*)this; | |
1131 } | |
1132 | |
1133 inline const TypeOopPtr *Type::isa_oopptr() const { | |
1134 // OopPtr is the first and KlassPtr the last, with no non-oops between. | |
1135 return (_base >= OopPtr && _base <= KlassPtr) ? (TypeOopPtr*)this : NULL; | |
1136 } | |
1137 | |
113
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1138 inline const TypeRawPtr *Type::isa_rawptr() const { |
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1139 return (_base == RawPtr) ? (TypeRawPtr*)this : NULL; |
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1140 } |
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1141 |
0 | 1142 inline const TypeRawPtr *Type::is_rawptr() const { |
1143 assert( _base == RawPtr, "Not a raw pointer" ); | |
1144 return (TypeRawPtr*)this; | |
1145 } | |
1146 | |
1147 inline const TypeInstPtr *Type::isa_instptr() const { | |
1148 return (_base == InstPtr) ? (TypeInstPtr*)this : NULL; | |
1149 } | |
1150 | |
1151 inline const TypeInstPtr *Type::is_instptr() const { | |
1152 assert( _base == InstPtr, "Not an object pointer" ); | |
1153 return (TypeInstPtr*)this; | |
1154 } | |
1155 | |
1156 inline const TypeAryPtr *Type::isa_aryptr() const { | |
1157 return (_base == AryPtr) ? (TypeAryPtr*)this : NULL; | |
1158 } | |
1159 | |
1160 inline const TypeAryPtr *Type::is_aryptr() const { | |
1161 assert( _base == AryPtr, "Not an array pointer" ); | |
1162 return (TypeAryPtr*)this; | |
1163 } | |
1164 | |
113
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1165 inline const TypeNarrowOop *Type::is_narrowoop() const { |
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1166 // OopPtr is the first and KlassPtr the last, with no non-oops between. |
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1167 assert(_base == NarrowOop, "Not a narrow oop" ) ; |
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1168 return (TypeNarrowOop*)this; |
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1169 } |
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1170 |
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1171 inline const TypeNarrowOop *Type::isa_narrowoop() const { |
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1172 // OopPtr is the first and KlassPtr the last, with no non-oops between. |
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1173 return (_base == NarrowOop) ? (TypeNarrowOop*)this : NULL; |
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1174 } |
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1175 |
0 | 1176 inline const TypeKlassPtr *Type::isa_klassptr() const { |
1177 return (_base == KlassPtr) ? (TypeKlassPtr*)this : NULL; | |
1178 } | |
1179 | |
1180 inline const TypeKlassPtr *Type::is_klassptr() const { | |
1181 assert( _base == KlassPtr, "Not a klass pointer" ); | |
1182 return (TypeKlassPtr*)this; | |
1183 } | |
1184 | |
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1185 inline const TypePtr* Type::make_ptr() const { |
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1186 return (_base == NarrowOop) ? is_narrowoop()->get_ptrtype() : |
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1187 (isa_ptr() ? is_ptr() : NULL); |
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1188 } |
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1189 |
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1190 inline const TypeOopPtr* Type::make_oopptr() const { |
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1191 return (_base == NarrowOop) ? is_narrowoop()->get_ptrtype()->is_oopptr() : is_oopptr(); |
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1192 } |
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1193 |
221
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1194 inline const TypeNarrowOop* Type::make_narrowoop() const { |
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1195 return (_base == NarrowOop) ? is_narrowoop() : |
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1196 (isa_ptr() ? TypeNarrowOop::make(is_ptr()) : NULL); |
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1197 } |
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1198 |
0 | 1199 inline bool Type::is_floatingpoint() const { |
1200 if( (_base == FloatCon) || (_base == FloatBot) || | |
1201 (_base == DoubleCon) || (_base == DoubleBot) ) | |
1202 return true; | |
1203 return false; | |
1204 } | |
1205 | |
1206 | |
1207 // =============================================================== | |
1208 // Things that need to be 64-bits in the 64-bit build but | |
1209 // 32-bits in the 32-bit build. Done this way to get full | |
1210 // optimization AND strong typing. | |
1211 #ifdef _LP64 | |
1212 | |
1213 // For type queries and asserts | |
1214 #define is_intptr_t is_long | |
1215 #define isa_intptr_t isa_long | |
1216 #define find_intptr_t_type find_long_type | |
1217 #define find_intptr_t_con find_long_con | |
1218 #define TypeX TypeLong | |
1219 #define Type_X Type::Long | |
1220 #define TypeX_X TypeLong::LONG | |
1221 #define TypeX_ZERO TypeLong::ZERO | |
1222 // For 'ideal_reg' machine registers | |
1223 #define Op_RegX Op_RegL | |
1224 // For phase->intcon variants | |
1225 #define MakeConX longcon | |
1226 #define ConXNode ConLNode | |
1227 // For array index arithmetic | |
1228 #define MulXNode MulLNode | |
1229 #define AndXNode AndLNode | |
1230 #define OrXNode OrLNode | |
1231 #define CmpXNode CmpLNode | |
1232 #define SubXNode SubLNode | |
1233 #define LShiftXNode LShiftLNode | |
1234 // For object size computation: | |
1235 #define AddXNode AddLNode | |
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1236 #define RShiftXNode RShiftLNode |
0 | 1237 // For card marks and hashcodes |
1238 #define URShiftXNode URShiftLNode | |
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1239 // UseOptoBiasInlining |
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1240 #define XorXNode XorLNode |
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1241 #define StoreXConditionalNode StoreLConditionalNode |
0 | 1242 // Opcodes |
1243 #define Op_LShiftX Op_LShiftL | |
1244 #define Op_AndX Op_AndL | |
1245 #define Op_AddX Op_AddL | |
1246 #define Op_SubX Op_SubL | |
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1247 #define Op_XorX Op_XorL |
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1248 #define Op_URShiftX Op_URShiftL |
0 | 1249 // conversions |
1250 #define ConvI2X(x) ConvI2L(x) | |
1251 #define ConvL2X(x) (x) | |
1252 #define ConvX2I(x) ConvL2I(x) | |
1253 #define ConvX2L(x) (x) | |
1254 | |
1255 #else | |
1256 | |
1257 // For type queries and asserts | |
1258 #define is_intptr_t is_int | |
1259 #define isa_intptr_t isa_int | |
1260 #define find_intptr_t_type find_int_type | |
1261 #define find_intptr_t_con find_int_con | |
1262 #define TypeX TypeInt | |
1263 #define Type_X Type::Int | |
1264 #define TypeX_X TypeInt::INT | |
1265 #define TypeX_ZERO TypeInt::ZERO | |
1266 // For 'ideal_reg' machine registers | |
1267 #define Op_RegX Op_RegI | |
1268 // For phase->intcon variants | |
1269 #define MakeConX intcon | |
1270 #define ConXNode ConINode | |
1271 // For array index arithmetic | |
1272 #define MulXNode MulINode | |
1273 #define AndXNode AndINode | |
1274 #define OrXNode OrINode | |
1275 #define CmpXNode CmpINode | |
1276 #define SubXNode SubINode | |
1277 #define LShiftXNode LShiftINode | |
1278 // For object size computation: | |
1279 #define AddXNode AddINode | |
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1280 #define RShiftXNode RShiftINode |
0 | 1281 // For card marks and hashcodes |
1282 #define URShiftXNode URShiftINode | |
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1283 // UseOptoBiasInlining |
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1284 #define XorXNode XorINode |
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1285 #define StoreXConditionalNode StoreIConditionalNode |
0 | 1286 // Opcodes |
1287 #define Op_LShiftX Op_LShiftI | |
1288 #define Op_AndX Op_AndI | |
1289 #define Op_AddX Op_AddI | |
1290 #define Op_SubX Op_SubI | |
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1291 #define Op_XorX Op_XorI |
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1292 #define Op_URShiftX Op_URShiftI |
0 | 1293 // conversions |
1294 #define ConvI2X(x) (x) | |
1295 #define ConvL2X(x) ConvL2I(x) | |
1296 #define ConvX2I(x) (x) | |
1297 #define ConvX2L(x) ConvI2L(x) | |
1298 | |
1299 #endif | |
1972 | 1300 |
1301 #endif // SHARE_VM_OPTO_TYPE_HPP |