Mercurial > hg > truffle
annotate src/share/vm/c1/c1_Instruction.hpp @ 3251:eda9eb483d29
6841742: par compact - remove unused/unsupported options
Summary: ignore UseParallel{OldGCDensePrefix,OldGCCompacting,DensePrefixUpdate}
Reviewed-by: jwilhelm, brutisso
author | jcoomes |
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date | Thu, 07 Apr 2011 17:16:20 -0700 |
parents | 425688247f3d |
children | 13bc79b5c9c8 |
rev | line source |
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0 | 1 /* |
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2 * Copyright (c) 1999, 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_C1_C1_INSTRUCTION_HPP |
26 #define SHARE_VM_C1_C1_INSTRUCTION_HPP | |
27 | |
28 #include "c1/c1_Compilation.hpp" | |
29 #include "c1/c1_LIR.hpp" | |
30 #include "c1/c1_ValueType.hpp" | |
31 #include "ci/ciField.hpp" | |
32 | |
0 | 33 // Predefined classes |
34 class ciField; | |
35 class ValueStack; | |
36 class InstructionPrinter; | |
37 class IRScope; | |
38 class LIR_OprDesc; | |
39 typedef LIR_OprDesc* LIR_Opr; | |
40 | |
41 | |
42 // Instruction class hierarchy | |
43 // | |
44 // All leaf classes in the class hierarchy are concrete classes | |
45 // (i.e., are instantiated). All other classes are abstract and | |
46 // serve factoring. | |
47 | |
48 class Instruction; | |
49 class Phi; | |
50 class Local; | |
51 class Constant; | |
52 class AccessField; | |
53 class LoadField; | |
54 class StoreField; | |
55 class AccessArray; | |
56 class ArrayLength; | |
57 class AccessIndexed; | |
58 class LoadIndexed; | |
59 class StoreIndexed; | |
60 class NegateOp; | |
61 class Op2; | |
62 class ArithmeticOp; | |
63 class ShiftOp; | |
64 class LogicOp; | |
65 class CompareOp; | |
66 class IfOp; | |
67 class Convert; | |
68 class NullCheck; | |
69 class OsrEntry; | |
70 class ExceptionObject; | |
71 class StateSplit; | |
72 class Invoke; | |
73 class NewInstance; | |
74 class NewArray; | |
75 class NewTypeArray; | |
76 class NewObjectArray; | |
77 class NewMultiArray; | |
78 class TypeCheck; | |
79 class CheckCast; | |
80 class InstanceOf; | |
81 class AccessMonitor; | |
82 class MonitorEnter; | |
83 class MonitorExit; | |
84 class Intrinsic; | |
85 class BlockBegin; | |
86 class BlockEnd; | |
87 class Goto; | |
88 class If; | |
89 class IfInstanceOf; | |
90 class Switch; | |
91 class TableSwitch; | |
92 class LookupSwitch; | |
93 class Return; | |
94 class Throw; | |
95 class Base; | |
96 class RoundFP; | |
97 class UnsafeOp; | |
98 class UnsafeRawOp; | |
99 class UnsafeGetRaw; | |
100 class UnsafePutRaw; | |
101 class UnsafeObjectOp; | |
102 class UnsafeGetObject; | |
103 class UnsafePutObject; | |
104 class UnsafePrefetch; | |
105 class UnsafePrefetchRead; | |
106 class UnsafePrefetchWrite; | |
107 class ProfileCall; | |
1783 | 108 class ProfileInvoke; |
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109 class RuntimeCall; |
0 | 110 |
111 // A Value is a reference to the instruction creating the value | |
112 typedef Instruction* Value; | |
113 define_array(ValueArray, Value) | |
114 define_stack(Values, ValueArray) | |
115 | |
116 define_array(ValueStackArray, ValueStack*) | |
117 define_stack(ValueStackStack, ValueStackArray) | |
118 | |
119 // BlockClosure is the base class for block traversal/iteration. | |
120 | |
121 class BlockClosure: public CompilationResourceObj { | |
122 public: | |
123 virtual void block_do(BlockBegin* block) = 0; | |
124 }; | |
125 | |
126 | |
1584 | 127 // A simple closure class for visiting the values of an Instruction |
128 class ValueVisitor: public StackObj { | |
129 public: | |
130 virtual void visit(Value* v) = 0; | |
131 }; | |
132 | |
133 | |
0 | 134 // Some array and list classes |
135 define_array(BlockBeginArray, BlockBegin*) | |
136 define_stack(_BlockList, BlockBeginArray) | |
137 | |
138 class BlockList: public _BlockList { | |
139 public: | |
140 BlockList(): _BlockList() {} | |
141 BlockList(const int size): _BlockList(size) {} | |
142 BlockList(const int size, BlockBegin* init): _BlockList(size, init) {} | |
143 | |
144 void iterate_forward(BlockClosure* closure); | |
145 void iterate_backward(BlockClosure* closure); | |
146 void blocks_do(void f(BlockBegin*)); | |
1584 | 147 void values_do(ValueVisitor* f); |
0 | 148 void print(bool cfg_only = false, bool live_only = false) PRODUCT_RETURN; |
149 }; | |
150 | |
151 | |
152 // InstructionVisitors provide type-based dispatch for instructions. | |
153 // For each concrete Instruction class X, a virtual function do_X is | |
154 // provided. Functionality that needs to be implemented for all classes | |
155 // (e.g., printing, code generation) is factored out into a specialised | |
156 // visitor instead of added to the Instruction classes itself. | |
157 | |
158 class InstructionVisitor: public StackObj { | |
159 public: | |
160 virtual void do_Phi (Phi* x) = 0; | |
161 virtual void do_Local (Local* x) = 0; | |
162 virtual void do_Constant (Constant* x) = 0; | |
163 virtual void do_LoadField (LoadField* x) = 0; | |
164 virtual void do_StoreField (StoreField* x) = 0; | |
165 virtual void do_ArrayLength (ArrayLength* x) = 0; | |
166 virtual void do_LoadIndexed (LoadIndexed* x) = 0; | |
167 virtual void do_StoreIndexed (StoreIndexed* x) = 0; | |
168 virtual void do_NegateOp (NegateOp* x) = 0; | |
169 virtual void do_ArithmeticOp (ArithmeticOp* x) = 0; | |
170 virtual void do_ShiftOp (ShiftOp* x) = 0; | |
171 virtual void do_LogicOp (LogicOp* x) = 0; | |
172 virtual void do_CompareOp (CompareOp* x) = 0; | |
173 virtual void do_IfOp (IfOp* x) = 0; | |
174 virtual void do_Convert (Convert* x) = 0; | |
175 virtual void do_NullCheck (NullCheck* x) = 0; | |
176 virtual void do_Invoke (Invoke* x) = 0; | |
177 virtual void do_NewInstance (NewInstance* x) = 0; | |
178 virtual void do_NewTypeArray (NewTypeArray* x) = 0; | |
179 virtual void do_NewObjectArray (NewObjectArray* x) = 0; | |
180 virtual void do_NewMultiArray (NewMultiArray* x) = 0; | |
181 virtual void do_CheckCast (CheckCast* x) = 0; | |
182 virtual void do_InstanceOf (InstanceOf* x) = 0; | |
183 virtual void do_MonitorEnter (MonitorEnter* x) = 0; | |
184 virtual void do_MonitorExit (MonitorExit* x) = 0; | |
185 virtual void do_Intrinsic (Intrinsic* x) = 0; | |
186 virtual void do_BlockBegin (BlockBegin* x) = 0; | |
187 virtual void do_Goto (Goto* x) = 0; | |
188 virtual void do_If (If* x) = 0; | |
189 virtual void do_IfInstanceOf (IfInstanceOf* x) = 0; | |
190 virtual void do_TableSwitch (TableSwitch* x) = 0; | |
191 virtual void do_LookupSwitch (LookupSwitch* x) = 0; | |
192 virtual void do_Return (Return* x) = 0; | |
193 virtual void do_Throw (Throw* x) = 0; | |
194 virtual void do_Base (Base* x) = 0; | |
195 virtual void do_OsrEntry (OsrEntry* x) = 0; | |
196 virtual void do_ExceptionObject(ExceptionObject* x) = 0; | |
197 virtual void do_RoundFP (RoundFP* x) = 0; | |
198 virtual void do_UnsafeGetRaw (UnsafeGetRaw* x) = 0; | |
199 virtual void do_UnsafePutRaw (UnsafePutRaw* x) = 0; | |
200 virtual void do_UnsafeGetObject(UnsafeGetObject* x) = 0; | |
201 virtual void do_UnsafePutObject(UnsafePutObject* x) = 0; | |
202 virtual void do_UnsafePrefetchRead (UnsafePrefetchRead* x) = 0; | |
203 virtual void do_UnsafePrefetchWrite(UnsafePrefetchWrite* x) = 0; | |
204 virtual void do_ProfileCall (ProfileCall* x) = 0; | |
1783 | 205 virtual void do_ProfileInvoke (ProfileInvoke* x) = 0; |
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206 virtual void do_RuntimeCall (RuntimeCall* x) = 0; |
0 | 207 }; |
208 | |
209 | |
210 // Hashing support | |
211 // | |
212 // Note: This hash functions affect the performance | |
213 // of ValueMap - make changes carefully! | |
214 | |
215 #define HASH1(x1 ) ((intx)(x1)) | |
216 #define HASH2(x1, x2 ) ((HASH1(x1 ) << 7) ^ HASH1(x2)) | |
217 #define HASH3(x1, x2, x3 ) ((HASH2(x1, x2 ) << 7) ^ HASH1(x3)) | |
218 #define HASH4(x1, x2, x3, x4) ((HASH3(x1, x2, x3) << 7) ^ HASH1(x4)) | |
219 | |
220 | |
221 // The following macros are used to implement instruction-specific hashing. | |
222 // By default, each instruction implements hash() and is_equal(Value), used | |
223 // for value numbering/common subexpression elimination. The default imple- | |
224 // mentation disables value numbering. Each instruction which can be value- | |
225 // numbered, should define corresponding hash() and is_equal(Value) functions | |
226 // via the macros below. The f arguments specify all the values/op codes, etc. | |
227 // that need to be identical for two instructions to be identical. | |
228 // | |
229 // Note: The default implementation of hash() returns 0 in order to indicate | |
230 // that the instruction should not be considered for value numbering. | |
231 // The currently used hash functions do not guarantee that never a 0 | |
232 // is produced. While this is still correct, it may be a performance | |
233 // bug (no value numbering for that node). However, this situation is | |
234 // so unlikely, that we are not going to handle it specially. | |
235 | |
236 #define HASHING1(class_name, enabled, f1) \ | |
237 virtual intx hash() const { \ | |
238 return (enabled) ? HASH2(name(), f1) : 0; \ | |
239 } \ | |
240 virtual bool is_equal(Value v) const { \ | |
241 if (!(enabled) ) return false; \ | |
242 class_name* _v = v->as_##class_name(); \ | |
243 if (_v == NULL ) return false; \ | |
244 if (f1 != _v->f1) return false; \ | |
245 return true; \ | |
246 } \ | |
247 | |
248 | |
249 #define HASHING2(class_name, enabled, f1, f2) \ | |
250 virtual intx hash() const { \ | |
251 return (enabled) ? HASH3(name(), f1, f2) : 0; \ | |
252 } \ | |
253 virtual bool is_equal(Value v) const { \ | |
254 if (!(enabled) ) return false; \ | |
255 class_name* _v = v->as_##class_name(); \ | |
256 if (_v == NULL ) return false; \ | |
257 if (f1 != _v->f1) return false; \ | |
258 if (f2 != _v->f2) return false; \ | |
259 return true; \ | |
260 } \ | |
261 | |
262 | |
263 #define HASHING3(class_name, enabled, f1, f2, f3) \ | |
264 virtual intx hash() const { \ | |
265 return (enabled) ? HASH4(name(), f1, f2, f3) : 0; \ | |
266 } \ | |
267 virtual bool is_equal(Value v) const { \ | |
268 if (!(enabled) ) return false; \ | |
269 class_name* _v = v->as_##class_name(); \ | |
270 if (_v == NULL ) return false; \ | |
271 if (f1 != _v->f1) return false; \ | |
272 if (f2 != _v->f2) return false; \ | |
273 if (f3 != _v->f3) return false; \ | |
274 return true; \ | |
275 } \ | |
276 | |
277 | |
278 // The mother of all instructions... | |
279 | |
280 class Instruction: public CompilationResourceObj { | |
281 private: | |
282 int _id; // the unique instruction id | |
1819 | 283 #ifndef PRODUCT |
284 int _printable_bci; // the bci of the instruction for printing | |
285 #endif | |
0 | 286 int _use_count; // the number of instructions refering to this value (w/o prev/next); only roots can have use count = 0 or > 1 |
287 int _pin_state; // set of PinReason describing the reason for pinning | |
288 ValueType* _type; // the instruction value type | |
289 Instruction* _next; // the next instruction if any (NULL for BlockEnd instructions) | |
290 Instruction* _subst; // the substitution instruction if any | |
291 LIR_Opr _operand; // LIR specific information | |
292 unsigned int _flags; // Flag bits | |
293 | |
1819 | 294 ValueStack* _state_before; // Copy of state with input operands still on stack (or NULL) |
295 ValueStack* _exception_state; // Copy of state for exception handling | |
0 | 296 XHandlers* _exception_handlers; // Flat list of exception handlers covering this instruction |
297 | |
298 friend class UseCountComputer; | |
1584 | 299 friend class BlockBegin; |
0 | 300 |
1819 | 301 void update_exception_state(ValueStack* state); |
302 | |
303 bool has_printable_bci() const { return NOT_PRODUCT(_printable_bci != -99) PRODUCT_ONLY(false); } | |
304 | |
0 | 305 protected: |
306 void set_type(ValueType* type) { | |
307 assert(type != NULL, "type must exist"); | |
308 _type = type; | |
309 } | |
310 | |
311 public: | |
1584 | 312 void* operator new(size_t size) { |
313 Compilation* c = Compilation::current(); | |
314 void* res = c->arena()->Amalloc(size); | |
315 ((Instruction*)res)->_id = c->get_next_id(); | |
316 return res; | |
317 } | |
318 | |
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319 static const int no_bci = -99; |
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320 |
0 | 321 enum InstructionFlag { |
322 NeedsNullCheckFlag = 0, | |
323 CanTrapFlag, | |
324 DirectCompareFlag, | |
325 IsEliminatedFlag, | |
326 IsSafepointFlag, | |
327 IsStaticFlag, | |
328 IsStrictfpFlag, | |
329 NeedsStoreCheckFlag, | |
330 NeedsWriteBarrierFlag, | |
331 PreservesStateFlag, | |
332 TargetIsFinalFlag, | |
333 TargetIsLoadedFlag, | |
334 TargetIsStrictfpFlag, | |
335 UnorderedIsTrueFlag, | |
336 NeedsPatchingFlag, | |
337 ThrowIncompatibleClassChangeErrorFlag, | |
338 ProfileMDOFlag, | |
1819 | 339 IsLinkedInBlockFlag, |
0 | 340 InstructionLastFlag |
341 }; | |
342 | |
343 public: | |
344 bool check_flag(InstructionFlag id) const { return (_flags & (1 << id)) != 0; } | |
345 void set_flag(InstructionFlag id, bool f) { _flags = f ? (_flags | (1 << id)) : (_flags & ~(1 << id)); }; | |
346 | |
347 // 'globally' used condition values | |
348 enum Condition { | |
349 eql, neq, lss, leq, gtr, geq | |
350 }; | |
351 | |
352 // Instructions may be pinned for many reasons and under certain conditions | |
353 // with enough knowledge it's possible to safely unpin them. | |
354 enum PinReason { | |
355 PinUnknown = 1 << 0 | |
356 , PinExplicitNullCheck = 1 << 3 | |
357 , PinStackForStateSplit= 1 << 12 | |
358 , PinStateSplitConstructor= 1 << 13 | |
359 , PinGlobalValueNumbering= 1 << 14 | |
360 }; | |
361 | |
362 static Condition mirror(Condition cond); | |
363 static Condition negate(Condition cond); | |
364 | |
365 // initialization | |
1584 | 366 static int number_of_instructions() { |
367 return Compilation::current()->number_of_instructions(); | |
368 } | |
0 | 369 |
370 // creation | |
1824 | 371 Instruction(ValueType* type, ValueStack* state_before = NULL, bool type_is_constant = false) |
1819 | 372 : _use_count(0) |
373 #ifndef PRODUCT | |
374 , _printable_bci(-99) | |
375 #endif | |
0 | 376 , _pin_state(0) |
377 , _type(type) | |
378 , _next(NULL) | |
379 , _subst(NULL) | |
380 , _flags(0) | |
381 , _operand(LIR_OprFact::illegalOpr) | |
1819 | 382 , _state_before(state_before) |
0 | 383 , _exception_handlers(NULL) |
384 { | |
1819 | 385 check_state(state_before); |
0 | 386 assert(type != NULL && (!type->is_constant() || type_is_constant), "type must exist"); |
1819 | 387 update_exception_state(_state_before); |
0 | 388 } |
389 | |
390 // accessors | |
391 int id() const { return _id; } | |
1819 | 392 #ifndef PRODUCT |
393 int printable_bci() const { assert(has_printable_bci(), "_printable_bci should have been set"); return _printable_bci; } | |
394 void set_printable_bci(int bci) { NOT_PRODUCT(_printable_bci = bci;) } | |
395 #endif | |
0 | 396 int use_count() const { return _use_count; } |
397 int pin_state() const { return _pin_state; } | |
398 bool is_pinned() const { return _pin_state != 0 || PinAllInstructions; } | |
399 ValueType* type() const { return _type; } | |
400 Instruction* prev(BlockBegin* block); // use carefully, expensive operation | |
401 Instruction* next() const { return _next; } | |
402 bool has_subst() const { return _subst != NULL; } | |
403 Instruction* subst() { return _subst == NULL ? this : _subst->subst(); } | |
404 LIR_Opr operand() const { return _operand; } | |
405 | |
406 void set_needs_null_check(bool f) { set_flag(NeedsNullCheckFlag, f); } | |
407 bool needs_null_check() const { return check_flag(NeedsNullCheckFlag); } | |
1819 | 408 bool is_linked() const { return check_flag(IsLinkedInBlockFlag); } |
409 bool can_be_linked() { return as_Local() == NULL && as_Phi() == NULL; } | |
0 | 410 |
411 bool has_uses() const { return use_count() > 0; } | |
1819 | 412 ValueStack* state_before() const { return _state_before; } |
413 ValueStack* exception_state() const { return _exception_state; } | |
414 virtual bool needs_exception_state() const { return true; } | |
0 | 415 XHandlers* exception_handlers() const { return _exception_handlers; } |
416 | |
417 // manipulation | |
418 void pin(PinReason reason) { _pin_state |= reason; } | |
419 void pin() { _pin_state |= PinUnknown; } | |
420 // DANGEROUS: only used by EliminateStores | |
421 void unpin(PinReason reason) { assert((reason & PinUnknown) == 0, "can't unpin unknown state"); _pin_state &= ~reason; } | |
1819 | 422 |
423 Instruction* set_next(Instruction* next) { | |
424 assert(next->has_printable_bci(), "_printable_bci should have been set"); | |
425 assert(next != NULL, "must not be NULL"); | |
426 assert(as_BlockEnd() == NULL, "BlockEnd instructions must have no next"); | |
427 assert(next->can_be_linked(), "shouldn't link these instructions into list"); | |
428 | |
429 next->set_flag(Instruction::IsLinkedInBlockFlag, true); | |
430 _next = next; | |
431 return next; | |
432 } | |
0 | 433 |
434 Instruction* set_next(Instruction* next, int bci) { | |
1819 | 435 #ifndef PRODUCT |
436 next->set_printable_bci(bci); | |
437 #endif | |
438 return set_next(next); | |
0 | 439 } |
440 | |
441 void set_subst(Instruction* subst) { | |
442 assert(subst == NULL || | |
443 type()->base() == subst->type()->base() || | |
444 subst->type()->base() == illegalType, "type can't change"); | |
445 _subst = subst; | |
446 } | |
447 void set_exception_handlers(XHandlers *xhandlers) { _exception_handlers = xhandlers; } | |
1819 | 448 void set_exception_state(ValueStack* s) { check_state(s); _exception_state = s; } |
0 | 449 |
450 // machine-specifics | |
451 void set_operand(LIR_Opr operand) { assert(operand != LIR_OprFact::illegalOpr, "operand must exist"); _operand = operand; } | |
452 void clear_operand() { _operand = LIR_OprFact::illegalOpr; } | |
453 | |
454 // generic | |
455 virtual Instruction* as_Instruction() { return this; } // to satisfy HASHING1 macro | |
1899 | 456 virtual Phi* as_Phi() { return NULL; } |
0 | 457 virtual Local* as_Local() { return NULL; } |
458 virtual Constant* as_Constant() { return NULL; } | |
459 virtual AccessField* as_AccessField() { return NULL; } | |
460 virtual LoadField* as_LoadField() { return NULL; } | |
461 virtual StoreField* as_StoreField() { return NULL; } | |
462 virtual AccessArray* as_AccessArray() { return NULL; } | |
463 virtual ArrayLength* as_ArrayLength() { return NULL; } | |
464 virtual AccessIndexed* as_AccessIndexed() { return NULL; } | |
465 virtual LoadIndexed* as_LoadIndexed() { return NULL; } | |
466 virtual StoreIndexed* as_StoreIndexed() { return NULL; } | |
467 virtual NegateOp* as_NegateOp() { return NULL; } | |
468 virtual Op2* as_Op2() { return NULL; } | |
469 virtual ArithmeticOp* as_ArithmeticOp() { return NULL; } | |
470 virtual ShiftOp* as_ShiftOp() { return NULL; } | |
471 virtual LogicOp* as_LogicOp() { return NULL; } | |
472 virtual CompareOp* as_CompareOp() { return NULL; } | |
473 virtual IfOp* as_IfOp() { return NULL; } | |
474 virtual Convert* as_Convert() { return NULL; } | |
475 virtual NullCheck* as_NullCheck() { return NULL; } | |
476 virtual OsrEntry* as_OsrEntry() { return NULL; } | |
477 virtual StateSplit* as_StateSplit() { return NULL; } | |
478 virtual Invoke* as_Invoke() { return NULL; } | |
479 virtual NewInstance* as_NewInstance() { return NULL; } | |
480 virtual NewArray* as_NewArray() { return NULL; } | |
481 virtual NewTypeArray* as_NewTypeArray() { return NULL; } | |
482 virtual NewObjectArray* as_NewObjectArray() { return NULL; } | |
483 virtual NewMultiArray* as_NewMultiArray() { return NULL; } | |
484 virtual TypeCheck* as_TypeCheck() { return NULL; } | |
485 virtual CheckCast* as_CheckCast() { return NULL; } | |
486 virtual InstanceOf* as_InstanceOf() { return NULL; } | |
487 virtual AccessMonitor* as_AccessMonitor() { return NULL; } | |
488 virtual MonitorEnter* as_MonitorEnter() { return NULL; } | |
489 virtual MonitorExit* as_MonitorExit() { return NULL; } | |
490 virtual Intrinsic* as_Intrinsic() { return NULL; } | |
491 virtual BlockBegin* as_BlockBegin() { return NULL; } | |
492 virtual BlockEnd* as_BlockEnd() { return NULL; } | |
493 virtual Goto* as_Goto() { return NULL; } | |
494 virtual If* as_If() { return NULL; } | |
495 virtual IfInstanceOf* as_IfInstanceOf() { return NULL; } | |
496 virtual TableSwitch* as_TableSwitch() { return NULL; } | |
497 virtual LookupSwitch* as_LookupSwitch() { return NULL; } | |
498 virtual Return* as_Return() { return NULL; } | |
499 virtual Throw* as_Throw() { return NULL; } | |
500 virtual Base* as_Base() { return NULL; } | |
501 virtual RoundFP* as_RoundFP() { return NULL; } | |
502 virtual ExceptionObject* as_ExceptionObject() { return NULL; } | |
503 virtual UnsafeOp* as_UnsafeOp() { return NULL; } | |
504 | |
505 virtual void visit(InstructionVisitor* v) = 0; | |
506 | |
507 virtual bool can_trap() const { return false; } | |
508 | |
1584 | 509 virtual void input_values_do(ValueVisitor* f) = 0; |
1819 | 510 virtual void state_values_do(ValueVisitor* f); |
1584 | 511 virtual void other_values_do(ValueVisitor* f) { /* usually no other - override on demand */ } |
512 void values_do(ValueVisitor* f) { input_values_do(f); state_values_do(f); other_values_do(f); } | |
0 | 513 |
514 virtual ciType* exact_type() const { return NULL; } | |
515 virtual ciType* declared_type() const { return NULL; } | |
516 | |
517 // hashing | |
518 virtual const char* name() const = 0; | |
519 HASHING1(Instruction, false, id()) // hashing disabled by default | |
520 | |
521 // debugging | |
1819 | 522 static void check_state(ValueStack* state) PRODUCT_RETURN; |
0 | 523 void print() PRODUCT_RETURN; |
524 void print_line() PRODUCT_RETURN; | |
525 void print(InstructionPrinter& ip) PRODUCT_RETURN; | |
526 }; | |
527 | |
528 | |
529 // The following macros are used to define base (i.e., non-leaf) | |
530 // and leaf instruction classes. They define class-name related | |
531 // generic functionality in one place. | |
532 | |
533 #define BASE(class_name, super_class_name) \ | |
534 class class_name: public super_class_name { \ | |
535 public: \ | |
536 virtual class_name* as_##class_name() { return this; } \ | |
537 | |
538 | |
539 #define LEAF(class_name, super_class_name) \ | |
540 BASE(class_name, super_class_name) \ | |
541 public: \ | |
542 virtual const char* name() const { return #class_name; } \ | |
543 virtual void visit(InstructionVisitor* v) { v->do_##class_name(this); } \ | |
544 | |
545 | |
546 // Debugging support | |
547 | |
1584 | 548 |
0 | 549 #ifdef ASSERT |
1584 | 550 class AssertValues: public ValueVisitor { |
551 void visit(Value* x) { assert((*x) != NULL, "value must exist"); } | |
552 }; | |
553 #define ASSERT_VALUES { AssertValues assert_value; values_do(&assert_value); } | |
0 | 554 #else |
555 #define ASSERT_VALUES | |
556 #endif // ASSERT | |
557 | |
558 | |
559 // A Phi is a phi function in the sense of SSA form. It stands for | |
560 // the value of a local variable at the beginning of a join block. | |
561 // A Phi consists of n operands, one for every incoming branch. | |
562 | |
563 LEAF(Phi, Instruction) | |
564 private: | |
565 BlockBegin* _block; // the block to which the phi function belongs | |
566 int _pf_flags; // the flags of the phi function | |
567 int _index; // to value on operand stack (index < 0) or to local | |
568 public: | |
569 // creation | |
570 Phi(ValueType* type, BlockBegin* b, int index) | |
571 : Instruction(type->base()) | |
572 , _pf_flags(0) | |
573 , _block(b) | |
574 , _index(index) | |
575 { | |
576 if (type->is_illegal()) { | |
577 make_illegal(); | |
578 } | |
579 } | |
580 | |
581 // flags | |
582 enum Flag { | |
583 no_flag = 0, | |
584 visited = 1 << 0, | |
585 cannot_simplify = 1 << 1 | |
586 }; | |
587 | |
588 // accessors | |
589 bool is_local() const { return _index >= 0; } | |
590 bool is_on_stack() const { return !is_local(); } | |
591 int local_index() const { assert(is_local(), ""); return _index; } | |
592 int stack_index() const { assert(is_on_stack(), ""); return -(_index+1); } | |
593 | |
594 Value operand_at(int i) const; | |
595 int operand_count() const; | |
596 | |
597 BlockBegin* block() const { return _block; } | |
598 | |
599 void set(Flag f) { _pf_flags |= f; } | |
600 void clear(Flag f) { _pf_flags &= ~f; } | |
601 bool is_set(Flag f) const { return (_pf_flags & f) != 0; } | |
602 | |
603 // Invalidates phis corresponding to merges of locals of two different types | |
604 // (these should never be referenced, otherwise the bytecodes are illegal) | |
605 void make_illegal() { | |
606 set(cannot_simplify); | |
607 set_type(illegalType); | |
608 } | |
609 | |
610 bool is_illegal() const { | |
611 return type()->is_illegal(); | |
612 } | |
613 | |
614 // generic | |
1584 | 615 virtual void input_values_do(ValueVisitor* f) { |
0 | 616 } |
617 }; | |
618 | |
619 | |
620 // A local is a placeholder for an incoming argument to a function call. | |
621 LEAF(Local, Instruction) | |
622 private: | |
623 int _java_index; // the local index within the method to which the local belongs | |
624 public: | |
625 // creation | |
626 Local(ValueType* type, int index) | |
627 : Instruction(type) | |
628 , _java_index(index) | |
629 {} | |
630 | |
631 // accessors | |
632 int java_index() const { return _java_index; } | |
633 | |
634 // generic | |
1584 | 635 virtual void input_values_do(ValueVisitor* f) { /* no values */ } |
0 | 636 }; |
637 | |
638 | |
639 LEAF(Constant, Instruction) | |
640 public: | |
641 // creation | |
642 Constant(ValueType* type): | |
1819 | 643 Instruction(type, NULL, true) |
644 { | |
0 | 645 assert(type->is_constant(), "must be a constant"); |
646 } | |
647 | |
1819 | 648 Constant(ValueType* type, ValueStack* state_before): |
649 Instruction(type, state_before, true) | |
650 { | |
651 assert(state_before != NULL, "only used for constants which need patching"); | |
0 | 652 assert(type->is_constant(), "must be a constant"); |
653 // since it's patching it needs to be pinned | |
654 pin(); | |
655 } | |
656 | |
1819 | 657 virtual bool can_trap() const { return state_before() != NULL; } |
1584 | 658 virtual void input_values_do(ValueVisitor* f) { /* no values */ } |
0 | 659 |
660 virtual intx hash() const; | |
661 virtual bool is_equal(Value v) const; | |
662 | |
1899 | 663 |
664 enum CompareResult { not_comparable = -1, cond_false, cond_true }; | |
665 | |
666 virtual CompareResult compare(Instruction::Condition condition, Value right) const; | |
667 BlockBegin* compare(Instruction::Condition cond, Value right, | |
668 BlockBegin* true_sux, BlockBegin* false_sux) const { | |
669 switch (compare(cond, right)) { | |
670 case not_comparable: | |
671 return NULL; | |
672 case cond_false: | |
673 return false_sux; | |
674 case cond_true: | |
675 return true_sux; | |
676 default: | |
677 ShouldNotReachHere(); | |
678 return NULL; | |
679 } | |
680 } | |
0 | 681 }; |
682 | |
683 | |
684 BASE(AccessField, Instruction) | |
685 private: | |
686 Value _obj; | |
687 int _offset; | |
688 ciField* _field; | |
689 NullCheck* _explicit_null_check; // For explicit null check elimination | |
690 | |
691 public: | |
692 // creation | |
1819 | 693 AccessField(Value obj, int offset, ciField* field, bool is_static, |
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694 ValueStack* state_before, bool needs_patching) |
1819 | 695 : Instruction(as_ValueType(field->type()->basic_type()), state_before) |
0 | 696 , _obj(obj) |
697 , _offset(offset) | |
698 , _field(field) | |
699 , _explicit_null_check(NULL) | |
700 { | |
701 set_needs_null_check(!is_static); | |
702 set_flag(IsStaticFlag, is_static); | |
2352
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703 set_flag(NeedsPatchingFlag, needs_patching); |
0 | 704 ASSERT_VALUES |
705 // pin of all instructions with memory access | |
706 pin(); | |
707 } | |
708 | |
709 // accessors | |
710 Value obj() const { return _obj; } | |
711 int offset() const { return _offset; } | |
712 ciField* field() const { return _field; } | |
713 BasicType field_type() const { return _field->type()->basic_type(); } | |
714 bool is_static() const { return check_flag(IsStaticFlag); } | |
715 NullCheck* explicit_null_check() const { return _explicit_null_check; } | |
716 bool needs_patching() const { return check_flag(NeedsPatchingFlag); } | |
717 | |
2352
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718 // Unresolved getstatic and putstatic can cause initialization. |
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719 // Technically it occurs at the Constant that materializes the base |
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720 // of the static fields but it's simpler to model it here. |
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721 bool is_init_point() const { return is_static() && (needs_patching() || !_field->holder()->is_initialized()); } |
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722 |
0 | 723 // manipulation |
1819 | 724 |
0 | 725 // Under certain circumstances, if a previous NullCheck instruction |
726 // proved the target object non-null, we can eliminate the explicit | |
727 // null check and do an implicit one, simply specifying the debug | |
728 // information from the NullCheck. This field should only be consulted | |
729 // if needs_null_check() is true. | |
730 void set_explicit_null_check(NullCheck* check) { _explicit_null_check = check; } | |
731 | |
732 // generic | |
733 virtual bool can_trap() const { return needs_null_check() || needs_patching(); } | |
1584 | 734 virtual void input_values_do(ValueVisitor* f) { f->visit(&_obj); } |
0 | 735 }; |
736 | |
737 | |
738 LEAF(LoadField, AccessField) | |
739 public: | |
740 // creation | |
1819 | 741 LoadField(Value obj, int offset, ciField* field, bool is_static, |
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742 ValueStack* state_before, bool needs_patching) |
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743 : AccessField(obj, offset, field, is_static, state_before, needs_patching) |
0 | 744 {} |
745 | |
746 ciType* declared_type() const; | |
747 ciType* exact_type() const; | |
748 | |
749 // generic | |
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750 HASHING2(LoadField, !needs_patching() && !field()->is_volatile(), obj()->subst(), offset()) // cannot be eliminated if needs patching or if volatile |
0 | 751 }; |
752 | |
753 | |
754 LEAF(StoreField, AccessField) | |
755 private: | |
756 Value _value; | |
757 | |
758 public: | |
759 // creation | |
1819 | 760 StoreField(Value obj, int offset, ciField* field, Value value, bool is_static, |
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761 ValueStack* state_before, bool needs_patching) |
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762 : AccessField(obj, offset, field, is_static, state_before, needs_patching) |
0 | 763 , _value(value) |
764 { | |
765 set_flag(NeedsWriteBarrierFlag, as_ValueType(field_type())->is_object()); | |
766 ASSERT_VALUES | |
767 pin(); | |
768 } | |
769 | |
770 // accessors | |
771 Value value() const { return _value; } | |
772 bool needs_write_barrier() const { return check_flag(NeedsWriteBarrierFlag); } | |
773 | |
774 // generic | |
1584 | 775 virtual void input_values_do(ValueVisitor* f) { AccessField::input_values_do(f); f->visit(&_value); } |
0 | 776 }; |
777 | |
778 | |
779 BASE(AccessArray, Instruction) | |
780 private: | |
781 Value _array; | |
782 | |
783 public: | |
784 // creation | |
1819 | 785 AccessArray(ValueType* type, Value array, ValueStack* state_before) |
786 : Instruction(type, state_before) | |
0 | 787 , _array(array) |
1819 | 788 { |
0 | 789 set_needs_null_check(true); |
790 ASSERT_VALUES | |
791 pin(); // instruction with side effect (null exception or range check throwing) | |
792 } | |
793 | |
794 Value array() const { return _array; } | |
795 | |
796 // generic | |
797 virtual bool can_trap() const { return needs_null_check(); } | |
1584 | 798 virtual void input_values_do(ValueVisitor* f) { f->visit(&_array); } |
0 | 799 }; |
800 | |
801 | |
802 LEAF(ArrayLength, AccessArray) | |
803 private: | |
804 NullCheck* _explicit_null_check; // For explicit null check elimination | |
805 | |
806 public: | |
807 // creation | |
1819 | 808 ArrayLength(Value array, ValueStack* state_before) |
809 : AccessArray(intType, array, state_before) | |
0 | 810 , _explicit_null_check(NULL) {} |
811 | |
812 // accessors | |
813 NullCheck* explicit_null_check() const { return _explicit_null_check; } | |
814 | |
815 // setters | |
816 // See LoadField::set_explicit_null_check for documentation | |
817 void set_explicit_null_check(NullCheck* check) { _explicit_null_check = check; } | |
818 | |
819 // generic | |
820 HASHING1(ArrayLength, true, array()->subst()) | |
821 }; | |
822 | |
823 | |
824 BASE(AccessIndexed, AccessArray) | |
825 private: | |
826 Value _index; | |
827 Value _length; | |
828 BasicType _elt_type; | |
829 | |
830 public: | |
831 // creation | |
1819 | 832 AccessIndexed(Value array, Value index, Value length, BasicType elt_type, ValueStack* state_before) |
833 : AccessArray(as_ValueType(elt_type), array, state_before) | |
0 | 834 , _index(index) |
835 , _length(length) | |
836 , _elt_type(elt_type) | |
837 { | |
838 ASSERT_VALUES | |
839 } | |
840 | |
841 // accessors | |
842 Value index() const { return _index; } | |
843 Value length() const { return _length; } | |
844 BasicType elt_type() const { return _elt_type; } | |
845 | |
846 // perform elimination of range checks involving constants | |
847 bool compute_needs_range_check(); | |
848 | |
849 // generic | |
1584 | 850 virtual void input_values_do(ValueVisitor* f) { AccessArray::input_values_do(f); f->visit(&_index); if (_length != NULL) f->visit(&_length); } |
0 | 851 }; |
852 | |
853 | |
854 LEAF(LoadIndexed, AccessIndexed) | |
855 private: | |
856 NullCheck* _explicit_null_check; // For explicit null check elimination | |
857 | |
858 public: | |
859 // creation | |
1819 | 860 LoadIndexed(Value array, Value index, Value length, BasicType elt_type, ValueStack* state_before) |
861 : AccessIndexed(array, index, length, elt_type, state_before) | |
0 | 862 , _explicit_null_check(NULL) {} |
863 | |
864 // accessors | |
865 NullCheck* explicit_null_check() const { return _explicit_null_check; } | |
866 | |
867 // setters | |
868 // See LoadField::set_explicit_null_check for documentation | |
869 void set_explicit_null_check(NullCheck* check) { _explicit_null_check = check; } | |
870 | |
871 ciType* exact_type() const; | |
872 ciType* declared_type() const; | |
873 | |
874 // generic | |
875 HASHING2(LoadIndexed, true, array()->subst(), index()->subst()) | |
876 }; | |
877 | |
878 | |
879 LEAF(StoreIndexed, AccessIndexed) | |
880 private: | |
881 Value _value; | |
882 | |
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883 ciMethod* _profiled_method; |
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884 int _profiled_bci; |
0 | 885 public: |
886 // creation | |
1819 | 887 StoreIndexed(Value array, Value index, Value length, BasicType elt_type, Value value, ValueStack* state_before) |
888 : AccessIndexed(array, index, length, elt_type, state_before) | |
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889 , _value(value), _profiled_method(NULL), _profiled_bci(0) |
0 | 890 { |
891 set_flag(NeedsWriteBarrierFlag, (as_ValueType(elt_type)->is_object())); | |
892 set_flag(NeedsStoreCheckFlag, (as_ValueType(elt_type)->is_object())); | |
893 ASSERT_VALUES | |
894 pin(); | |
895 } | |
896 | |
897 // accessors | |
898 Value value() const { return _value; } | |
899 bool needs_write_barrier() const { return check_flag(NeedsWriteBarrierFlag); } | |
900 bool needs_store_check() const { return check_flag(NeedsStoreCheckFlag); } | |
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901 // Helpers for methodDataOop profiling |
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902 void set_should_profile(bool value) { set_flag(ProfileMDOFlag, value); } |
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903 void set_profiled_method(ciMethod* method) { _profiled_method = method; } |
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904 void set_profiled_bci(int bci) { _profiled_bci = bci; } |
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905 bool should_profile() const { return check_flag(ProfileMDOFlag); } |
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906 ciMethod* profiled_method() const { return _profiled_method; } |
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907 int profiled_bci() const { return _profiled_bci; } |
0 | 908 // generic |
1584 | 909 virtual void input_values_do(ValueVisitor* f) { AccessIndexed::input_values_do(f); f->visit(&_value); } |
0 | 910 }; |
911 | |
912 | |
913 LEAF(NegateOp, Instruction) | |
914 private: | |
915 Value _x; | |
916 | |
917 public: | |
918 // creation | |
919 NegateOp(Value x) : Instruction(x->type()->base()), _x(x) { | |
920 ASSERT_VALUES | |
921 } | |
922 | |
923 // accessors | |
924 Value x() const { return _x; } | |
925 | |
926 // generic | |
1584 | 927 virtual void input_values_do(ValueVisitor* f) { f->visit(&_x); } |
0 | 928 }; |
929 | |
930 | |
931 BASE(Op2, Instruction) | |
932 private: | |
933 Bytecodes::Code _op; | |
934 Value _x; | |
935 Value _y; | |
936 | |
937 public: | |
938 // creation | |
1819 | 939 Op2(ValueType* type, Bytecodes::Code op, Value x, Value y, ValueStack* state_before = NULL) |
940 : Instruction(type, state_before) | |
941 , _op(op) | |
942 , _x(x) | |
943 , _y(y) | |
944 { | |
0 | 945 ASSERT_VALUES |
946 } | |
947 | |
948 // accessors | |
949 Bytecodes::Code op() const { return _op; } | |
950 Value x() const { return _x; } | |
951 Value y() const { return _y; } | |
952 | |
953 // manipulators | |
954 void swap_operands() { | |
955 assert(is_commutative(), "operation must be commutative"); | |
956 Value t = _x; _x = _y; _y = t; | |
957 } | |
958 | |
959 // generic | |
960 virtual bool is_commutative() const { return false; } | |
1584 | 961 virtual void input_values_do(ValueVisitor* f) { f->visit(&_x); f->visit(&_y); } |
0 | 962 }; |
963 | |
964 | |
965 LEAF(ArithmeticOp, Op2) | |
966 public: | |
967 // creation | |
1819 | 968 ArithmeticOp(Bytecodes::Code op, Value x, Value y, bool is_strictfp, ValueStack* state_before) |
969 : Op2(x->type()->meet(y->type()), op, x, y, state_before) | |
970 { | |
0 | 971 set_flag(IsStrictfpFlag, is_strictfp); |
972 if (can_trap()) pin(); | |
973 } | |
974 | |
975 // accessors | |
976 bool is_strictfp() const { return check_flag(IsStrictfpFlag); } | |
977 | |
978 // generic | |
979 virtual bool is_commutative() const; | |
980 virtual bool can_trap() const; | |
981 HASHING3(Op2, true, op(), x()->subst(), y()->subst()) | |
982 }; | |
983 | |
984 | |
985 LEAF(ShiftOp, Op2) | |
986 public: | |
987 // creation | |
988 ShiftOp(Bytecodes::Code op, Value x, Value s) : Op2(x->type()->base(), op, x, s) {} | |
989 | |
990 // generic | |
991 HASHING3(Op2, true, op(), x()->subst(), y()->subst()) | |
992 }; | |
993 | |
994 | |
995 LEAF(LogicOp, Op2) | |
996 public: | |
997 // creation | |
998 LogicOp(Bytecodes::Code op, Value x, Value y) : Op2(x->type()->meet(y->type()), op, x, y) {} | |
999 | |
1000 // generic | |
1001 virtual bool is_commutative() const; | |
1002 HASHING3(Op2, true, op(), x()->subst(), y()->subst()) | |
1003 }; | |
1004 | |
1005 | |
1006 LEAF(CompareOp, Op2) | |
1007 public: | |
1008 // creation | |
1009 CompareOp(Bytecodes::Code op, Value x, Value y, ValueStack* state_before) | |
1819 | 1010 : Op2(intType, op, x, y, state_before) |
0 | 1011 {} |
1012 | |
1013 // generic | |
1014 HASHING3(Op2, true, op(), x()->subst(), y()->subst()) | |
1015 }; | |
1016 | |
1017 | |
1018 LEAF(IfOp, Op2) | |
1019 private: | |
1020 Value _tval; | |
1021 Value _fval; | |
1022 | |
1023 public: | |
1024 // creation | |
1025 IfOp(Value x, Condition cond, Value y, Value tval, Value fval) | |
1026 : Op2(tval->type()->meet(fval->type()), (Bytecodes::Code)cond, x, y) | |
1027 , _tval(tval) | |
1028 , _fval(fval) | |
1029 { | |
1030 ASSERT_VALUES | |
1031 assert(tval->type()->tag() == fval->type()->tag(), "types must match"); | |
1032 } | |
1033 | |
1034 // accessors | |
1035 virtual bool is_commutative() const; | |
1036 Bytecodes::Code op() const { ShouldNotCallThis(); return Bytecodes::_illegal; } | |
1037 Condition cond() const { return (Condition)Op2::op(); } | |
1038 Value tval() const { return _tval; } | |
1039 Value fval() const { return _fval; } | |
1040 | |
1041 // generic | |
1584 | 1042 virtual void input_values_do(ValueVisitor* f) { Op2::input_values_do(f); f->visit(&_tval); f->visit(&_fval); } |
0 | 1043 }; |
1044 | |
1045 | |
1046 LEAF(Convert, Instruction) | |
1047 private: | |
1048 Bytecodes::Code _op; | |
1049 Value _value; | |
1050 | |
1051 public: | |
1052 // creation | |
1053 Convert(Bytecodes::Code op, Value value, ValueType* to_type) : Instruction(to_type), _op(op), _value(value) { | |
1054 ASSERT_VALUES | |
1055 } | |
1056 | |
1057 // accessors | |
1058 Bytecodes::Code op() const { return _op; } | |
1059 Value value() const { return _value; } | |
1060 | |
1061 // generic | |
1584 | 1062 virtual void input_values_do(ValueVisitor* f) { f->visit(&_value); } |
0 | 1063 HASHING2(Convert, true, op(), value()->subst()) |
1064 }; | |
1065 | |
1066 | |
1067 LEAF(NullCheck, Instruction) | |
1068 private: | |
1069 Value _obj; | |
1070 | |
1071 public: | |
1072 // creation | |
1819 | 1073 NullCheck(Value obj, ValueStack* state_before) |
1074 : Instruction(obj->type()->base(), state_before) | |
1075 , _obj(obj) | |
1076 { | |
0 | 1077 ASSERT_VALUES |
1078 set_can_trap(true); | |
1079 assert(_obj->type()->is_object(), "null check must be applied to objects only"); | |
1080 pin(Instruction::PinExplicitNullCheck); | |
1081 } | |
1082 | |
1083 // accessors | |
1084 Value obj() const { return _obj; } | |
1085 | |
1086 // setters | |
1087 void set_can_trap(bool can_trap) { set_flag(CanTrapFlag, can_trap); } | |
1088 | |
1089 // generic | |
1090 virtual bool can_trap() const { return check_flag(CanTrapFlag); /* null-check elimination sets to false */ } | |
1584 | 1091 virtual void input_values_do(ValueVisitor* f) { f->visit(&_obj); } |
0 | 1092 HASHING1(NullCheck, true, obj()->subst()) |
1093 }; | |
1094 | |
1095 | |
1096 BASE(StateSplit, Instruction) | |
1097 private: | |
1098 ValueStack* _state; | |
1099 | |
1100 protected: | |
1101 static void substitute(BlockList& list, BlockBegin* old_block, BlockBegin* new_block); | |
1102 | |
1103 public: | |
1104 // creation | |
1819 | 1105 StateSplit(ValueType* type, ValueStack* state_before = NULL) |
1106 : Instruction(type, state_before) | |
1107 , _state(NULL) | |
1108 { | |
0 | 1109 pin(PinStateSplitConstructor); |
1110 } | |
1111 | |
1112 // accessors | |
1113 ValueStack* state() const { return _state; } | |
1114 IRScope* scope() const; // the state's scope | |
1115 | |
1116 // manipulation | |
1819 | 1117 void set_state(ValueStack* state) { assert(_state == NULL, "overwriting existing state"); check_state(state); _state = state; } |
0 | 1118 |
1119 // generic | |
1584 | 1120 virtual void input_values_do(ValueVisitor* f) { /* no values */ } |
1121 virtual void state_values_do(ValueVisitor* f); | |
0 | 1122 }; |
1123 | |
1124 | |
1125 LEAF(Invoke, StateSplit) | |
1126 private: | |
1295 | 1127 Bytecodes::Code _code; |
1128 Value _recv; | |
1129 Values* _args; | |
1130 BasicTypeList* _signature; | |
1131 int _vtable_index; | |
1132 ciMethod* _target; | |
0 | 1133 |
1134 public: | |
1135 // creation | |
1136 Invoke(Bytecodes::Code code, ValueType* result_type, Value recv, Values* args, | |
1295 | 1137 int vtable_index, ciMethod* target, ValueStack* state_before); |
0 | 1138 |
1139 // accessors | |
1140 Bytecodes::Code code() const { return _code; } | |
1141 Value receiver() const { return _recv; } | |
1142 bool has_receiver() const { return receiver() != NULL; } | |
1143 int number_of_arguments() const { return _args->length(); } | |
1144 Value argument_at(int i) const { return _args->at(i); } | |
1145 int vtable_index() const { return _vtable_index; } | |
1146 BasicTypeList* signature() const { return _signature; } | |
1147 ciMethod* target() const { return _target; } | |
1148 | |
1149 // Returns false if target is not loaded | |
1150 bool target_is_final() const { return check_flag(TargetIsFinalFlag); } | |
1151 bool target_is_loaded() const { return check_flag(TargetIsLoadedFlag); } | |
1152 // Returns false if target is not loaded | |
1153 bool target_is_strictfp() const { return check_flag(TargetIsStrictfpFlag); } | |
1154 | |
1295 | 1155 // JSR 292 support |
1156 bool is_invokedynamic() const { return code() == Bytecodes::_invokedynamic; } | |
1157 | |
1819 | 1158 virtual bool needs_exception_state() const { return false; } |
1159 | |
0 | 1160 // generic |
1161 virtual bool can_trap() const { return true; } | |
1584 | 1162 virtual void input_values_do(ValueVisitor* f) { |
0 | 1163 StateSplit::input_values_do(f); |
1584 | 1164 if (has_receiver()) f->visit(&_recv); |
1165 for (int i = 0; i < _args->length(); i++) f->visit(_args->adr_at(i)); | |
0 | 1166 } |
1584 | 1167 virtual void state_values_do(ValueVisitor *f); |
0 | 1168 }; |
1169 | |
1170 | |
1171 LEAF(NewInstance, StateSplit) | |
1172 private: | |
1173 ciInstanceKlass* _klass; | |
1174 | |
1175 public: | |
1176 // creation | |
1819 | 1177 NewInstance(ciInstanceKlass* klass, ValueStack* state_before) |
1178 : StateSplit(instanceType, state_before) | |
1179 , _klass(klass) | |
1180 {} | |
0 | 1181 |
1182 // accessors | |
1183 ciInstanceKlass* klass() const { return _klass; } | |
1184 | |
1819 | 1185 virtual bool needs_exception_state() const { return false; } |
1186 | |
0 | 1187 // generic |
1188 virtual bool can_trap() const { return true; } | |
1189 ciType* exact_type() const; | |
1190 }; | |
1191 | |
1192 | |
1193 BASE(NewArray, StateSplit) | |
1194 private: | |
1195 Value _length; | |
1196 | |
1197 public: | |
1198 // creation | |
1819 | 1199 NewArray(Value length, ValueStack* state_before) |
1200 : StateSplit(objectType, state_before) | |
1201 , _length(length) | |
1202 { | |
0 | 1203 // Do not ASSERT_VALUES since length is NULL for NewMultiArray |
1204 } | |
1205 | |
1206 // accessors | |
1207 Value length() const { return _length; } | |
1208 | |
1819 | 1209 virtual bool needs_exception_state() const { return false; } |
1210 | |
0 | 1211 // generic |
1212 virtual bool can_trap() const { return true; } | |
1584 | 1213 virtual void input_values_do(ValueVisitor* f) { StateSplit::input_values_do(f); f->visit(&_length); } |
0 | 1214 }; |
1215 | |
1216 | |
1217 LEAF(NewTypeArray, NewArray) | |
1218 private: | |
1219 BasicType _elt_type; | |
1220 | |
1221 public: | |
1222 // creation | |
1819 | 1223 NewTypeArray(Value length, BasicType elt_type, ValueStack* state_before) |
1224 : NewArray(length, state_before) | |
1225 , _elt_type(elt_type) | |
1226 {} | |
0 | 1227 |
1228 // accessors | |
1229 BasicType elt_type() const { return _elt_type; } | |
1230 ciType* exact_type() const; | |
1231 }; | |
1232 | |
1233 | |
1234 LEAF(NewObjectArray, NewArray) | |
1235 private: | |
1236 ciKlass* _klass; | |
1237 | |
1238 public: | |
1239 // creation | |
1240 NewObjectArray(ciKlass* klass, Value length, ValueStack* state_before) : NewArray(length, state_before), _klass(klass) {} | |
1241 | |
1242 // accessors | |
1243 ciKlass* klass() const { return _klass; } | |
1244 ciType* exact_type() const; | |
1245 }; | |
1246 | |
1247 | |
1248 LEAF(NewMultiArray, NewArray) | |
1249 private: | |
1250 ciKlass* _klass; | |
1251 Values* _dims; | |
1252 | |
1253 public: | |
1254 // creation | |
1255 NewMultiArray(ciKlass* klass, Values* dims, ValueStack* state_before) : NewArray(NULL, state_before), _klass(klass), _dims(dims) { | |
1256 ASSERT_VALUES | |
1257 } | |
1258 | |
1259 // accessors | |
1260 ciKlass* klass() const { return _klass; } | |
1261 Values* dims() const { return _dims; } | |
1262 int rank() const { return dims()->length(); } | |
1263 | |
1264 // generic | |
1584 | 1265 virtual void input_values_do(ValueVisitor* f) { |
0 | 1266 // NOTE: we do not call NewArray::input_values_do since "length" |
1267 // is meaningless for a multi-dimensional array; passing the | |
1268 // zeroth element down to NewArray as its length is a bad idea | |
1269 // since there will be a copy in the "dims" array which doesn't | |
1270 // get updated, and the value must not be traversed twice. Was bug | |
1271 // - kbr 4/10/2001 | |
1272 StateSplit::input_values_do(f); | |
1584 | 1273 for (int i = 0; i < _dims->length(); i++) f->visit(_dims->adr_at(i)); |
0 | 1274 } |
1275 }; | |
1276 | |
1277 | |
1278 BASE(TypeCheck, StateSplit) | |
1279 private: | |
1280 ciKlass* _klass; | |
1281 Value _obj; | |
1282 | |
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1283 ciMethod* _profiled_method; |
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1284 int _profiled_bci; |
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1285 |
0 | 1286 public: |
1287 // creation | |
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1288 TypeCheck(ciKlass* klass, Value obj, ValueType* type, ValueStack* state_before) |
1819 | 1289 : StateSplit(type, state_before), _klass(klass), _obj(obj), |
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1290 _profiled_method(NULL), _profiled_bci(0) { |
0 | 1291 ASSERT_VALUES |
1292 set_direct_compare(false); | |
1293 } | |
1294 | |
1295 // accessors | |
1296 ciKlass* klass() const { return _klass; } | |
1297 Value obj() const { return _obj; } | |
1298 bool is_loaded() const { return klass() != NULL; } | |
1299 bool direct_compare() const { return check_flag(DirectCompareFlag); } | |
1300 | |
1301 // manipulation | |
1302 void set_direct_compare(bool flag) { set_flag(DirectCompareFlag, flag); } | |
1303 | |
1304 // generic | |
1305 virtual bool can_trap() const { return true; } | |
1584 | 1306 virtual void input_values_do(ValueVisitor* f) { StateSplit::input_values_do(f); f->visit(&_obj); } |
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1307 |
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1308 // Helpers for methodDataOop profiling |
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1309 void set_should_profile(bool value) { set_flag(ProfileMDOFlag, value); } |
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1310 void set_profiled_method(ciMethod* method) { _profiled_method = method; } |
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1311 void set_profiled_bci(int bci) { _profiled_bci = bci; } |
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1312 bool should_profile() const { return check_flag(ProfileMDOFlag); } |
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1313 ciMethod* profiled_method() const { return _profiled_method; } |
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1314 int profiled_bci() const { return _profiled_bci; } |
0 | 1315 }; |
1316 | |
1317 | |
1318 LEAF(CheckCast, TypeCheck) | |
1319 public: | |
1320 // creation | |
1321 CheckCast(ciKlass* klass, Value obj, ValueStack* state_before) | |
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1322 : TypeCheck(klass, obj, objectType, state_before) {} |
0 | 1323 |
1324 void set_incompatible_class_change_check() { | |
1325 set_flag(ThrowIncompatibleClassChangeErrorFlag, true); | |
1326 } | |
1327 bool is_incompatible_class_change_check() const { | |
1328 return check_flag(ThrowIncompatibleClassChangeErrorFlag); | |
1329 } | |
1330 | |
1331 ciType* declared_type() const; | |
1332 ciType* exact_type() const; | |
1333 }; | |
1334 | |
1335 | |
1336 LEAF(InstanceOf, TypeCheck) | |
1337 public: | |
1338 // creation | |
1339 InstanceOf(ciKlass* klass, Value obj, ValueStack* state_before) : TypeCheck(klass, obj, intType, state_before) {} | |
1819 | 1340 |
1341 virtual bool needs_exception_state() const { return false; } | |
0 | 1342 }; |
1343 | |
1344 | |
1345 BASE(AccessMonitor, StateSplit) | |
1346 private: | |
1347 Value _obj; | |
1348 int _monitor_no; | |
1349 | |
1350 public: | |
1351 // creation | |
1819 | 1352 AccessMonitor(Value obj, int monitor_no, ValueStack* state_before = NULL) |
1353 : StateSplit(illegalType, state_before) | |
0 | 1354 , _obj(obj) |
1355 , _monitor_no(monitor_no) | |
1356 { | |
1357 set_needs_null_check(true); | |
1358 ASSERT_VALUES | |
1359 } | |
1360 | |
1361 // accessors | |
1362 Value obj() const { return _obj; } | |
1363 int monitor_no() const { return _monitor_no; } | |
1364 | |
1365 // generic | |
1584 | 1366 virtual void input_values_do(ValueVisitor* f) { StateSplit::input_values_do(f); f->visit(&_obj); } |
0 | 1367 }; |
1368 | |
1369 | |
1370 LEAF(MonitorEnter, AccessMonitor) | |
1371 public: | |
1372 // creation | |
1819 | 1373 MonitorEnter(Value obj, int monitor_no, ValueStack* state_before) |
1374 : AccessMonitor(obj, monitor_no, state_before) | |
0 | 1375 { |
1376 ASSERT_VALUES | |
1377 } | |
1378 | |
1379 // generic | |
1380 virtual bool can_trap() const { return true; } | |
1381 }; | |
1382 | |
1383 | |
1384 LEAF(MonitorExit, AccessMonitor) | |
1385 public: | |
1386 // creation | |
1819 | 1387 MonitorExit(Value obj, int monitor_no) |
1388 : AccessMonitor(obj, monitor_no, NULL) | |
1389 { | |
1390 ASSERT_VALUES | |
1391 } | |
0 | 1392 }; |
1393 | |
1394 | |
1395 LEAF(Intrinsic, StateSplit) | |
1396 private: | |
1397 vmIntrinsics::ID _id; | |
1398 Values* _args; | |
1399 Value _recv; | |
1400 | |
1401 public: | |
1402 // preserves_state can be set to true for Intrinsics | |
1403 // which are guaranteed to preserve register state across any slow | |
1404 // cases; setting it to true does not mean that the Intrinsic can | |
1405 // not trap, only that if we continue execution in the same basic | |
1406 // block after the Intrinsic, all of the registers are intact. This | |
1407 // allows load elimination and common expression elimination to be | |
1408 // performed across the Intrinsic. The default value is false. | |
1409 Intrinsic(ValueType* type, | |
1410 vmIntrinsics::ID id, | |
1411 Values* args, | |
1412 bool has_receiver, | |
1819 | 1413 ValueStack* state_before, |
0 | 1414 bool preserves_state, |
1415 bool cantrap = true) | |
1819 | 1416 : StateSplit(type, state_before) |
0 | 1417 , _id(id) |
1418 , _args(args) | |
1419 , _recv(NULL) | |
1420 { | |
1421 assert(args != NULL, "args must exist"); | |
1422 ASSERT_VALUES | |
1423 set_flag(PreservesStateFlag, preserves_state); | |
1424 set_flag(CanTrapFlag, cantrap); | |
1425 if (has_receiver) { | |
1426 _recv = argument_at(0); | |
1427 } | |
1428 set_needs_null_check(has_receiver); | |
1429 | |
1430 // some intrinsics can't trap, so don't force them to be pinned | |
1431 if (!can_trap()) { | |
1432 unpin(PinStateSplitConstructor); | |
1433 } | |
1434 } | |
1435 | |
1436 // accessors | |
1437 vmIntrinsics::ID id() const { return _id; } | |
1438 int number_of_arguments() const { return _args->length(); } | |
1439 Value argument_at(int i) const { return _args->at(i); } | |
1440 | |
1441 bool has_receiver() const { return (_recv != NULL); } | |
1442 Value receiver() const { assert(has_receiver(), "must have receiver"); return _recv; } | |
1443 bool preserves_state() const { return check_flag(PreservesStateFlag); } | |
1444 | |
1445 // generic | |
1446 virtual bool can_trap() const { return check_flag(CanTrapFlag); } | |
1584 | 1447 virtual void input_values_do(ValueVisitor* f) { |
0 | 1448 StateSplit::input_values_do(f); |
1584 | 1449 for (int i = 0; i < _args->length(); i++) f->visit(_args->adr_at(i)); |
0 | 1450 } |
1451 }; | |
1452 | |
1453 | |
1454 class LIR_List; | |
1455 | |
1456 LEAF(BlockBegin, StateSplit) | |
1457 private: | |
1458 int _block_id; // the unique block id | |
1819 | 1459 int _bci; // start-bci of block |
0 | 1460 int _depth_first_number; // number of this block in a depth-first ordering |
1461 int _linear_scan_number; // number of this block in linear-scan ordering | |
1462 int _loop_depth; // the loop nesting level of this block | |
1463 int _loop_index; // number of the innermost loop of this block | |
1464 int _flags; // the flags associated with this block | |
1465 | |
1466 // fields used by BlockListBuilder | |
1467 int _total_preds; // number of predecessors found by BlockListBuilder | |
1468 BitMap _stores_to_locals; // bit is set when a local variable is stored in the block | |
1469 | |
1470 // SSA specific fields: (factor out later) | |
1471 BlockList _successors; // the successors of this block | |
1472 BlockList _predecessors; // the predecessors of this block | |
1473 BlockBegin* _dominator; // the dominator of this block | |
1474 // SSA specific ends | |
1475 BlockEnd* _end; // the last instruction of this block | |
1476 BlockList _exception_handlers; // the exception handlers potentially invoked by this block | |
1477 ValueStackStack* _exception_states; // only for xhandler entries: states of all instructions that have an edge to this xhandler | |
1478 int _exception_handler_pco; // if this block is the start of an exception handler, | |
1479 // this records the PC offset in the assembly code of the | |
1480 // first instruction in this block | |
1481 Label _label; // the label associated with this block | |
1482 LIR_List* _lir; // the low level intermediate representation for this block | |
1483 | |
1484 BitMap _live_in; // set of live LIR_Opr registers at entry to this block | |
1485 BitMap _live_out; // set of live LIR_Opr registers at exit from this block | |
1486 BitMap _live_gen; // set of registers used before any redefinition in this block | |
1487 BitMap _live_kill; // set of registers defined in this block | |
1488 | |
1489 BitMap _fpu_register_usage; | |
1490 intArray* _fpu_stack_state; // For x86 FPU code generation with UseLinearScan | |
1491 int _first_lir_instruction_id; // ID of first LIR instruction in this block | |
1492 int _last_lir_instruction_id; // ID of last LIR instruction in this block | |
1493 | |
1494 void iterate_preorder (boolArray& mark, BlockClosure* closure); | |
1495 void iterate_postorder(boolArray& mark, BlockClosure* closure); | |
1496 | |
1497 friend class SuxAndWeightAdjuster; | |
1498 | |
1499 public: | |
1584 | 1500 void* operator new(size_t size) { |
1501 Compilation* c = Compilation::current(); | |
1502 void* res = c->arena()->Amalloc(size); | |
1503 ((BlockBegin*)res)->_id = c->get_next_id(); | |
1504 ((BlockBegin*)res)->_block_id = c->get_next_block_id(); | |
1505 return res; | |
1506 } | |
1507 | |
0 | 1508 // initialization/counting |
1584 | 1509 static int number_of_blocks() { |
1510 return Compilation::current()->number_of_blocks(); | |
1511 } | |
0 | 1512 |
1513 // creation | |
1514 BlockBegin(int bci) | |
1515 : StateSplit(illegalType) | |
1819 | 1516 , _bci(bci) |
0 | 1517 , _depth_first_number(-1) |
1518 , _linear_scan_number(-1) | |
1519 , _loop_depth(0) | |
1520 , _flags(0) | |
1521 , _dominator(NULL) | |
1522 , _end(NULL) | |
1523 , _predecessors(2) | |
1524 , _successors(2) | |
1525 , _exception_handlers(1) | |
1526 , _exception_states(NULL) | |
1527 , _exception_handler_pco(-1) | |
1528 , _lir(NULL) | |
1529 , _loop_index(-1) | |
1530 , _live_in() | |
1531 , _live_out() | |
1532 , _live_gen() | |
1533 , _live_kill() | |
1534 , _fpu_register_usage() | |
1535 , _fpu_stack_state(NULL) | |
1536 , _first_lir_instruction_id(-1) | |
1537 , _last_lir_instruction_id(-1) | |
1538 , _total_preds(0) | |
1539 , _stores_to_locals() | |
1540 { | |
1819 | 1541 #ifndef PRODUCT |
1542 set_printable_bci(bci); | |
1543 #endif | |
0 | 1544 } |
1545 | |
1546 // accessors | |
1547 int block_id() const { return _block_id; } | |
1819 | 1548 int bci() const { return _bci; } |
0 | 1549 BlockList* successors() { return &_successors; } |
1550 BlockBegin* dominator() const { return _dominator; } | |
1551 int loop_depth() const { return _loop_depth; } | |
1552 int depth_first_number() const { return _depth_first_number; } | |
1553 int linear_scan_number() const { return _linear_scan_number; } | |
1554 BlockEnd* end() const { return _end; } | |
1555 Label* label() { return &_label; } | |
1556 LIR_List* lir() const { return _lir; } | |
1557 int exception_handler_pco() const { return _exception_handler_pco; } | |
1558 BitMap& live_in() { return _live_in; } | |
1559 BitMap& live_out() { return _live_out; } | |
1560 BitMap& live_gen() { return _live_gen; } | |
1561 BitMap& live_kill() { return _live_kill; } | |
1562 BitMap& fpu_register_usage() { return _fpu_register_usage; } | |
1563 intArray* fpu_stack_state() const { return _fpu_stack_state; } | |
1564 int first_lir_instruction_id() const { return _first_lir_instruction_id; } | |
1565 int last_lir_instruction_id() const { return _last_lir_instruction_id; } | |
1566 int total_preds() const { return _total_preds; } | |
1567 BitMap& stores_to_locals() { return _stores_to_locals; } | |
1568 | |
1569 // manipulation | |
1570 void set_dominator(BlockBegin* dom) { _dominator = dom; } | |
1571 void set_loop_depth(int d) { _loop_depth = d; } | |
1572 void set_depth_first_number(int dfn) { _depth_first_number = dfn; } | |
1573 void set_linear_scan_number(int lsn) { _linear_scan_number = lsn; } | |
1574 void set_end(BlockEnd* end); | |
1575 void disconnect_from_graph(); | |
1576 static void disconnect_edge(BlockBegin* from, BlockBegin* to); | |
1577 BlockBegin* insert_block_between(BlockBegin* sux); | |
1578 void substitute_sux(BlockBegin* old_sux, BlockBegin* new_sux); | |
1579 void set_lir(LIR_List* lir) { _lir = lir; } | |
1580 void set_exception_handler_pco(int pco) { _exception_handler_pco = pco; } | |
1581 void set_live_in (BitMap map) { _live_in = map; } | |
1582 void set_live_out (BitMap map) { _live_out = map; } | |
1583 void set_live_gen (BitMap map) { _live_gen = map; } | |
1584 void set_live_kill (BitMap map) { _live_kill = map; } | |
1585 void set_fpu_register_usage(BitMap map) { _fpu_register_usage = map; } | |
1586 void set_fpu_stack_state(intArray* state) { _fpu_stack_state = state; } | |
1587 void set_first_lir_instruction_id(int id) { _first_lir_instruction_id = id; } | |
1588 void set_last_lir_instruction_id(int id) { _last_lir_instruction_id = id; } | |
1589 void increment_total_preds(int n = 1) { _total_preds += n; } | |
1590 void init_stores_to_locals(int locals_count) { _stores_to_locals = BitMap(locals_count); _stores_to_locals.clear(); } | |
1591 | |
1592 // generic | |
1584 | 1593 virtual void state_values_do(ValueVisitor* f); |
0 | 1594 |
1595 // successors and predecessors | |
1596 int number_of_sux() const; | |
1597 BlockBegin* sux_at(int i) const; | |
1598 void add_successor(BlockBegin* sux); | |
1599 void remove_successor(BlockBegin* pred); | |
1600 bool is_successor(BlockBegin* sux) const { return _successors.contains(sux); } | |
1601 | |
1602 void add_predecessor(BlockBegin* pred); | |
1603 void remove_predecessor(BlockBegin* pred); | |
1604 bool is_predecessor(BlockBegin* pred) const { return _predecessors.contains(pred); } | |
1605 int number_of_preds() const { return _predecessors.length(); } | |
1606 BlockBegin* pred_at(int i) const { return _predecessors[i]; } | |
1607 | |
1608 // exception handlers potentially invoked by this block | |
1609 void add_exception_handler(BlockBegin* b); | |
1610 bool is_exception_handler(BlockBegin* b) const { return _exception_handlers.contains(b); } | |
1611 int number_of_exception_handlers() const { return _exception_handlers.length(); } | |
1612 BlockBegin* exception_handler_at(int i) const { return _exception_handlers.at(i); } | |
1613 | |
1614 // states of the instructions that have an edge to this exception handler | |
1615 int number_of_exception_states() { assert(is_set(exception_entry_flag), "only for xhandlers"); return _exception_states == NULL ? 0 : _exception_states->length(); } | |
1616 ValueStack* exception_state_at(int idx) const { assert(is_set(exception_entry_flag), "only for xhandlers"); return _exception_states->at(idx); } | |
1617 int add_exception_state(ValueStack* state); | |
1618 | |
1619 // flags | |
1620 enum Flag { | |
1621 no_flag = 0, | |
1622 std_entry_flag = 1 << 0, | |
1623 osr_entry_flag = 1 << 1, | |
1624 exception_entry_flag = 1 << 2, | |
1625 subroutine_entry_flag = 1 << 3, | |
1626 backward_branch_target_flag = 1 << 4, | |
1627 is_on_work_list_flag = 1 << 5, | |
1628 was_visited_flag = 1 << 6, | |
1378
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1629 parser_loop_header_flag = 1 << 7, // set by parser to identify blocks where phi functions can not be created on demand |
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1630 critical_edge_split_flag = 1 << 8, // set for all blocks that are introduced when critical edges are split |
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1631 linear_scan_loop_header_flag = 1 << 9, // set during loop-detection for LinearScan |
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1632 linear_scan_loop_end_flag = 1 << 10 // set during loop-detection for LinearScan |
0 | 1633 }; |
1634 | |
1635 void set(Flag f) { _flags |= f; } | |
1636 void clear(Flag f) { _flags &= ~f; } | |
1637 bool is_set(Flag f) const { return (_flags & f) != 0; } | |
1638 bool is_entry_block() const { | |
1639 const int entry_mask = std_entry_flag | osr_entry_flag | exception_entry_flag; | |
1640 return (_flags & entry_mask) != 0; | |
1641 } | |
1642 | |
1643 // iteration | |
1644 void iterate_preorder (BlockClosure* closure); | |
1645 void iterate_postorder (BlockClosure* closure); | |
1646 | |
1584 | 1647 void block_values_do(ValueVisitor* f); |
0 | 1648 |
1649 // loops | |
1650 void set_loop_index(int ix) { _loop_index = ix; } | |
1651 int loop_index() const { return _loop_index; } | |
1652 | |
1653 // merging | |
1654 bool try_merge(ValueStack* state); // try to merge states at block begin | |
1655 void merge(ValueStack* state) { bool b = try_merge(state); assert(b, "merge failed"); } | |
1656 | |
1657 // debugging | |
1658 void print_block() PRODUCT_RETURN; | |
1659 void print_block(InstructionPrinter& ip, bool live_only = false) PRODUCT_RETURN; | |
1660 }; | |
1661 | |
1662 | |
1663 BASE(BlockEnd, StateSplit) | |
1664 private: | |
1665 BlockBegin* _begin; | |
1666 BlockList* _sux; | |
1667 | |
1668 protected: | |
1669 BlockList* sux() const { return _sux; } | |
1670 | |
1671 void set_sux(BlockList* sux) { | |
1672 #ifdef ASSERT | |
1673 assert(sux != NULL, "sux must exist"); | |
1674 for (int i = sux->length() - 1; i >= 0; i--) assert(sux->at(i) != NULL, "sux must exist"); | |
1675 #endif | |
1676 _sux = sux; | |
1677 } | |
1678 | |
1679 public: | |
1680 // creation | |
1681 BlockEnd(ValueType* type, ValueStack* state_before, bool is_safepoint) | |
1819 | 1682 : StateSplit(type, state_before) |
0 | 1683 , _begin(NULL) |
1684 , _sux(NULL) | |
1819 | 1685 { |
0 | 1686 set_flag(IsSafepointFlag, is_safepoint); |
1687 } | |
1688 | |
1689 // accessors | |
1690 bool is_safepoint() const { return check_flag(IsSafepointFlag); } | |
1691 BlockBegin* begin() const { return _begin; } | |
1692 | |
1693 // manipulation | |
1694 void set_begin(BlockBegin* begin); | |
1695 | |
1696 // successors | |
1697 int number_of_sux() const { return _sux != NULL ? _sux->length() : 0; } | |
1698 BlockBegin* sux_at(int i) const { return _sux->at(i); } | |
1699 BlockBegin* default_sux() const { return sux_at(number_of_sux() - 1); } | |
1700 BlockBegin** addr_sux_at(int i) const { return _sux->adr_at(i); } | |
1701 int sux_index(BlockBegin* sux) const { return _sux->find(sux); } | |
1702 void substitute_sux(BlockBegin* old_sux, BlockBegin* new_sux); | |
1703 }; | |
1704 | |
1705 | |
1706 LEAF(Goto, BlockEnd) | |
1707 public: | |
1783 | 1708 enum Direction { |
1709 none, // Just a regular goto | |
1710 taken, not_taken // Goto produced from If | |
1711 }; | |
1712 private: | |
1713 ciMethod* _profiled_method; | |
1714 int _profiled_bci; | |
1715 Direction _direction; | |
1716 public: | |
0 | 1717 // creation |
1783 | 1718 Goto(BlockBegin* sux, ValueStack* state_before, bool is_safepoint = false) |
1719 : BlockEnd(illegalType, state_before, is_safepoint) | |
1720 , _direction(none) | |
1721 , _profiled_method(NULL) | |
1722 , _profiled_bci(0) { | |
0 | 1723 BlockList* s = new BlockList(1); |
1724 s->append(sux); | |
1725 set_sux(s); | |
1726 } | |
1727 | |
1783 | 1728 Goto(BlockBegin* sux, bool is_safepoint) : BlockEnd(illegalType, NULL, is_safepoint) |
1729 , _direction(none) | |
1730 , _profiled_method(NULL) | |
1731 , _profiled_bci(0) { | |
0 | 1732 BlockList* s = new BlockList(1); |
1733 s->append(sux); | |
1734 set_sux(s); | |
1735 } | |
1736 | |
1783 | 1737 bool should_profile() const { return check_flag(ProfileMDOFlag); } |
1738 ciMethod* profiled_method() const { return _profiled_method; } // set only for profiled branches | |
1739 int profiled_bci() const { return _profiled_bci; } | |
1740 Direction direction() const { return _direction; } | |
1741 | |
1742 void set_should_profile(bool value) { set_flag(ProfileMDOFlag, value); } | |
1743 void set_profiled_method(ciMethod* method) { _profiled_method = method; } | |
1744 void set_profiled_bci(int bci) { _profiled_bci = bci; } | |
1745 void set_direction(Direction d) { _direction = d; } | |
0 | 1746 }; |
1747 | |
1748 | |
1749 LEAF(If, BlockEnd) | |
1750 private: | |
1751 Value _x; | |
1752 Condition _cond; | |
1753 Value _y; | |
1754 ciMethod* _profiled_method; | |
1755 int _profiled_bci; // Canonicalizer may alter bci of If node | |
1783 | 1756 bool _swapped; // Is the order reversed with respect to the original If in the |
1757 // bytecode stream? | |
0 | 1758 public: |
1759 // creation | |
1760 // unordered_is_true is valid for float/double compares only | |
1761 If(Value x, Condition cond, bool unordered_is_true, Value y, BlockBegin* tsux, BlockBegin* fsux, ValueStack* state_before, bool is_safepoint) | |
1762 : BlockEnd(illegalType, state_before, is_safepoint) | |
1763 , _x(x) | |
1764 , _cond(cond) | |
1765 , _y(y) | |
1766 , _profiled_method(NULL) | |
1767 , _profiled_bci(0) | |
1783 | 1768 , _swapped(false) |
0 | 1769 { |
1770 ASSERT_VALUES | |
1771 set_flag(UnorderedIsTrueFlag, unordered_is_true); | |
1772 assert(x->type()->tag() == y->type()->tag(), "types must match"); | |
1773 BlockList* s = new BlockList(2); | |
1774 s->append(tsux); | |
1775 s->append(fsux); | |
1776 set_sux(s); | |
1777 } | |
1778 | |
1779 // accessors | |
1780 Value x() const { return _x; } | |
1781 Condition cond() const { return _cond; } | |
1782 bool unordered_is_true() const { return check_flag(UnorderedIsTrueFlag); } | |
1783 Value y() const { return _y; } | |
1784 BlockBegin* sux_for(bool is_true) const { return sux_at(is_true ? 0 : 1); } | |
1785 BlockBegin* tsux() const { return sux_for(true); } | |
1786 BlockBegin* fsux() const { return sux_for(false); } | |
1787 BlockBegin* usux() const { return sux_for(unordered_is_true()); } | |
1788 bool should_profile() const { return check_flag(ProfileMDOFlag); } | |
1789 ciMethod* profiled_method() const { return _profiled_method; } // set only for profiled branches | |
1783 | 1790 int profiled_bci() const { return _profiled_bci; } // set for profiled branches and tiered |
1791 bool is_swapped() const { return _swapped; } | |
0 | 1792 |
1793 // manipulation | |
1794 void swap_operands() { | |
1795 Value t = _x; _x = _y; _y = t; | |
1796 _cond = mirror(_cond); | |
1797 } | |
1798 | |
1799 void swap_sux() { | |
1800 assert(number_of_sux() == 2, "wrong number of successors"); | |
1801 BlockList* s = sux(); | |
1802 BlockBegin* t = s->at(0); s->at_put(0, s->at(1)); s->at_put(1, t); | |
1803 _cond = negate(_cond); | |
1804 set_flag(UnorderedIsTrueFlag, !check_flag(UnorderedIsTrueFlag)); | |
1805 } | |
1806 | |
1807 void set_should_profile(bool value) { set_flag(ProfileMDOFlag, value); } | |
1808 void set_profiled_method(ciMethod* method) { _profiled_method = method; } | |
1809 void set_profiled_bci(int bci) { _profiled_bci = bci; } | |
1783 | 1810 void set_swapped(bool value) { _swapped = value; } |
0 | 1811 // generic |
1584 | 1812 virtual void input_values_do(ValueVisitor* f) { BlockEnd::input_values_do(f); f->visit(&_x); f->visit(&_y); } |
0 | 1813 }; |
1814 | |
1815 | |
1816 LEAF(IfInstanceOf, BlockEnd) | |
1817 private: | |
1818 ciKlass* _klass; | |
1819 Value _obj; | |
1820 bool _test_is_instance; // jump if instance | |
1821 int _instanceof_bci; | |
1822 | |
1823 public: | |
1824 IfInstanceOf(ciKlass* klass, Value obj, bool test_is_instance, int instanceof_bci, BlockBegin* tsux, BlockBegin* fsux) | |
1825 : BlockEnd(illegalType, NULL, false) // temporary set to false | |
1826 , _klass(klass) | |
1827 , _obj(obj) | |
1828 , _test_is_instance(test_is_instance) | |
1829 , _instanceof_bci(instanceof_bci) | |
1830 { | |
1831 ASSERT_VALUES | |
1832 assert(instanceof_bci >= 0, "illegal bci"); | |
1833 BlockList* s = new BlockList(2); | |
1834 s->append(tsux); | |
1835 s->append(fsux); | |
1836 set_sux(s); | |
1837 } | |
1838 | |
1839 // accessors | |
1840 // | |
1841 // Note 1: If test_is_instance() is true, IfInstanceOf tests if obj *is* an | |
1842 // instance of klass; otherwise it tests if it is *not* and instance | |
1843 // of klass. | |
1844 // | |
1845 // Note 2: IfInstanceOf instructions are created by combining an InstanceOf | |
1846 // and an If instruction. The IfInstanceOf bci() corresponds to the | |
1847 // bci that the If would have had; the (this->) instanceof_bci() is | |
1848 // the bci of the original InstanceOf instruction. | |
1849 ciKlass* klass() const { return _klass; } | |
1850 Value obj() const { return _obj; } | |
1851 int instanceof_bci() const { return _instanceof_bci; } | |
1852 bool test_is_instance() const { return _test_is_instance; } | |
1853 BlockBegin* sux_for(bool is_true) const { return sux_at(is_true ? 0 : 1); } | |
1854 BlockBegin* tsux() const { return sux_for(true); } | |
1855 BlockBegin* fsux() const { return sux_for(false); } | |
1856 | |
1857 // manipulation | |
1858 void swap_sux() { | |
1859 assert(number_of_sux() == 2, "wrong number of successors"); | |
1860 BlockList* s = sux(); | |
1861 BlockBegin* t = s->at(0); s->at_put(0, s->at(1)); s->at_put(1, t); | |
1862 _test_is_instance = !_test_is_instance; | |
1863 } | |
1864 | |
1865 // generic | |
1584 | 1866 virtual void input_values_do(ValueVisitor* f) { BlockEnd::input_values_do(f); f->visit(&_obj); } |
0 | 1867 }; |
1868 | |
1869 | |
1870 BASE(Switch, BlockEnd) | |
1871 private: | |
1872 Value _tag; | |
1873 | |
1874 public: | |
1875 // creation | |
1876 Switch(Value tag, BlockList* sux, ValueStack* state_before, bool is_safepoint) | |
1877 : BlockEnd(illegalType, state_before, is_safepoint) | |
1878 , _tag(tag) { | |
1879 ASSERT_VALUES | |
1880 set_sux(sux); | |
1881 } | |
1882 | |
1883 // accessors | |
1884 Value tag() const { return _tag; } | |
1885 int length() const { return number_of_sux() - 1; } | |
1886 | |
1819 | 1887 virtual bool needs_exception_state() const { return false; } |
1888 | |
0 | 1889 // generic |
1584 | 1890 virtual void input_values_do(ValueVisitor* f) { BlockEnd::input_values_do(f); f->visit(&_tag); } |
0 | 1891 }; |
1892 | |
1893 | |
1894 LEAF(TableSwitch, Switch) | |
1895 private: | |
1896 int _lo_key; | |
1897 | |
1898 public: | |
1899 // creation | |
1900 TableSwitch(Value tag, BlockList* sux, int lo_key, ValueStack* state_before, bool is_safepoint) | |
1901 : Switch(tag, sux, state_before, is_safepoint) | |
1902 , _lo_key(lo_key) {} | |
1903 | |
1904 // accessors | |
1905 int lo_key() const { return _lo_key; } | |
1906 int hi_key() const { return _lo_key + length() - 1; } | |
1907 }; | |
1908 | |
1909 | |
1910 LEAF(LookupSwitch, Switch) | |
1911 private: | |
1912 intArray* _keys; | |
1913 | |
1914 public: | |
1915 // creation | |
1916 LookupSwitch(Value tag, BlockList* sux, intArray* keys, ValueStack* state_before, bool is_safepoint) | |
1917 : Switch(tag, sux, state_before, is_safepoint) | |
1918 , _keys(keys) { | |
1919 assert(keys != NULL, "keys must exist"); | |
1920 assert(keys->length() == length(), "sux & keys have incompatible lengths"); | |
1921 } | |
1922 | |
1923 // accessors | |
1924 int key_at(int i) const { return _keys->at(i); } | |
1925 }; | |
1926 | |
1927 | |
1928 LEAF(Return, BlockEnd) | |
1929 private: | |
1930 Value _result; | |
1931 | |
1932 public: | |
1933 // creation | |
1934 Return(Value result) : | |
1935 BlockEnd(result == NULL ? voidType : result->type()->base(), NULL, true), | |
1936 _result(result) {} | |
1937 | |
1938 // accessors | |
1939 Value result() const { return _result; } | |
1940 bool has_result() const { return result() != NULL; } | |
1941 | |
1942 // generic | |
1584 | 1943 virtual void input_values_do(ValueVisitor* f) { |
0 | 1944 BlockEnd::input_values_do(f); |
1584 | 1945 if (has_result()) f->visit(&_result); |
0 | 1946 } |
1947 }; | |
1948 | |
1949 | |
1950 LEAF(Throw, BlockEnd) | |
1951 private: | |
1952 Value _exception; | |
1953 | |
1954 public: | |
1955 // creation | |
1956 Throw(Value exception, ValueStack* state_before) : BlockEnd(illegalType, state_before, true), _exception(exception) { | |
1957 ASSERT_VALUES | |
1958 } | |
1959 | |
1960 // accessors | |
1961 Value exception() const { return _exception; } | |
1962 | |
1963 // generic | |
1964 virtual bool can_trap() const { return true; } | |
1584 | 1965 virtual void input_values_do(ValueVisitor* f) { BlockEnd::input_values_do(f); f->visit(&_exception); } |
0 | 1966 }; |
1967 | |
1968 | |
1969 LEAF(Base, BlockEnd) | |
1970 public: | |
1971 // creation | |
1972 Base(BlockBegin* std_entry, BlockBegin* osr_entry) : BlockEnd(illegalType, NULL, false) { | |
1973 assert(std_entry->is_set(BlockBegin::std_entry_flag), "std entry must be flagged"); | |
1974 assert(osr_entry == NULL || osr_entry->is_set(BlockBegin::osr_entry_flag), "osr entry must be flagged"); | |
1975 BlockList* s = new BlockList(2); | |
1976 if (osr_entry != NULL) s->append(osr_entry); | |
1977 s->append(std_entry); // must be default sux! | |
1978 set_sux(s); | |
1979 } | |
1980 | |
1981 // accessors | |
1982 BlockBegin* std_entry() const { return default_sux(); } | |
1983 BlockBegin* osr_entry() const { return number_of_sux() < 2 ? NULL : sux_at(0); } | |
1984 }; | |
1985 | |
1986 | |
1987 LEAF(OsrEntry, Instruction) | |
1988 public: | |
1989 // creation | |
1990 #ifdef _LP64 | |
1824 | 1991 OsrEntry() : Instruction(longType) { pin(); } |
0 | 1992 #else |
1824 | 1993 OsrEntry() : Instruction(intType) { pin(); } |
0 | 1994 #endif |
1995 | |
1996 // generic | |
1584 | 1997 virtual void input_values_do(ValueVisitor* f) { } |
0 | 1998 }; |
1999 | |
2000 | |
2001 // Models the incoming exception at a catch site | |
2002 LEAF(ExceptionObject, Instruction) | |
2003 public: | |
2004 // creation | |
1824 | 2005 ExceptionObject() : Instruction(objectType) { |
0 | 2006 pin(); |
2007 } | |
2008 | |
2009 // generic | |
1584 | 2010 virtual void input_values_do(ValueVisitor* f) { } |
0 | 2011 }; |
2012 | |
2013 | |
2014 // Models needed rounding for floating-point values on Intel. | |
2015 // Currently only used to represent rounding of double-precision | |
2016 // values stored into local variables, but could be used to model | |
2017 // intermediate rounding of single-precision values as well. | |
2018 LEAF(RoundFP, Instruction) | |
2019 private: | |
2020 Value _input; // floating-point value to be rounded | |
2021 | |
2022 public: | |
2023 RoundFP(Value input) | |
2024 : Instruction(input->type()) // Note: should not be used for constants | |
2025 , _input(input) | |
2026 { | |
2027 ASSERT_VALUES | |
2028 } | |
2029 | |
2030 // accessors | |
2031 Value input() const { return _input; } | |
2032 | |
2033 // generic | |
1584 | 2034 virtual void input_values_do(ValueVisitor* f) { f->visit(&_input); } |
0 | 2035 }; |
2036 | |
2037 | |
2038 BASE(UnsafeOp, Instruction) | |
2039 private: | |
2040 BasicType _basic_type; // ValueType can not express byte-sized integers | |
2041 | |
2042 protected: | |
2043 // creation | |
2044 UnsafeOp(BasicType basic_type, bool is_put) | |
2045 : Instruction(is_put ? voidType : as_ValueType(basic_type)) | |
2046 , _basic_type(basic_type) | |
2047 { | |
2048 //Note: Unsafe ops are not not guaranteed to throw NPE. | |
2049 // Convservatively, Unsafe operations must be pinned though we could be | |
2050 // looser about this if we wanted to.. | |
2051 pin(); | |
2052 } | |
2053 | |
2054 public: | |
2055 // accessors | |
2056 BasicType basic_type() { return _basic_type; } | |
2057 | |
2058 // generic | |
1584 | 2059 virtual void input_values_do(ValueVisitor* f) { } |
0 | 2060 }; |
2061 | |
2062 | |
2063 BASE(UnsafeRawOp, UnsafeOp) | |
2064 private: | |
2065 Value _base; // Base address (a Java long) | |
2066 Value _index; // Index if computed by optimizer; initialized to NULL | |
2067 int _log2_scale; // Scale factor: 0, 1, 2, or 3. | |
2068 // Indicates log2 of number of bytes (1, 2, 4, or 8) | |
2069 // to scale index by. | |
2070 | |
2071 protected: | |
2072 UnsafeRawOp(BasicType basic_type, Value addr, bool is_put) | |
2073 : UnsafeOp(basic_type, is_put) | |
2074 , _base(addr) | |
2075 , _index(NULL) | |
2076 , _log2_scale(0) | |
2077 { | |
2078 // Can not use ASSERT_VALUES because index may be NULL | |
2079 assert(addr != NULL && addr->type()->is_long(), "just checking"); | |
2080 } | |
2081 | |
2082 UnsafeRawOp(BasicType basic_type, Value base, Value index, int log2_scale, bool is_put) | |
2083 : UnsafeOp(basic_type, is_put) | |
2084 , _base(base) | |
2085 , _index(index) | |
2086 , _log2_scale(log2_scale) | |
2087 { | |
2088 } | |
2089 | |
2090 public: | |
2091 // accessors | |
2092 Value base() { return _base; } | |
2093 Value index() { return _index; } | |
2094 bool has_index() { return (_index != NULL); } | |
2095 int log2_scale() { return _log2_scale; } | |
2096 | |
2097 // setters | |
2098 void set_base (Value base) { _base = base; } | |
2099 void set_index(Value index) { _index = index; } | |
2100 void set_log2_scale(int log2_scale) { _log2_scale = log2_scale; } | |
2101 | |
2102 // generic | |
1584 | 2103 virtual void input_values_do(ValueVisitor* f) { UnsafeOp::input_values_do(f); |
2104 f->visit(&_base); | |
2105 if (has_index()) f->visit(&_index); } | |
0 | 2106 }; |
2107 | |
2108 | |
2109 LEAF(UnsafeGetRaw, UnsafeRawOp) | |
2110 private: | |
2002 | 2111 bool _may_be_unaligned, _is_wide; // For OSREntry |
0 | 2112 |
2113 public: | |
2002 | 2114 UnsafeGetRaw(BasicType basic_type, Value addr, bool may_be_unaligned, bool is_wide = false) |
0 | 2115 : UnsafeRawOp(basic_type, addr, false) { |
2116 _may_be_unaligned = may_be_unaligned; | |
2002 | 2117 _is_wide = is_wide; |
0 | 2118 } |
2119 | |
2002 | 2120 UnsafeGetRaw(BasicType basic_type, Value base, Value index, int log2_scale, bool may_be_unaligned, bool is_wide = false) |
0 | 2121 : UnsafeRawOp(basic_type, base, index, log2_scale, false) { |
2122 _may_be_unaligned = may_be_unaligned; | |
2002 | 2123 _is_wide = is_wide; |
0 | 2124 } |
2125 | |
2002 | 2126 bool may_be_unaligned() { return _may_be_unaligned; } |
2127 bool is_wide() { return _is_wide; } | |
0 | 2128 }; |
2129 | |
2130 | |
2131 LEAF(UnsafePutRaw, UnsafeRawOp) | |
2132 private: | |
2133 Value _value; // Value to be stored | |
2134 | |
2135 public: | |
2136 UnsafePutRaw(BasicType basic_type, Value addr, Value value) | |
2137 : UnsafeRawOp(basic_type, addr, true) | |
2138 , _value(value) | |
2139 { | |
2140 assert(value != NULL, "just checking"); | |
2141 ASSERT_VALUES | |
2142 } | |
2143 | |
2144 UnsafePutRaw(BasicType basic_type, Value base, Value index, int log2_scale, Value value) | |
2145 : UnsafeRawOp(basic_type, base, index, log2_scale, true) | |
2146 , _value(value) | |
2147 { | |
2148 assert(value != NULL, "just checking"); | |
2149 ASSERT_VALUES | |
2150 } | |
2151 | |
2152 // accessors | |
2153 Value value() { return _value; } | |
2154 | |
2155 // generic | |
1584 | 2156 virtual void input_values_do(ValueVisitor* f) { UnsafeRawOp::input_values_do(f); |
2157 f->visit(&_value); } | |
0 | 2158 }; |
2159 | |
2160 | |
2161 BASE(UnsafeObjectOp, UnsafeOp) | |
2162 private: | |
2163 Value _object; // Object to be fetched from or mutated | |
2164 Value _offset; // Offset within object | |
2165 bool _is_volatile; // true if volatile - dl/JSR166 | |
2166 public: | |
2167 UnsafeObjectOp(BasicType basic_type, Value object, Value offset, bool is_put, bool is_volatile) | |
2168 : UnsafeOp(basic_type, is_put), _object(object), _offset(offset), _is_volatile(is_volatile) | |
2169 { | |
2170 } | |
2171 | |
2172 // accessors | |
2173 Value object() { return _object; } | |
2174 Value offset() { return _offset; } | |
2175 bool is_volatile() { return _is_volatile; } | |
2176 // generic | |
1584 | 2177 virtual void input_values_do(ValueVisitor* f) { UnsafeOp::input_values_do(f); |
2178 f->visit(&_object); | |
2179 f->visit(&_offset); } | |
0 | 2180 }; |
2181 | |
2182 | |
2183 LEAF(UnsafeGetObject, UnsafeObjectOp) | |
2184 public: | |
2185 UnsafeGetObject(BasicType basic_type, Value object, Value offset, bool is_volatile) | |
2186 : UnsafeObjectOp(basic_type, object, offset, false, is_volatile) | |
2187 { | |
2188 ASSERT_VALUES | |
2189 } | |
2190 }; | |
2191 | |
2192 | |
2193 LEAF(UnsafePutObject, UnsafeObjectOp) | |
2194 private: | |
2195 Value _value; // Value to be stored | |
2196 public: | |
2197 UnsafePutObject(BasicType basic_type, Value object, Value offset, Value value, bool is_volatile) | |
2198 : UnsafeObjectOp(basic_type, object, offset, true, is_volatile) | |
2199 , _value(value) | |
2200 { | |
2201 ASSERT_VALUES | |
2202 } | |
2203 | |
2204 // accessors | |
2205 Value value() { return _value; } | |
2206 | |
2207 // generic | |
1584 | 2208 virtual void input_values_do(ValueVisitor* f) { UnsafeObjectOp::input_values_do(f); |
2209 f->visit(&_value); } | |
0 | 2210 }; |
2211 | |
2212 | |
2213 BASE(UnsafePrefetch, UnsafeObjectOp) | |
2214 public: | |
2215 UnsafePrefetch(Value object, Value offset) | |
2216 : UnsafeObjectOp(T_VOID, object, offset, false, false) | |
2217 { | |
2218 } | |
2219 }; | |
2220 | |
2221 | |
2222 LEAF(UnsafePrefetchRead, UnsafePrefetch) | |
2223 public: | |
2224 UnsafePrefetchRead(Value object, Value offset) | |
2225 : UnsafePrefetch(object, offset) | |
2226 { | |
2227 ASSERT_VALUES | |
2228 } | |
2229 }; | |
2230 | |
2231 | |
2232 LEAF(UnsafePrefetchWrite, UnsafePrefetch) | |
2233 public: | |
2234 UnsafePrefetchWrite(Value object, Value offset) | |
2235 : UnsafePrefetch(object, offset) | |
2236 { | |
2237 ASSERT_VALUES | |
2238 } | |
2239 }; | |
2240 | |
2241 LEAF(ProfileCall, Instruction) | |
2242 private: | |
2243 ciMethod* _method; | |
2244 int _bci_of_invoke; | |
2245 Value _recv; | |
2246 ciKlass* _known_holder; | |
2247 | |
2248 public: | |
2249 ProfileCall(ciMethod* method, int bci, Value recv, ciKlass* known_holder) | |
2250 : Instruction(voidType) | |
2251 , _method(method) | |
2252 , _bci_of_invoke(bci) | |
2253 , _recv(recv) | |
2254 , _known_holder(known_holder) | |
2255 { | |
2256 // The ProfileCall has side-effects and must occur precisely where located | |
2257 pin(); | |
2258 } | |
2259 | |
2260 ciMethod* method() { return _method; } | |
2261 int bci_of_invoke() { return _bci_of_invoke; } | |
2262 Value recv() { return _recv; } | |
2263 ciKlass* known_holder() { return _known_holder; } | |
2264 | |
1584 | 2265 virtual void input_values_do(ValueVisitor* f) { if (_recv != NULL) f->visit(&_recv); } |
0 | 2266 }; |
2267 | |
2166
403dc4c1d7f5
6809483: hotspot:::method_entry are not correctly generated for "method()V"
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parents:
2002
diff
changeset
|
2268 |
403dc4c1d7f5
6809483: hotspot:::method_entry are not correctly generated for "method()V"
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diff
changeset
|
2269 // Call some C runtime function that doesn't safepoint, |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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diff
changeset
|
2270 // optionally passing the current thread as the first argument. |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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diff
changeset
|
2271 LEAF(RuntimeCall, Instruction) |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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diff
changeset
|
2272 private: |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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diff
changeset
|
2273 const char* _entry_name; |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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parents:
2002
diff
changeset
|
2274 address _entry; |
403dc4c1d7f5
6809483: hotspot:::method_entry are not correctly generated for "method()V"
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parents:
2002
diff
changeset
|
2275 Values* _args; |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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parents:
2002
diff
changeset
|
2276 bool _pass_thread; // Pass the JavaThread* as an implicit first argument |
403dc4c1d7f5
6809483: hotspot:::method_entry are not correctly generated for "method()V"
never
parents:
2002
diff
changeset
|
2277 |
403dc4c1d7f5
6809483: hotspot:::method_entry are not correctly generated for "method()V"
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parents:
2002
diff
changeset
|
2278 public: |
403dc4c1d7f5
6809483: hotspot:::method_entry are not correctly generated for "method()V"
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parents:
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diff
changeset
|
2279 RuntimeCall(ValueType* type, const char* entry_name, address entry, Values* args, bool pass_thread = true) |
403dc4c1d7f5
6809483: hotspot:::method_entry are not correctly generated for "method()V"
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diff
changeset
|
2280 : Instruction(type) |
403dc4c1d7f5
6809483: hotspot:::method_entry are not correctly generated for "method()V"
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diff
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|
2281 , _entry(entry) |
403dc4c1d7f5
6809483: hotspot:::method_entry are not correctly generated for "method()V"
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diff
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|
2282 , _args(args) |
403dc4c1d7f5
6809483: hotspot:::method_entry are not correctly generated for "method()V"
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|
2283 , _entry_name(entry_name) |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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|
2284 , _pass_thread(pass_thread) { |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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|
2285 ASSERT_VALUES |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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2286 pin(); |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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2287 } |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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|
2288 |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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2289 const char* entry_name() const { return _entry_name; } |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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2290 address entry() const { return _entry; } |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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diff
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|
2291 int number_of_arguments() const { return _args->length(); } |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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|
2292 Value argument_at(int i) const { return _args->at(i); } |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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|
2293 bool pass_thread() const { return _pass_thread; } |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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2294 |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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2295 virtual void input_values_do(ValueVisitor* f) { |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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2296 for (int i = 0; i < _args->length(); i++) f->visit(_args->adr_at(i)); |
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2297 } |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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2298 }; |
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6809483: hotspot:::method_entry are not correctly generated for "method()V"
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2299 |
1783 | 2300 // Use to trip invocation counter of an inlined method |
0 | 2301 |
1783 | 2302 LEAF(ProfileInvoke, Instruction) |
0 | 2303 private: |
1783 | 2304 ciMethod* _inlinee; |
2305 ValueStack* _state; | |
0 | 2306 |
2307 public: | |
1825 | 2308 ProfileInvoke(ciMethod* inlinee, ValueStack* state) |
0 | 2309 : Instruction(voidType) |
1783 | 2310 , _inlinee(inlinee) |
2311 , _state(state) | |
0 | 2312 { |
1783 | 2313 // The ProfileInvoke has side-effects and must occur precisely where located QQQ??? |
0 | 2314 pin(); |
2315 } | |
2316 | |
1783 | 2317 ciMethod* inlinee() { return _inlinee; } |
2318 ValueStack* state() { return _state; } | |
2319 virtual void input_values_do(ValueVisitor*) {} | |
2320 virtual void state_values_do(ValueVisitor*); | |
0 | 2321 }; |
2322 | |
2323 class BlockPair: public CompilationResourceObj { | |
2324 private: | |
2325 BlockBegin* _from; | |
2326 BlockBegin* _to; | |
2327 public: | |
2328 BlockPair(BlockBegin* from, BlockBegin* to): _from(from), _to(to) {} | |
2329 BlockBegin* from() const { return _from; } | |
2330 BlockBegin* to() const { return _to; } | |
2331 bool is_same(BlockBegin* from, BlockBegin* to) const { return _from == from && _to == to; } | |
2332 bool is_same(BlockPair* p) const { return _from == p->from() && _to == p->to(); } | |
2333 void set_to(BlockBegin* b) { _to = b; } | |
2334 void set_from(BlockBegin* b) { _from = b; } | |
2335 }; | |
2336 | |
2337 | |
2338 define_array(BlockPairArray, BlockPair*) | |
2339 define_stack(BlockPairList, BlockPairArray) | |
2340 | |
2341 | |
2342 inline int BlockBegin::number_of_sux() const { assert(_end == NULL || _end->number_of_sux() == _successors.length(), "mismatch"); return _successors.length(); } | |
2343 inline BlockBegin* BlockBegin::sux_at(int i) const { assert(_end == NULL || _end->sux_at(i) == _successors.at(i), "mismatch"); return _successors.at(i); } | |
2344 inline void BlockBegin::add_successor(BlockBegin* sux) { assert(_end == NULL, "Would create mismatch with successors of BlockEnd"); _successors.append(sux); } | |
2345 | |
2346 #undef ASSERT_VALUES | |
1972 | 2347 |
2348 #endif // SHARE_VM_C1_C1_INSTRUCTION_HPP |