Mercurial > hg > truffle
annotate src/share/vm/opto/graphKit.cpp @ 1252:f516d5d7a019
6910605: C2: NullPointerException/ClassCaseException is thrown when C2 with DeoptimizeALot is used
Summary: Set the reexecute bit for runtime calls _new_array_Java when they used for _multianewarray bytecode.
Reviewed-by: never
author | kvn |
---|---|
date | Mon, 08 Feb 2010 12:20:09 -0800 |
parents | 7b0e9cba0307 |
children | 7b4415a18c8a |
rev | line source |
---|---|
0 | 1 /* |
1252
f516d5d7a019
6910605: C2: NullPointerException/ClassCaseException is thrown when C2 with DeoptimizeALot is used
kvn
parents:
1166
diff
changeset
|
2 * Copyright 2001-2010 Sun Microsystems, Inc. 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 * | |
19 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, | |
20 * CA 95054 USA or visit www.sun.com if you need additional information or | |
21 * have any questions. | |
22 * | |
23 */ | |
24 | |
25 #include "incls/_precompiled.incl" | |
26 #include "incls/_graphKit.cpp.incl" | |
27 | |
28 //----------------------------GraphKit----------------------------------------- | |
29 // Main utility constructor. | |
30 GraphKit::GraphKit(JVMState* jvms) | |
31 : Phase(Phase::Parser), | |
32 _env(C->env()), | |
33 _gvn(*C->initial_gvn()) | |
34 { | |
35 _exceptions = jvms->map()->next_exception(); | |
36 if (_exceptions != NULL) jvms->map()->set_next_exception(NULL); | |
37 set_jvms(jvms); | |
38 } | |
39 | |
40 // Private constructor for parser. | |
41 GraphKit::GraphKit() | |
42 : Phase(Phase::Parser), | |
43 _env(C->env()), | |
44 _gvn(*C->initial_gvn()) | |
45 { | |
46 _exceptions = NULL; | |
47 set_map(NULL); | |
48 debug_only(_sp = -99); | |
49 debug_only(set_bci(-99)); | |
50 } | |
51 | |
52 | |
53 | |
54 //---------------------------clean_stack--------------------------------------- | |
55 // Clear away rubbish from the stack area of the JVM state. | |
56 // This destroys any arguments that may be waiting on the stack. | |
57 void GraphKit::clean_stack(int from_sp) { | |
58 SafePointNode* map = this->map(); | |
59 JVMState* jvms = this->jvms(); | |
60 int stk_size = jvms->stk_size(); | |
61 int stkoff = jvms->stkoff(); | |
62 Node* top = this->top(); | |
63 for (int i = from_sp; i < stk_size; i++) { | |
64 if (map->in(stkoff + i) != top) { | |
65 map->set_req(stkoff + i, top); | |
66 } | |
67 } | |
68 } | |
69 | |
70 | |
71 //--------------------------------sync_jvms----------------------------------- | |
72 // Make sure our current jvms agrees with our parse state. | |
73 JVMState* GraphKit::sync_jvms() const { | |
74 JVMState* jvms = this->jvms(); | |
75 jvms->set_bci(bci()); // Record the new bci in the JVMState | |
76 jvms->set_sp(sp()); // Record the new sp in the JVMState | |
77 assert(jvms_in_sync(), "jvms is now in sync"); | |
78 return jvms; | |
79 } | |
80 | |
81 #ifdef ASSERT | |
82 bool GraphKit::jvms_in_sync() const { | |
83 Parse* parse = is_Parse(); | |
84 if (parse == NULL) { | |
85 if (bci() != jvms()->bci()) return false; | |
86 if (sp() != (int)jvms()->sp()) return false; | |
87 return true; | |
88 } | |
89 if (jvms()->method() != parse->method()) return false; | |
90 if (jvms()->bci() != parse->bci()) return false; | |
91 int jvms_sp = jvms()->sp(); | |
92 if (jvms_sp != parse->sp()) return false; | |
93 int jvms_depth = jvms()->depth(); | |
94 if (jvms_depth != parse->depth()) return false; | |
95 return true; | |
96 } | |
97 | |
98 // Local helper checks for special internal merge points | |
99 // used to accumulate and merge exception states. | |
100 // They are marked by the region's in(0) edge being the map itself. | |
101 // Such merge points must never "escape" into the parser at large, | |
102 // until they have been handed to gvn.transform. | |
103 static bool is_hidden_merge(Node* reg) { | |
104 if (reg == NULL) return false; | |
105 if (reg->is_Phi()) { | |
106 reg = reg->in(0); | |
107 if (reg == NULL) return false; | |
108 } | |
109 return reg->is_Region() && reg->in(0) != NULL && reg->in(0)->is_Root(); | |
110 } | |
111 | |
112 void GraphKit::verify_map() const { | |
113 if (map() == NULL) return; // null map is OK | |
114 assert(map()->req() <= jvms()->endoff(), "no extra garbage on map"); | |
115 assert(!map()->has_exceptions(), "call add_exception_states_from 1st"); | |
116 assert(!is_hidden_merge(control()), "call use_exception_state, not set_map"); | |
117 } | |
118 | |
119 void GraphKit::verify_exception_state(SafePointNode* ex_map) { | |
120 assert(ex_map->next_exception() == NULL, "not already part of a chain"); | |
121 assert(has_saved_ex_oop(ex_map), "every exception state has an ex_oop"); | |
122 } | |
123 #endif | |
124 | |
125 //---------------------------stop_and_kill_map--------------------------------- | |
126 // Set _map to NULL, signalling a stop to further bytecode execution. | |
127 // First smash the current map's control to a constant, to mark it dead. | |
128 void GraphKit::stop_and_kill_map() { | |
129 SafePointNode* dead_map = stop(); | |
130 if (dead_map != NULL) { | |
131 dead_map->disconnect_inputs(NULL); // Mark the map as killed. | |
132 assert(dead_map->is_killed(), "must be so marked"); | |
133 } | |
134 } | |
135 | |
136 | |
137 //--------------------------------stopped-------------------------------------- | |
138 // Tell if _map is NULL, or control is top. | |
139 bool GraphKit::stopped() { | |
140 if (map() == NULL) return true; | |
141 else if (control() == top()) return true; | |
142 else return false; | |
143 } | |
144 | |
145 | |
146 //-----------------------------has_ex_handler---------------------------------- | |
147 // Tell if this method or any caller method has exception handlers. | |
148 bool GraphKit::has_ex_handler() { | |
149 for (JVMState* jvmsp = jvms(); jvmsp != NULL; jvmsp = jvmsp->caller()) { | |
150 if (jvmsp->has_method() && jvmsp->method()->has_exception_handlers()) { | |
151 return true; | |
152 } | |
153 } | |
154 return false; | |
155 } | |
156 | |
157 //------------------------------save_ex_oop------------------------------------ | |
158 // Save an exception without blowing stack contents or other JVM state. | |
159 void GraphKit::set_saved_ex_oop(SafePointNode* ex_map, Node* ex_oop) { | |
160 assert(!has_saved_ex_oop(ex_map), "clear ex-oop before setting again"); | |
161 ex_map->add_req(ex_oop); | |
162 debug_only(verify_exception_state(ex_map)); | |
163 } | |
164 | |
165 inline static Node* common_saved_ex_oop(SafePointNode* ex_map, bool clear_it) { | |
166 assert(GraphKit::has_saved_ex_oop(ex_map), "ex_oop must be there"); | |
167 Node* ex_oop = ex_map->in(ex_map->req()-1); | |
168 if (clear_it) ex_map->del_req(ex_map->req()-1); | |
169 return ex_oop; | |
170 } | |
171 | |
172 //-----------------------------saved_ex_oop------------------------------------ | |
173 // Recover a saved exception from its map. | |
174 Node* GraphKit::saved_ex_oop(SafePointNode* ex_map) { | |
175 return common_saved_ex_oop(ex_map, false); | |
176 } | |
177 | |
178 //--------------------------clear_saved_ex_oop--------------------------------- | |
179 // Erase a previously saved exception from its map. | |
180 Node* GraphKit::clear_saved_ex_oop(SafePointNode* ex_map) { | |
181 return common_saved_ex_oop(ex_map, true); | |
182 } | |
183 | |
184 #ifdef ASSERT | |
185 //---------------------------has_saved_ex_oop---------------------------------- | |
186 // Erase a previously saved exception from its map. | |
187 bool GraphKit::has_saved_ex_oop(SafePointNode* ex_map) { | |
188 return ex_map->req() == ex_map->jvms()->endoff()+1; | |
189 } | |
190 #endif | |
191 | |
192 //-------------------------make_exception_state-------------------------------- | |
193 // Turn the current JVM state into an exception state, appending the ex_oop. | |
194 SafePointNode* GraphKit::make_exception_state(Node* ex_oop) { | |
195 sync_jvms(); | |
196 SafePointNode* ex_map = stop(); // do not manipulate this map any more | |
197 set_saved_ex_oop(ex_map, ex_oop); | |
198 return ex_map; | |
199 } | |
200 | |
201 | |
202 //--------------------------add_exception_state-------------------------------- | |
203 // Add an exception to my list of exceptions. | |
204 void GraphKit::add_exception_state(SafePointNode* ex_map) { | |
205 if (ex_map == NULL || ex_map->control() == top()) { | |
206 return; | |
207 } | |
208 #ifdef ASSERT | |
209 verify_exception_state(ex_map); | |
210 if (has_exceptions()) { | |
211 assert(ex_map->jvms()->same_calls_as(_exceptions->jvms()), "all collected exceptions must come from the same place"); | |
212 } | |
213 #endif | |
214 | |
215 // If there is already an exception of exactly this type, merge with it. | |
216 // In particular, null-checks and other low-level exceptions common up here. | |
217 Node* ex_oop = saved_ex_oop(ex_map); | |
218 const Type* ex_type = _gvn.type(ex_oop); | |
219 if (ex_oop == top()) { | |
220 // No action needed. | |
221 return; | |
222 } | |
223 assert(ex_type->isa_instptr(), "exception must be an instance"); | |
224 for (SafePointNode* e2 = _exceptions; e2 != NULL; e2 = e2->next_exception()) { | |
225 const Type* ex_type2 = _gvn.type(saved_ex_oop(e2)); | |
226 // We check sp also because call bytecodes can generate exceptions | |
227 // both before and after arguments are popped! | |
228 if (ex_type2 == ex_type | |
229 && e2->_jvms->sp() == ex_map->_jvms->sp()) { | |
230 combine_exception_states(ex_map, e2); | |
231 return; | |
232 } | |
233 } | |
234 | |
235 // No pre-existing exception of the same type. Chain it on the list. | |
236 push_exception_state(ex_map); | |
237 } | |
238 | |
239 //-----------------------add_exception_states_from----------------------------- | |
240 void GraphKit::add_exception_states_from(JVMState* jvms) { | |
241 SafePointNode* ex_map = jvms->map()->next_exception(); | |
242 if (ex_map != NULL) { | |
243 jvms->map()->set_next_exception(NULL); | |
244 for (SafePointNode* next_map; ex_map != NULL; ex_map = next_map) { | |
245 next_map = ex_map->next_exception(); | |
246 ex_map->set_next_exception(NULL); | |
247 add_exception_state(ex_map); | |
248 } | |
249 } | |
250 } | |
251 | |
252 //-----------------------transfer_exceptions_into_jvms------------------------- | |
253 JVMState* GraphKit::transfer_exceptions_into_jvms() { | |
254 if (map() == NULL) { | |
255 // We need a JVMS to carry the exceptions, but the map has gone away. | |
256 // Create a scratch JVMS, cloned from any of the exception states... | |
257 if (has_exceptions()) { | |
258 _map = _exceptions; | |
259 _map = clone_map(); | |
260 _map->set_next_exception(NULL); | |
261 clear_saved_ex_oop(_map); | |
262 debug_only(verify_map()); | |
263 } else { | |
264 // ...or created from scratch | |
265 JVMState* jvms = new (C) JVMState(_method, NULL); | |
266 jvms->set_bci(_bci); | |
267 jvms->set_sp(_sp); | |
268 jvms->set_map(new (C, TypeFunc::Parms) SafePointNode(TypeFunc::Parms, jvms)); | |
269 set_jvms(jvms); | |
270 for (uint i = 0; i < map()->req(); i++) map()->init_req(i, top()); | |
271 set_all_memory(top()); | |
272 while (map()->req() < jvms->endoff()) map()->add_req(top()); | |
273 } | |
274 // (This is a kludge, in case you didn't notice.) | |
275 set_control(top()); | |
276 } | |
277 JVMState* jvms = sync_jvms(); | |
278 assert(!jvms->map()->has_exceptions(), "no exceptions on this map yet"); | |
279 jvms->map()->set_next_exception(_exceptions); | |
280 _exceptions = NULL; // done with this set of exceptions | |
281 return jvms; | |
282 } | |
283 | |
284 static inline void add_n_reqs(Node* dstphi, Node* srcphi) { | |
285 assert(is_hidden_merge(dstphi), "must be a special merge node"); | |
286 assert(is_hidden_merge(srcphi), "must be a special merge node"); | |
287 uint limit = srcphi->req(); | |
288 for (uint i = PhiNode::Input; i < limit; i++) { | |
289 dstphi->add_req(srcphi->in(i)); | |
290 } | |
291 } | |
292 static inline void add_one_req(Node* dstphi, Node* src) { | |
293 assert(is_hidden_merge(dstphi), "must be a special merge node"); | |
294 assert(!is_hidden_merge(src), "must not be a special merge node"); | |
295 dstphi->add_req(src); | |
296 } | |
297 | |
298 //-----------------------combine_exception_states------------------------------ | |
299 // This helper function combines exception states by building phis on a | |
300 // specially marked state-merging region. These regions and phis are | |
301 // untransformed, and can build up gradually. The region is marked by | |
302 // having a control input of its exception map, rather than NULL. Such | |
303 // regions do not appear except in this function, and in use_exception_state. | |
304 void GraphKit::combine_exception_states(SafePointNode* ex_map, SafePointNode* phi_map) { | |
305 if (failing()) return; // dying anyway... | |
306 JVMState* ex_jvms = ex_map->_jvms; | |
307 assert(ex_jvms->same_calls_as(phi_map->_jvms), "consistent call chains"); | |
308 assert(ex_jvms->stkoff() == phi_map->_jvms->stkoff(), "matching locals"); | |
309 assert(ex_jvms->sp() == phi_map->_jvms->sp(), "matching stack sizes"); | |
310 assert(ex_jvms->monoff() == phi_map->_jvms->monoff(), "matching JVMS"); | |
311 assert(ex_map->req() == phi_map->req(), "matching maps"); | |
312 uint tos = ex_jvms->stkoff() + ex_jvms->sp(); | |
313 Node* hidden_merge_mark = root(); | |
314 Node* region = phi_map->control(); | |
315 MergeMemNode* phi_mem = phi_map->merged_memory(); | |
316 MergeMemNode* ex_mem = ex_map->merged_memory(); | |
317 if (region->in(0) != hidden_merge_mark) { | |
318 // The control input is not (yet) a specially-marked region in phi_map. | |
319 // Make it so, and build some phis. | |
320 region = new (C, 2) RegionNode(2); | |
321 _gvn.set_type(region, Type::CONTROL); | |
322 region->set_req(0, hidden_merge_mark); // marks an internal ex-state | |
323 region->init_req(1, phi_map->control()); | |
324 phi_map->set_control(region); | |
325 Node* io_phi = PhiNode::make(region, phi_map->i_o(), Type::ABIO); | |
326 record_for_igvn(io_phi); | |
327 _gvn.set_type(io_phi, Type::ABIO); | |
328 phi_map->set_i_o(io_phi); | |
329 for (MergeMemStream mms(phi_mem); mms.next_non_empty(); ) { | |
330 Node* m = mms.memory(); | |
331 Node* m_phi = PhiNode::make(region, m, Type::MEMORY, mms.adr_type(C)); | |
332 record_for_igvn(m_phi); | |
333 _gvn.set_type(m_phi, Type::MEMORY); | |
334 mms.set_memory(m_phi); | |
335 } | |
336 } | |
337 | |
338 // Either or both of phi_map and ex_map might already be converted into phis. | |
339 Node* ex_control = ex_map->control(); | |
340 // if there is special marking on ex_map also, we add multiple edges from src | |
341 bool add_multiple = (ex_control->in(0) == hidden_merge_mark); | |
342 // how wide was the destination phi_map, originally? | |
343 uint orig_width = region->req(); | |
344 | |
345 if (add_multiple) { | |
346 add_n_reqs(region, ex_control); | |
347 add_n_reqs(phi_map->i_o(), ex_map->i_o()); | |
348 } else { | |
349 // ex_map has no merges, so we just add single edges everywhere | |
350 add_one_req(region, ex_control); | |
351 add_one_req(phi_map->i_o(), ex_map->i_o()); | |
352 } | |
353 for (MergeMemStream mms(phi_mem, ex_mem); mms.next_non_empty2(); ) { | |
354 if (mms.is_empty()) { | |
355 // get a copy of the base memory, and patch some inputs into it | |
356 const TypePtr* adr_type = mms.adr_type(C); | |
357 Node* phi = mms.force_memory()->as_Phi()->slice_memory(adr_type); | |
358 assert(phi->as_Phi()->region() == mms.base_memory()->in(0), ""); | |
359 mms.set_memory(phi); | |
360 // Prepare to append interesting stuff onto the newly sliced phi: | |
361 while (phi->req() > orig_width) phi->del_req(phi->req()-1); | |
362 } | |
363 // Append stuff from ex_map: | |
364 if (add_multiple) { | |
365 add_n_reqs(mms.memory(), mms.memory2()); | |
366 } else { | |
367 add_one_req(mms.memory(), mms.memory2()); | |
368 } | |
369 } | |
370 uint limit = ex_map->req(); | |
371 for (uint i = TypeFunc::Parms; i < limit; i++) { | |
372 // Skip everything in the JVMS after tos. (The ex_oop follows.) | |
373 if (i == tos) i = ex_jvms->monoff(); | |
374 Node* src = ex_map->in(i); | |
375 Node* dst = phi_map->in(i); | |
376 if (src != dst) { | |
377 PhiNode* phi; | |
378 if (dst->in(0) != region) { | |
379 dst = phi = PhiNode::make(region, dst, _gvn.type(dst)); | |
380 record_for_igvn(phi); | |
381 _gvn.set_type(phi, phi->type()); | |
382 phi_map->set_req(i, dst); | |
383 // Prepare to append interesting stuff onto the new phi: | |
384 while (dst->req() > orig_width) dst->del_req(dst->req()-1); | |
385 } else { | |
386 assert(dst->is_Phi(), "nobody else uses a hidden region"); | |
387 phi = (PhiNode*)dst; | |
388 } | |
389 if (add_multiple && src->in(0) == ex_control) { | |
390 // Both are phis. | |
391 add_n_reqs(dst, src); | |
392 } else { | |
393 while (dst->req() < region->req()) add_one_req(dst, src); | |
394 } | |
395 const Type* srctype = _gvn.type(src); | |
396 if (phi->type() != srctype) { | |
397 const Type* dsttype = phi->type()->meet(srctype); | |
398 if (phi->type() != dsttype) { | |
399 phi->set_type(dsttype); | |
400 _gvn.set_type(phi, dsttype); | |
401 } | |
402 } | |
403 } | |
404 } | |
405 } | |
406 | |
407 //--------------------------use_exception_state-------------------------------- | |
408 Node* GraphKit::use_exception_state(SafePointNode* phi_map) { | |
409 if (failing()) { stop(); return top(); } | |
410 Node* region = phi_map->control(); | |
411 Node* hidden_merge_mark = root(); | |
412 assert(phi_map->jvms()->map() == phi_map, "sanity: 1-1 relation"); | |
413 Node* ex_oop = clear_saved_ex_oop(phi_map); | |
414 if (region->in(0) == hidden_merge_mark) { | |
415 // Special marking for internal ex-states. Process the phis now. | |
416 region->set_req(0, region); // now it's an ordinary region | |
417 set_jvms(phi_map->jvms()); // ...so now we can use it as a map | |
418 // Note: Setting the jvms also sets the bci and sp. | |
419 set_control(_gvn.transform(region)); | |
420 uint tos = jvms()->stkoff() + sp(); | |
421 for (uint i = 1; i < tos; i++) { | |
422 Node* x = phi_map->in(i); | |
423 if (x->in(0) == region) { | |
424 assert(x->is_Phi(), "expected a special phi"); | |
425 phi_map->set_req(i, _gvn.transform(x)); | |
426 } | |
427 } | |
428 for (MergeMemStream mms(merged_memory()); mms.next_non_empty(); ) { | |
429 Node* x = mms.memory(); | |
430 if (x->in(0) == region) { | |
431 assert(x->is_Phi(), "nobody else uses a hidden region"); | |
432 mms.set_memory(_gvn.transform(x)); | |
433 } | |
434 } | |
435 if (ex_oop->in(0) == region) { | |
436 assert(ex_oop->is_Phi(), "expected a special phi"); | |
437 ex_oop = _gvn.transform(ex_oop); | |
438 } | |
439 } else { | |
440 set_jvms(phi_map->jvms()); | |
441 } | |
442 | |
443 assert(!is_hidden_merge(phi_map->control()), "hidden ex. states cleared"); | |
444 assert(!is_hidden_merge(phi_map->i_o()), "hidden ex. states cleared"); | |
445 return ex_oop; | |
446 } | |
447 | |
448 //---------------------------------java_bc------------------------------------- | |
449 Bytecodes::Code GraphKit::java_bc() const { | |
450 ciMethod* method = this->method(); | |
451 int bci = this->bci(); | |
452 if (method != NULL && bci != InvocationEntryBci) | |
453 return method->java_code_at_bci(bci); | |
454 else | |
455 return Bytecodes::_illegal; | |
456 } | |
457 | |
458 //------------------------------builtin_throw---------------------------------- | |
459 void GraphKit::builtin_throw(Deoptimization::DeoptReason reason, Node* arg) { | |
460 bool must_throw = true; | |
461 | |
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c96bf21b756f
6788527: Server vm intermittently fails with assertion "live value must not be garbage" with fastdebug bits
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462 if (env()->jvmti_can_post_exceptions()) { |
0 | 463 // Do not try anything fancy if we're notifying the VM on every throw. |
464 // Cf. case Bytecodes::_athrow in parse2.cpp. | |
465 uncommon_trap(reason, Deoptimization::Action_none, | |
466 (ciKlass*)NULL, (char*)NULL, must_throw); | |
467 return; | |
468 } | |
469 | |
470 // If this particular condition has not yet happened at this | |
471 // bytecode, then use the uncommon trap mechanism, and allow for | |
472 // a future recompilation if several traps occur here. | |
473 // If the throw is hot, try to use a more complicated inline mechanism | |
474 // which keeps execution inside the compiled code. | |
475 bool treat_throw_as_hot = false; | |
476 ciMethodData* md = method()->method_data(); | |
477 | |
478 if (ProfileTraps) { | |
479 if (too_many_traps(reason)) { | |
480 treat_throw_as_hot = true; | |
481 } | |
482 // (If there is no MDO at all, assume it is early in | |
483 // execution, and that any deopts are part of the | |
484 // startup transient, and don't need to be remembered.) | |
485 | |
486 // Also, if there is a local exception handler, treat all throws | |
487 // as hot if there has been at least one in this method. | |
488 if (C->trap_count(reason) != 0 | |
489 && method()->method_data()->trap_count(reason) != 0 | |
490 && has_ex_handler()) { | |
491 treat_throw_as_hot = true; | |
492 } | |
493 } | |
494 | |
495 // If this throw happens frequently, an uncommon trap might cause | |
496 // a performance pothole. If there is a local exception handler, | |
497 // and if this particular bytecode appears to be deoptimizing often, | |
498 // let us handle the throw inline, with a preconstructed instance. | |
499 // Note: If the deopt count has blown up, the uncommon trap | |
500 // runtime is going to flush this nmethod, not matter what. | |
501 if (treat_throw_as_hot | |
502 && (!StackTraceInThrowable || OmitStackTraceInFastThrow)) { | |
503 // If the throw is local, we use a pre-existing instance and | |
504 // punt on the backtrace. This would lead to a missing backtrace | |
505 // (a repeat of 4292742) if the backtrace object is ever asked | |
506 // for its backtrace. | |
507 // Fixing this remaining case of 4292742 requires some flavor of | |
508 // escape analysis. Leave that for the future. | |
509 ciInstance* ex_obj = NULL; | |
510 switch (reason) { | |
511 case Deoptimization::Reason_null_check: | |
512 ex_obj = env()->NullPointerException_instance(); | |
513 break; | |
514 case Deoptimization::Reason_div0_check: | |
515 ex_obj = env()->ArithmeticException_instance(); | |
516 break; | |
517 case Deoptimization::Reason_range_check: | |
518 ex_obj = env()->ArrayIndexOutOfBoundsException_instance(); | |
519 break; | |
520 case Deoptimization::Reason_class_check: | |
521 if (java_bc() == Bytecodes::_aastore) { | |
522 ex_obj = env()->ArrayStoreException_instance(); | |
523 } else { | |
524 ex_obj = env()->ClassCastException_instance(); | |
525 } | |
526 break; | |
527 } | |
528 if (failing()) { stop(); return; } // exception allocation might fail | |
529 if (ex_obj != NULL) { | |
530 // Cheat with a preallocated exception object. | |
531 if (C->log() != NULL) | |
532 C->log()->elem("hot_throw preallocated='1' reason='%s'", | |
533 Deoptimization::trap_reason_name(reason)); | |
534 const TypeInstPtr* ex_con = TypeInstPtr::make(ex_obj); | |
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535 Node* ex_node = _gvn.transform( ConNode::make(C, ex_con) ); |
0 | 536 |
537 // Clear the detail message of the preallocated exception object. | |
538 // Weblogic sometimes mutates the detail message of exceptions | |
539 // using reflection. | |
540 int offset = java_lang_Throwable::get_detailMessage_offset(); | |
541 const TypePtr* adr_typ = ex_con->add_offset(offset); | |
542 | |
543 Node *adr = basic_plus_adr(ex_node, ex_node, offset); | |
544 Node *store = store_oop_to_object(control(), ex_node, adr, adr_typ, null(), ex_con, T_OBJECT); | |
545 | |
546 add_exception_state(make_exception_state(ex_node)); | |
547 return; | |
548 } | |
549 } | |
550 | |
551 // %%% Maybe add entry to OptoRuntime which directly throws the exc.? | |
552 // It won't be much cheaper than bailing to the interp., since we'll | |
553 // have to pass up all the debug-info, and the runtime will have to | |
554 // create the stack trace. | |
555 | |
556 // Usual case: Bail to interpreter. | |
557 // Reserve the right to recompile if we haven't seen anything yet. | |
558 | |
559 Deoptimization::DeoptAction action = Deoptimization::Action_maybe_recompile; | |
560 if (treat_throw_as_hot | |
561 && (method()->method_data()->trap_recompiled_at(bci()) | |
562 || C->too_many_traps(reason))) { | |
563 // We cannot afford to take more traps here. Suffer in the interpreter. | |
564 if (C->log() != NULL) | |
565 C->log()->elem("hot_throw preallocated='0' reason='%s' mcount='%d'", | |
566 Deoptimization::trap_reason_name(reason), | |
567 C->trap_count(reason)); | |
568 action = Deoptimization::Action_none; | |
569 } | |
570 | |
571 // "must_throw" prunes the JVM state to include only the stack, if there | |
572 // are no local exception handlers. This should cut down on register | |
573 // allocation time and code size, by drastically reducing the number | |
574 // of in-edges on the call to the uncommon trap. | |
575 | |
576 uncommon_trap(reason, action, (ciKlass*)NULL, (char*)NULL, must_throw); | |
577 } | |
578 | |
579 | |
580 //----------------------------PreserveJVMState--------------------------------- | |
581 PreserveJVMState::PreserveJVMState(GraphKit* kit, bool clone_map) { | |
582 debug_only(kit->verify_map()); | |
583 _kit = kit; | |
584 _map = kit->map(); // preserve the map | |
585 _sp = kit->sp(); | |
586 kit->set_map(clone_map ? kit->clone_map() : NULL); | |
587 #ifdef ASSERT | |
588 _bci = kit->bci(); | |
589 Parse* parser = kit->is_Parse(); | |
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590 int block = (parser == NULL || parser->block() == NULL) ? -1 : parser->block()->rpo(); |
0 | 591 _block = block; |
592 #endif | |
593 } | |
594 PreserveJVMState::~PreserveJVMState() { | |
595 GraphKit* kit = _kit; | |
596 #ifdef ASSERT | |
597 assert(kit->bci() == _bci, "bci must not shift"); | |
598 Parse* parser = kit->is_Parse(); | |
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599 int block = (parser == NULL || parser->block() == NULL) ? -1 : parser->block()->rpo(); |
0 | 600 assert(block == _block, "block must not shift"); |
601 #endif | |
602 kit->set_map(_map); | |
603 kit->set_sp(_sp); | |
604 } | |
605 | |
606 | |
607 //-----------------------------BuildCutout------------------------------------- | |
608 BuildCutout::BuildCutout(GraphKit* kit, Node* p, float prob, float cnt) | |
609 : PreserveJVMState(kit) | |
610 { | |
611 assert(p->is_Con() || p->is_Bool(), "test must be a bool"); | |
612 SafePointNode* outer_map = _map; // preserved map is caller's | |
613 SafePointNode* inner_map = kit->map(); | |
614 IfNode* iff = kit->create_and_map_if(outer_map->control(), p, prob, cnt); | |
615 outer_map->set_control(kit->gvn().transform( new (kit->C, 1) IfTrueNode(iff) )); | |
616 inner_map->set_control(kit->gvn().transform( new (kit->C, 1) IfFalseNode(iff) )); | |
617 } | |
618 BuildCutout::~BuildCutout() { | |
619 GraphKit* kit = _kit; | |
620 assert(kit->stopped(), "cutout code must stop, throw, return, etc."); | |
621 } | |
622 | |
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623 //---------------------------PreserveReexecuteState---------------------------- |
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624 PreserveReexecuteState::PreserveReexecuteState(GraphKit* kit) { |
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625 assert(!kit->stopped(), "must call stopped() before"); |
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626 _kit = kit; |
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627 _sp = kit->sp(); |
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628 _reexecute = kit->jvms()->_reexecute; |
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629 } |
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630 PreserveReexecuteState::~PreserveReexecuteState() { |
950
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631 if (_kit->stopped()) return; |
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632 _kit->jvms()->_reexecute = _reexecute; |
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633 _kit->set_sp(_sp); |
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634 } |
0 | 635 |
636 //------------------------------clone_map-------------------------------------- | |
637 // Implementation of PreserveJVMState | |
638 // | |
639 // Only clone_map(...) here. If this function is only used in the | |
640 // PreserveJVMState class we may want to get rid of this extra | |
641 // function eventually and do it all there. | |
642 | |
643 SafePointNode* GraphKit::clone_map() { | |
644 if (map() == NULL) return NULL; | |
645 | |
646 // Clone the memory edge first | |
647 Node* mem = MergeMemNode::make(C, map()->memory()); | |
648 gvn().set_type_bottom(mem); | |
649 | |
650 SafePointNode *clonemap = (SafePointNode*)map()->clone(); | |
651 JVMState* jvms = this->jvms(); | |
652 JVMState* clonejvms = jvms->clone_shallow(C); | |
653 clonemap->set_memory(mem); | |
654 clonemap->set_jvms(clonejvms); | |
655 clonejvms->set_map(clonemap); | |
656 record_for_igvn(clonemap); | |
657 gvn().set_type_bottom(clonemap); | |
658 return clonemap; | |
659 } | |
660 | |
661 | |
662 //-----------------------------set_map_clone----------------------------------- | |
663 void GraphKit::set_map_clone(SafePointNode* m) { | |
664 _map = m; | |
665 _map = clone_map(); | |
666 _map->set_next_exception(NULL); | |
667 debug_only(verify_map()); | |
668 } | |
669 | |
670 | |
671 //----------------------------kill_dead_locals--------------------------------- | |
672 // Detect any locals which are known to be dead, and force them to top. | |
673 void GraphKit::kill_dead_locals() { | |
674 // Consult the liveness information for the locals. If any | |
675 // of them are unused, then they can be replaced by top(). This | |
676 // should help register allocation time and cut down on the size | |
677 // of the deoptimization information. | |
678 | |
679 // This call is made from many of the bytecode handling | |
680 // subroutines called from the Big Switch in do_one_bytecode. | |
681 // Every bytecode which might include a slow path is responsible | |
682 // for killing its dead locals. The more consistent we | |
683 // are about killing deads, the fewer useless phis will be | |
684 // constructed for them at various merge points. | |
685 | |
686 // bci can be -1 (InvocationEntryBci). We return the entry | |
687 // liveness for the method. | |
688 | |
689 if (method() == NULL || method()->code_size() == 0) { | |
690 // We are building a graph for a call to a native method. | |
691 // All locals are live. | |
692 return; | |
693 } | |
694 | |
695 ResourceMark rm; | |
696 | |
697 // Consult the liveness information for the locals. If any | |
698 // of them are unused, then they can be replaced by top(). This | |
699 // should help register allocation time and cut down on the size | |
700 // of the deoptimization information. | |
701 MethodLivenessResult live_locals = method()->liveness_at_bci(bci()); | |
702 | |
703 int len = (int)live_locals.size(); | |
704 assert(len <= jvms()->loc_size(), "too many live locals"); | |
705 for (int local = 0; local < len; local++) { | |
706 if (!live_locals.at(local)) { | |
707 set_local(local, top()); | |
708 } | |
709 } | |
710 } | |
711 | |
712 #ifdef ASSERT | |
713 //-------------------------dead_locals_are_killed------------------------------ | |
714 // Return true if all dead locals are set to top in the map. | |
715 // Used to assert "clean" debug info at various points. | |
716 bool GraphKit::dead_locals_are_killed() { | |
717 if (method() == NULL || method()->code_size() == 0) { | |
718 // No locals need to be dead, so all is as it should be. | |
719 return true; | |
720 } | |
721 | |
722 // Make sure somebody called kill_dead_locals upstream. | |
723 ResourceMark rm; | |
724 for (JVMState* jvms = this->jvms(); jvms != NULL; jvms = jvms->caller()) { | |
725 if (jvms->loc_size() == 0) continue; // no locals to consult | |
726 SafePointNode* map = jvms->map(); | |
727 ciMethod* method = jvms->method(); | |
728 int bci = jvms->bci(); | |
729 if (jvms == this->jvms()) { | |
730 bci = this->bci(); // it might not yet be synched | |
731 } | |
732 MethodLivenessResult live_locals = method->liveness_at_bci(bci); | |
733 int len = (int)live_locals.size(); | |
734 if (!live_locals.is_valid() || len == 0) | |
735 // This method is trivial, or is poisoned by a breakpoint. | |
736 return true; | |
737 assert(len == jvms->loc_size(), "live map consistent with locals map"); | |
738 for (int local = 0; local < len; local++) { | |
739 if (!live_locals.at(local) && map->local(jvms, local) != top()) { | |
740 if (PrintMiscellaneous && (Verbose || WizardMode)) { | |
741 tty->print_cr("Zombie local %d: ", local); | |
742 jvms->dump(); | |
743 } | |
744 return false; | |
745 } | |
746 } | |
747 } | |
748 return true; | |
749 } | |
750 | |
751 #endif //ASSERT | |
752 | |
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753 // Helper function for enforcing certain bytecodes to reexecute if |
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754 // deoptimization happens |
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755 static bool should_reexecute_implied_by_bytecode(JVMState *jvms, bool is_anewarray) { |
900
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756 ciMethod* cur_method = jvms->method(); |
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757 int cur_bci = jvms->bci(); |
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758 if (cur_method != NULL && cur_bci != InvocationEntryBci) { |
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759 Bytecodes::Code code = cur_method->java_code_at_bci(cur_bci); |
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760 return Interpreter::bytecode_should_reexecute(code) || |
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761 is_anewarray && code == Bytecodes::_multianewarray; |
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762 // Reexecute _multianewarray bytecode which was replaced with |
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763 // sequence of [a]newarray. See Parse::do_multianewarray(). |
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764 // |
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765 // Note: interpreter should not have it set since this optimization |
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766 // is limited by dimensions and guarded by flag so in some cases |
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767 // multianewarray() runtime calls will be generated and |
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768 // the bytecode should not be reexecutes (stack will not be reset). |
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769 } else |
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770 return false; |
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771 } |
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772 |
0 | 773 // Helper function for adding JVMState and debug information to node |
774 void GraphKit::add_safepoint_edges(SafePointNode* call, bool must_throw) { | |
775 // Add the safepoint edges to the call (or other safepoint). | |
776 | |
777 // Make sure dead locals are set to top. This | |
778 // should help register allocation time and cut down on the size | |
779 // of the deoptimization information. | |
780 assert(dead_locals_are_killed(), "garbage in debug info before safepoint"); | |
781 | |
782 // Walk the inline list to fill in the correct set of JVMState's | |
783 // Also fill in the associated edges for each JVMState. | |
784 | |
785 JVMState* youngest_jvms = sync_jvms(); | |
786 | |
787 // Do we need debug info here? If it is a SafePoint and this method | |
788 // cannot de-opt, then we do NOT need any debug info. | |
789 bool full_info = (C->deopt_happens() || call->Opcode() != Op_SafePoint); | |
790 | |
791 // If we are guaranteed to throw, we can prune everything but the | |
792 // input to the current bytecode. | |
793 bool can_prune_locals = false; | |
794 uint stack_slots_not_pruned = 0; | |
795 int inputs = 0, depth = 0; | |
796 if (must_throw) { | |
797 assert(method() == youngest_jvms->method(), "sanity"); | |
798 if (compute_stack_effects(inputs, depth)) { | |
799 can_prune_locals = true; | |
800 stack_slots_not_pruned = inputs; | |
801 } | |
802 } | |
803 | |
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804 if (env()->jvmti_can_examine_or_deopt_anywhere()) { |
0 | 805 // At any safepoint, this method can get breakpointed, which would |
806 // then require an immediate deoptimization. | |
807 full_info = true; | |
808 can_prune_locals = false; // do not prune locals | |
809 stack_slots_not_pruned = 0; | |
810 } | |
811 | |
812 // do not scribble on the input jvms | |
813 JVMState* out_jvms = youngest_jvms->clone_deep(C); | |
814 call->set_jvms(out_jvms); // Start jvms list for call node | |
815 | |
900
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816 // For a known set of bytecodes, the interpreter should reexecute them if |
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817 // deoptimization happens. We set the reexecute state for them here |
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818 if (out_jvms->is_reexecute_undefined() && //don't change if already specified |
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819 should_reexecute_implied_by_bytecode(out_jvms, call->is_AllocateArray())) { |
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820 out_jvms->set_should_reexecute(true); //NOTE: youngest_jvms not changed |
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821 } |
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822 |
0 | 823 // Presize the call: |
824 debug_only(uint non_debug_edges = call->req()); | |
825 call->add_req_batch(top(), youngest_jvms->debug_depth()); | |
826 assert(call->req() == non_debug_edges + youngest_jvms->debug_depth(), ""); | |
827 | |
828 // Set up edges so that the call looks like this: | |
829 // Call [state:] ctl io mem fptr retadr | |
830 // [parms:] parm0 ... parmN | |
831 // [root:] loc0 ... locN stk0 ... stkSP mon0 obj0 ... monN objN | |
832 // [...mid:] loc0 ... locN stk0 ... stkSP mon0 obj0 ... monN objN [...] | |
833 // [young:] loc0 ... locN stk0 ... stkSP mon0 obj0 ... monN objN | |
834 // Note that caller debug info precedes callee debug info. | |
835 | |
836 // Fill pointer walks backwards from "young:" to "root:" in the diagram above: | |
837 uint debug_ptr = call->req(); | |
838 | |
839 // Loop over the map input edges associated with jvms, add them | |
840 // to the call node, & reset all offsets to match call node array. | |
841 for (JVMState* in_jvms = youngest_jvms; in_jvms != NULL; ) { | |
842 uint debug_end = debug_ptr; | |
843 uint debug_start = debug_ptr - in_jvms->debug_size(); | |
844 debug_ptr = debug_start; // back up the ptr | |
845 | |
846 uint p = debug_start; // walks forward in [debug_start, debug_end) | |
847 uint j, k, l; | |
848 SafePointNode* in_map = in_jvms->map(); | |
849 out_jvms->set_map(call); | |
850 | |
851 if (can_prune_locals) { | |
852 assert(in_jvms->method() == out_jvms->method(), "sanity"); | |
853 // If the current throw can reach an exception handler in this JVMS, | |
854 // then we must keep everything live that can reach that handler. | |
855 // As a quick and dirty approximation, we look for any handlers at all. | |
856 if (in_jvms->method()->has_exception_handlers()) { | |
857 can_prune_locals = false; | |
858 } | |
859 } | |
860 | |
861 // Add the Locals | |
862 k = in_jvms->locoff(); | |
863 l = in_jvms->loc_size(); | |
864 out_jvms->set_locoff(p); | |
865 if (full_info && !can_prune_locals) { | |
866 for (j = 0; j < l; j++) | |
867 call->set_req(p++, in_map->in(k+j)); | |
868 } else { | |
869 p += l; // already set to top above by add_req_batch | |
870 } | |
871 | |
872 // Add the Expression Stack | |
873 k = in_jvms->stkoff(); | |
874 l = in_jvms->sp(); | |
875 out_jvms->set_stkoff(p); | |
876 if (full_info && !can_prune_locals) { | |
877 for (j = 0; j < l; j++) | |
878 call->set_req(p++, in_map->in(k+j)); | |
879 } else if (can_prune_locals && stack_slots_not_pruned != 0) { | |
880 // Divide stack into {S0,...,S1}, where S0 is set to top. | |
881 uint s1 = stack_slots_not_pruned; | |
882 stack_slots_not_pruned = 0; // for next iteration | |
883 if (s1 > l) s1 = l; | |
884 uint s0 = l - s1; | |
885 p += s0; // skip the tops preinstalled by add_req_batch | |
886 for (j = s0; j < l; j++) | |
887 call->set_req(p++, in_map->in(k+j)); | |
888 } else { | |
889 p += l; // already set to top above by add_req_batch | |
890 } | |
891 | |
892 // Add the Monitors | |
893 k = in_jvms->monoff(); | |
894 l = in_jvms->mon_size(); | |
895 out_jvms->set_monoff(p); | |
896 for (j = 0; j < l; j++) | |
897 call->set_req(p++, in_map->in(k+j)); | |
898 | |
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899 // Copy any scalar object fields. |
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900 k = in_jvms->scloff(); |
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901 l = in_jvms->scl_size(); |
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902 out_jvms->set_scloff(p); |
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903 for (j = 0; j < l; j++) |
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904 call->set_req(p++, in_map->in(k+j)); |
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905 |
0 | 906 // Finish the new jvms. |
907 out_jvms->set_endoff(p); | |
908 | |
909 assert(out_jvms->endoff() == debug_end, "fill ptr must match"); | |
910 assert(out_jvms->depth() == in_jvms->depth(), "depth must match"); | |
911 assert(out_jvms->loc_size() == in_jvms->loc_size(), "size must match"); | |
912 assert(out_jvms->mon_size() == in_jvms->mon_size(), "size must match"); | |
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913 assert(out_jvms->scl_size() == in_jvms->scl_size(), "size must match"); |
0 | 914 assert(out_jvms->debug_size() == in_jvms->debug_size(), "size must match"); |
915 | |
916 // Update the two tail pointers in parallel. | |
917 out_jvms = out_jvms->caller(); | |
918 in_jvms = in_jvms->caller(); | |
919 } | |
920 | |
921 assert(debug_ptr == non_debug_edges, "debug info must fit exactly"); | |
922 | |
923 // Test the correctness of JVMState::debug_xxx accessors: | |
924 assert(call->jvms()->debug_start() == non_debug_edges, ""); | |
925 assert(call->jvms()->debug_end() == call->req(), ""); | |
926 assert(call->jvms()->debug_depth() == call->req() - non_debug_edges, ""); | |
927 } | |
928 | |
929 bool GraphKit::compute_stack_effects(int& inputs, int& depth) { | |
930 Bytecodes::Code code = java_bc(); | |
931 if (code == Bytecodes::_wide) { | |
932 code = method()->java_code_at_bci(bci() + 1); | |
933 } | |
934 | |
935 BasicType rtype = T_ILLEGAL; | |
936 int rsize = 0; | |
937 | |
938 if (code != Bytecodes::_illegal) { | |
939 depth = Bytecodes::depth(code); // checkcast=0, athrow=-1 | |
940 rtype = Bytecodes::result_type(code); // checkcast=P, athrow=V | |
941 if (rtype < T_CONFLICT) | |
942 rsize = type2size[rtype]; | |
943 } | |
944 | |
945 switch (code) { | |
946 case Bytecodes::_illegal: | |
947 return false; | |
948 | |
949 case Bytecodes::_ldc: | |
950 case Bytecodes::_ldc_w: | |
951 case Bytecodes::_ldc2_w: | |
952 inputs = 0; | |
953 break; | |
954 | |
955 case Bytecodes::_dup: inputs = 1; break; | |
956 case Bytecodes::_dup_x1: inputs = 2; break; | |
957 case Bytecodes::_dup_x2: inputs = 3; break; | |
958 case Bytecodes::_dup2: inputs = 2; break; | |
959 case Bytecodes::_dup2_x1: inputs = 3; break; | |
960 case Bytecodes::_dup2_x2: inputs = 4; break; | |
961 case Bytecodes::_swap: inputs = 2; break; | |
962 case Bytecodes::_arraylength: inputs = 1; break; | |
963 | |
964 case Bytecodes::_getstatic: | |
965 case Bytecodes::_putstatic: | |
966 case Bytecodes::_getfield: | |
967 case Bytecodes::_putfield: | |
968 { | |
969 bool is_get = (depth >= 0), is_static = (depth & 1); | |
970 bool ignore; | |
971 ciBytecodeStream iter(method()); | |
972 iter.reset_to_bci(bci()); | |
973 iter.next(); | |
974 ciField* field = iter.get_field(ignore); | |
975 int size = field->type()->size(); | |
976 inputs = (is_static ? 0 : 1); | |
977 if (is_get) { | |
978 depth = size - inputs; | |
979 } else { | |
980 inputs += size; // putxxx pops the value from the stack | |
981 depth = - inputs; | |
982 } | |
983 } | |
984 break; | |
985 | |
986 case Bytecodes::_invokevirtual: | |
987 case Bytecodes::_invokespecial: | |
988 case Bytecodes::_invokestatic: | |
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989 case Bytecodes::_invokedynamic: |
0 | 990 case Bytecodes::_invokeinterface: |
991 { | |
992 bool ignore; | |
993 ciBytecodeStream iter(method()); | |
994 iter.reset_to_bci(bci()); | |
995 iter.next(); | |
996 ciMethod* method = iter.get_method(ignore); | |
997 inputs = method->arg_size_no_receiver(); | |
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998 // Add a receiver argument, maybe: |
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999 if (code != Bytecodes::_invokestatic && |
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1000 code != Bytecodes::_invokedynamic) |
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1001 inputs += 1; |
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1002 // (Do not use ciMethod::arg_size(), because |
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1003 // it might be an unloaded method, which doesn't |
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1004 // know whether it is static or not.) |
0 | 1005 int size = method->return_type()->size(); |
1006 depth = size - inputs; | |
1007 } | |
1008 break; | |
1009 | |
1010 case Bytecodes::_multianewarray: | |
1011 { | |
1012 ciBytecodeStream iter(method()); | |
1013 iter.reset_to_bci(bci()); | |
1014 iter.next(); | |
1015 inputs = iter.get_dimensions(); | |
1016 assert(rsize == 1, ""); | |
1017 depth = rsize - inputs; | |
1018 } | |
1019 break; | |
1020 | |
1021 case Bytecodes::_ireturn: | |
1022 case Bytecodes::_lreturn: | |
1023 case Bytecodes::_freturn: | |
1024 case Bytecodes::_dreturn: | |
1025 case Bytecodes::_areturn: | |
1026 assert(rsize = -depth, ""); | |
1027 inputs = rsize; | |
1028 break; | |
1029 | |
1030 case Bytecodes::_jsr: | |
1031 case Bytecodes::_jsr_w: | |
1032 inputs = 0; | |
1033 depth = 1; // S.B. depth=1, not zero | |
1034 break; | |
1035 | |
1036 default: | |
1037 // bytecode produces a typed result | |
1038 inputs = rsize - depth; | |
1039 assert(inputs >= 0, ""); | |
1040 break; | |
1041 } | |
1042 | |
1043 #ifdef ASSERT | |
1044 // spot check | |
1045 int outputs = depth + inputs; | |
1046 assert(outputs >= 0, "sanity"); | |
1047 switch (code) { | |
1048 case Bytecodes::_checkcast: assert(inputs == 1 && outputs == 1, ""); break; | |
1049 case Bytecodes::_athrow: assert(inputs == 1 && outputs == 0, ""); break; | |
1050 case Bytecodes::_aload_0: assert(inputs == 0 && outputs == 1, ""); break; | |
1051 case Bytecodes::_return: assert(inputs == 0 && outputs == 0, ""); break; | |
1052 case Bytecodes::_drem: assert(inputs == 4 && outputs == 2, ""); break; | |
1053 } | |
1054 #endif //ASSERT | |
1055 | |
1056 return true; | |
1057 } | |
1058 | |
1059 | |
1060 | |
1061 //------------------------------basic_plus_adr--------------------------------- | |
1062 Node* GraphKit::basic_plus_adr(Node* base, Node* ptr, Node* offset) { | |
1063 // short-circuit a common case | |
1064 if (offset == intcon(0)) return ptr; | |
1065 return _gvn.transform( new (C, 4) AddPNode(base, ptr, offset) ); | |
1066 } | |
1067 | |
1068 Node* GraphKit::ConvI2L(Node* offset) { | |
1069 // short-circuit a common case | |
1070 jint offset_con = find_int_con(offset, Type::OffsetBot); | |
1071 if (offset_con != Type::OffsetBot) { | |
1072 return longcon((long) offset_con); | |
1073 } | |
1074 return _gvn.transform( new (C, 2) ConvI2LNode(offset)); | |
1075 } | |
1076 Node* GraphKit::ConvL2I(Node* offset) { | |
1077 // short-circuit a common case | |
1078 jlong offset_con = find_long_con(offset, (jlong)Type::OffsetBot); | |
1079 if (offset_con != (jlong)Type::OffsetBot) { | |
1080 return intcon((int) offset_con); | |
1081 } | |
1082 return _gvn.transform( new (C, 2) ConvL2INode(offset)); | |
1083 } | |
1084 | |
1085 //-------------------------load_object_klass----------------------------------- | |
1086 Node* GraphKit::load_object_klass(Node* obj) { | |
1087 // Special-case a fresh allocation to avoid building nodes: | |
1088 Node* akls = AllocateNode::Ideal_klass(obj, &_gvn); | |
1089 if (akls != NULL) return akls; | |
1090 Node* k_adr = basic_plus_adr(obj, oopDesc::klass_offset_in_bytes()); | |
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1091 return _gvn.transform( LoadKlassNode::make(_gvn, immutable_memory(), k_adr, TypeInstPtr::KLASS) ); |
0 | 1092 } |
1093 | |
1094 //-------------------------load_array_length----------------------------------- | |
1095 Node* GraphKit::load_array_length(Node* array) { | |
1096 // Special-case a fresh allocation to avoid building nodes: | |
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1097 AllocateArrayNode* alloc = AllocateArrayNode::Ideal_array_allocation(array, &_gvn); |
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1098 Node *alen; |
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1099 if (alloc == NULL) { |
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1100 Node *r_adr = basic_plus_adr(array, arrayOopDesc::length_offset_in_bytes()); |
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1101 alen = _gvn.transform( new (C, 3) LoadRangeNode(0, immutable_memory(), r_adr, TypeInt::POS)); |
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1102 } else { |
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1103 alen = alloc->Ideal_length(); |
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1104 Node* ccast = alloc->make_ideal_length(_gvn.type(array)->is_oopptr(), &_gvn); |
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1105 if (ccast != alen) { |
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1106 alen = _gvn.transform(ccast); |
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1107 } |
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1108 } |
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1109 return alen; |
0 | 1110 } |
1111 | |
1112 //------------------------------do_null_check---------------------------------- | |
1113 // Helper function to do a NULL pointer check. Returned value is | |
1114 // the incoming address with NULL casted away. You are allowed to use the | |
1115 // not-null value only if you are control dependent on the test. | |
1116 extern int explicit_null_checks_inserted, | |
1117 explicit_null_checks_elided; | |
1118 Node* GraphKit::null_check_common(Node* value, BasicType type, | |
1119 // optional arguments for variations: | |
1120 bool assert_null, | |
1121 Node* *null_control) { | |
1122 assert(!assert_null || null_control == NULL, "not both at once"); | |
1123 if (stopped()) return top(); | |
1124 if (!GenerateCompilerNullChecks && !assert_null && null_control == NULL) { | |
1125 // For some performance testing, we may wish to suppress null checking. | |
1126 value = cast_not_null(value); // Make it appear to be non-null (4962416). | |
1127 return value; | |
1128 } | |
1129 explicit_null_checks_inserted++; | |
1130 | |
1131 // Construct NULL check | |
1132 Node *chk = NULL; | |
1133 switch(type) { | |
1134 case T_LONG : chk = new (C, 3) CmpLNode(value, _gvn.zerocon(T_LONG)); break; | |
1135 case T_INT : chk = new (C, 3) CmpINode( value, _gvn.intcon(0)); break; | |
1136 case T_ARRAY : // fall through | |
1137 type = T_OBJECT; // simplify further tests | |
1138 case T_OBJECT : { | |
1139 const Type *t = _gvn.type( value ); | |
1140 | |
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1141 const TypeOopPtr* tp = t->isa_oopptr(); |
955 | 1142 if (tp != NULL && tp->klass() != NULL && !tp->klass()->is_loaded() |
0 | 1143 // Only for do_null_check, not any of its siblings: |
1144 && !assert_null && null_control == NULL) { | |
1145 // Usually, any field access or invocation on an unloaded oop type | |
1146 // will simply fail to link, since the statically linked class is | |
1147 // likely also to be unloaded. However, in -Xcomp mode, sometimes | |
1148 // the static class is loaded but the sharper oop type is not. | |
1149 // Rather than checking for this obscure case in lots of places, | |
1150 // we simply observe that a null check on an unloaded class | |
1151 // will always be followed by a nonsense operation, so we | |
1152 // can just issue the uncommon trap here. | |
1153 // Our access to the unloaded class will only be correct | |
1154 // after it has been loaded and initialized, which requires | |
1155 // a trip through the interpreter. | |
1156 #ifndef PRODUCT | |
1157 if (WizardMode) { tty->print("Null check of unloaded "); tp->klass()->print(); tty->cr(); } | |
1158 #endif | |
1159 uncommon_trap(Deoptimization::Reason_unloaded, | |
1160 Deoptimization::Action_reinterpret, | |
1161 tp->klass(), "!loaded"); | |
1162 return top(); | |
1163 } | |
1164 | |
1165 if (assert_null) { | |
1166 // See if the type is contained in NULL_PTR. | |
1167 // If so, then the value is already null. | |
1168 if (t->higher_equal(TypePtr::NULL_PTR)) { | |
1169 explicit_null_checks_elided++; | |
1170 return value; // Elided null assert quickly! | |
1171 } | |
1172 } else { | |
1173 // See if mixing in the NULL pointer changes type. | |
1174 // If so, then the NULL pointer was not allowed in the original | |
1175 // type. In other words, "value" was not-null. | |
1176 if (t->meet(TypePtr::NULL_PTR) != t) { | |
1177 // same as: if (!TypePtr::NULL_PTR->higher_equal(t)) ... | |
1178 explicit_null_checks_elided++; | |
1179 return value; // Elided null check quickly! | |
1180 } | |
1181 } | |
1182 chk = new (C, 3) CmpPNode( value, null() ); | |
1183 break; | |
1184 } | |
1185 | |
1186 default : ShouldNotReachHere(); | |
1187 } | |
1188 assert(chk != NULL, "sanity check"); | |
1189 chk = _gvn.transform(chk); | |
1190 | |
1191 BoolTest::mask btest = assert_null ? BoolTest::eq : BoolTest::ne; | |
1192 BoolNode *btst = new (C, 2) BoolNode( chk, btest); | |
1193 Node *tst = _gvn.transform( btst ); | |
1194 | |
1195 //----------- | |
605 | 1196 // if peephole optimizations occurred, a prior test existed. |
0 | 1197 // If a prior test existed, maybe it dominates as we can avoid this test. |
1198 if (tst != btst && type == T_OBJECT) { | |
1199 // At this point we want to scan up the CFG to see if we can | |
1200 // find an identical test (and so avoid this test altogether). | |
1201 Node *cfg = control(); | |
1202 int depth = 0; | |
1203 while( depth < 16 ) { // Limit search depth for speed | |
1204 if( cfg->Opcode() == Op_IfTrue && | |
1205 cfg->in(0)->in(1) == tst ) { | |
1206 // Found prior test. Use "cast_not_null" to construct an identical | |
1207 // CastPP (and hence hash to) as already exists for the prior test. | |
1208 // Return that casted value. | |
1209 if (assert_null) { | |
1210 replace_in_map(value, null()); | |
1211 return null(); // do not issue the redundant test | |
1212 } | |
1213 Node *oldcontrol = control(); | |
1214 set_control(cfg); | |
1215 Node *res = cast_not_null(value); | |
1216 set_control(oldcontrol); | |
1217 explicit_null_checks_elided++; | |
1218 return res; | |
1219 } | |
1220 cfg = IfNode::up_one_dom(cfg, /*linear_only=*/ true); | |
1221 if (cfg == NULL) break; // Quit at region nodes | |
1222 depth++; | |
1223 } | |
1224 } | |
1225 | |
1226 //----------- | |
1227 // Branch to failure if null | |
1228 float ok_prob = PROB_MAX; // a priori estimate: nulls never happen | |
1229 Deoptimization::DeoptReason reason; | |
1230 if (assert_null) | |
1231 reason = Deoptimization::Reason_null_assert; | |
1232 else if (type == T_OBJECT) | |
1233 reason = Deoptimization::Reason_null_check; | |
1234 else | |
1235 reason = Deoptimization::Reason_div0_check; | |
1236 | |
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1237 // %%% Since Reason_unhandled is not recorded on a per-bytecode basis, |
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1238 // ciMethodData::has_trap_at will return a conservative -1 if any |
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1239 // must-be-null assertion has failed. This could cause performance |
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1240 // problems for a method after its first do_null_assert failure. |
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1241 // Consider using 'Reason_class_check' instead? |
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1242 |
0 | 1243 // To cause an implicit null check, we set the not-null probability |
605 | 1244 // to the maximum (PROB_MAX). For an explicit check the probability |
0 | 1245 // is set to a smaller value. |
1246 if (null_control != NULL || too_many_traps(reason)) { | |
1247 // probability is less likely | |
1248 ok_prob = PROB_LIKELY_MAG(3); | |
1249 } else if (!assert_null && | |
1250 (ImplicitNullCheckThreshold > 0) && | |
1251 method() != NULL && | |
1252 (method()->method_data()->trap_count(reason) | |
1253 >= (uint)ImplicitNullCheckThreshold)) { | |
1254 ok_prob = PROB_LIKELY_MAG(3); | |
1255 } | |
1256 | |
1257 if (null_control != NULL) { | |
1258 IfNode* iff = create_and_map_if(control(), tst, ok_prob, COUNT_UNKNOWN); | |
1259 Node* null_true = _gvn.transform( new (C, 1) IfFalseNode(iff)); | |
1260 set_control( _gvn.transform( new (C, 1) IfTrueNode(iff))); | |
1261 if (null_true == top()) | |
1262 explicit_null_checks_elided++; | |
1263 (*null_control) = null_true; | |
1264 } else { | |
1265 BuildCutout unless(this, tst, ok_prob); | |
1266 // Check for optimizer eliding test at parse time | |
1267 if (stopped()) { | |
1268 // Failure not possible; do not bother making uncommon trap. | |
1269 explicit_null_checks_elided++; | |
1270 } else if (assert_null) { | |
1271 uncommon_trap(reason, | |
1272 Deoptimization::Action_make_not_entrant, | |
1273 NULL, "assert_null"); | |
1274 } else { | |
332 | 1275 replace_in_map(value, zerocon(type)); |
0 | 1276 builtin_throw(reason); |
1277 } | |
1278 } | |
1279 | |
1280 // Must throw exception, fall-thru not possible? | |
1281 if (stopped()) { | |
1282 return top(); // No result | |
1283 } | |
1284 | |
1285 if (assert_null) { | |
1286 // Cast obj to null on this path. | |
1287 replace_in_map(value, zerocon(type)); | |
1288 return zerocon(type); | |
1289 } | |
1290 | |
1291 // Cast obj to not-null on this path, if there is no null_control. | |
1292 // (If there is a null_control, a non-null value may come back to haunt us.) | |
1293 if (type == T_OBJECT) { | |
1294 Node* cast = cast_not_null(value, false); | |
1295 if (null_control == NULL || (*null_control) == top()) | |
1296 replace_in_map(value, cast); | |
1297 value = cast; | |
1298 } | |
1299 | |
1300 return value; | |
1301 } | |
1302 | |
1303 | |
1304 //------------------------------cast_not_null---------------------------------- | |
1305 // Cast obj to not-null on this path | |
1306 Node* GraphKit::cast_not_null(Node* obj, bool do_replace_in_map) { | |
1307 const Type *t = _gvn.type(obj); | |
1308 const Type *t_not_null = t->join(TypePtr::NOTNULL); | |
1309 // Object is already not-null? | |
1310 if( t == t_not_null ) return obj; | |
1311 | |
1312 Node *cast = new (C, 2) CastPPNode(obj,t_not_null); | |
1313 cast->init_req(0, control()); | |
1314 cast = _gvn.transform( cast ); | |
1315 | |
1316 // Scan for instances of 'obj' in the current JVM mapping. | |
1317 // These instances are known to be not-null after the test. | |
1318 if (do_replace_in_map) | |
1319 replace_in_map(obj, cast); | |
1320 | |
1321 return cast; // Return casted value | |
1322 } | |
1323 | |
1324 | |
1325 //--------------------------replace_in_map------------------------------------- | |
1326 void GraphKit::replace_in_map(Node* old, Node* neww) { | |
1327 this->map()->replace_edge(old, neww); | |
1328 | |
1329 // Note: This operation potentially replaces any edge | |
1330 // on the map. This includes locals, stack, and monitors | |
1331 // of the current (innermost) JVM state. | |
1332 | |
1333 // We can consider replacing in caller maps. | |
1334 // The idea would be that an inlined function's null checks | |
1335 // can be shared with the entire inlining tree. | |
1336 // The expense of doing this is that the PreserveJVMState class | |
1337 // would have to preserve caller states too, with a deep copy. | |
1338 } | |
1339 | |
1340 | |
1341 | |
1342 //============================================================================= | |
1343 //--------------------------------memory--------------------------------------- | |
1344 Node* GraphKit::memory(uint alias_idx) { | |
1345 MergeMemNode* mem = merged_memory(); | |
1346 Node* p = mem->memory_at(alias_idx); | |
1347 _gvn.set_type(p, Type::MEMORY); // must be mapped | |
1348 return p; | |
1349 } | |
1350 | |
1351 //-----------------------------reset_memory------------------------------------ | |
1352 Node* GraphKit::reset_memory() { | |
1353 Node* mem = map()->memory(); | |
1354 // do not use this node for any more parsing! | |
1355 debug_only( map()->set_memory((Node*)NULL) ); | |
1356 return _gvn.transform( mem ); | |
1357 } | |
1358 | |
1359 //------------------------------set_all_memory--------------------------------- | |
1360 void GraphKit::set_all_memory(Node* newmem) { | |
1361 Node* mergemem = MergeMemNode::make(C, newmem); | |
1362 gvn().set_type_bottom(mergemem); | |
1363 map()->set_memory(mergemem); | |
1364 } | |
1365 | |
1366 //------------------------------set_all_memory_call---------------------------- | |
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1367 void GraphKit::set_all_memory_call(Node* call, bool separate_io_proj) { |
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1368 Node* newmem = _gvn.transform( new (C, 1) ProjNode(call, TypeFunc::Memory, separate_io_proj) ); |
0 | 1369 set_all_memory(newmem); |
1370 } | |
1371 | |
1372 //============================================================================= | |
1373 // | |
1374 // parser factory methods for MemNodes | |
1375 // | |
1376 // These are layered on top of the factory methods in LoadNode and StoreNode, | |
1377 // and integrate with the parser's memory state and _gvn engine. | |
1378 // | |
1379 | |
1380 // factory methods in "int adr_idx" | |
1381 Node* GraphKit::make_load(Node* ctl, Node* adr, const Type* t, BasicType bt, | |
1382 int adr_idx, | |
1383 bool require_atomic_access) { | |
1384 assert(adr_idx != Compile::AliasIdxTop, "use other make_load factory" ); | |
1385 const TypePtr* adr_type = NULL; // debug-mode-only argument | |
1386 debug_only(adr_type = C->get_adr_type(adr_idx)); | |
1387 Node* mem = memory(adr_idx); | |
1388 Node* ld; | |
1389 if (require_atomic_access && bt == T_LONG) { | |
1390 ld = LoadLNode::make_atomic(C, ctl, mem, adr, adr_type, t); | |
1391 } else { | |
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1392 ld = LoadNode::make(_gvn, ctl, mem, adr, adr_type, t, bt); |
0 | 1393 } |
1394 return _gvn.transform(ld); | |
1395 } | |
1396 | |
1397 Node* GraphKit::store_to_memory(Node* ctl, Node* adr, Node *val, BasicType bt, | |
1398 int adr_idx, | |
1399 bool require_atomic_access) { | |
1400 assert(adr_idx != Compile::AliasIdxTop, "use other store_to_memory factory" ); | |
1401 const TypePtr* adr_type = NULL; | |
1402 debug_only(adr_type = C->get_adr_type(adr_idx)); | |
1403 Node *mem = memory(adr_idx); | |
1404 Node* st; | |
1405 if (require_atomic_access && bt == T_LONG) { | |
1406 st = StoreLNode::make_atomic(C, ctl, mem, adr, adr_type, val); | |
1407 } else { | |
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1408 st = StoreNode::make(_gvn, ctl, mem, adr, adr_type, val, bt); |
0 | 1409 } |
1410 st = _gvn.transform(st); | |
1411 set_memory(st, adr_idx); | |
1412 // Back-to-back stores can only remove intermediate store with DU info | |
1413 // so push on worklist for optimizer. | |
1414 if (mem->req() > MemNode::Address && adr == mem->in(MemNode::Address)) | |
1415 record_for_igvn(st); | |
1416 | |
1417 return st; | |
1418 } | |
1419 | |
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1420 |
0 | 1421 void GraphKit::pre_barrier(Node* ctl, |
1422 Node* obj, | |
1423 Node* adr, | |
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1424 uint adr_idx, |
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1425 Node* val, |
825 | 1426 const TypeOopPtr* val_type, |
0 | 1427 BasicType bt) { |
1428 BarrierSet* bs = Universe::heap()->barrier_set(); | |
1429 set_control(ctl); | |
1430 switch (bs->kind()) { | |
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1431 case BarrierSet::G1SATBCT: |
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1432 case BarrierSet::G1SATBCTLogging: |
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1433 g1_write_barrier_pre(obj, adr, adr_idx, val, val_type, bt); |
342
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1434 break; |
0 | 1435 |
1436 case BarrierSet::CardTableModRef: | |
1437 case BarrierSet::CardTableExtension: | |
1438 case BarrierSet::ModRef: | |
1439 break; | |
1440 | |
1441 case BarrierSet::Other: | |
1442 default : | |
1443 ShouldNotReachHere(); | |
1444 | |
1445 } | |
1446 } | |
1447 | |
1448 void GraphKit::post_barrier(Node* ctl, | |
1449 Node* store, | |
1450 Node* obj, | |
1451 Node* adr, | |
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1452 uint adr_idx, |
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1453 Node* val, |
0 | 1454 BasicType bt, |
1455 bool use_precise) { | |
1456 BarrierSet* bs = Universe::heap()->barrier_set(); | |
1457 set_control(ctl); | |
1458 switch (bs->kind()) { | |
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1459 case BarrierSet::G1SATBCT: |
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1460 case BarrierSet::G1SATBCTLogging: |
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1461 g1_write_barrier_post(store, obj, adr, adr_idx, val, bt, use_precise); |
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1462 break; |
0 | 1463 |
1464 case BarrierSet::CardTableModRef: | |
1465 case BarrierSet::CardTableExtension: | |
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1466 write_barrier_post(store, obj, adr, adr_idx, val, use_precise); |
0 | 1467 break; |
1468 | |
1469 case BarrierSet::ModRef: | |
1470 break; | |
1471 | |
1472 case BarrierSet::Other: | |
1473 default : | |
1474 ShouldNotReachHere(); | |
1475 | |
1476 } | |
1477 } | |
1478 | |
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1479 Node* GraphKit::store_oop(Node* ctl, |
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1480 Node* obj, |
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1481 Node* adr, |
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1482 const TypePtr* adr_type, |
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1483 Node* val, |
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1484 const TypeOopPtr* val_type, |
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1485 BasicType bt, |
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1486 bool use_precise) { |
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1487 |
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1488 set_control(ctl); |
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1489 if (stopped()) return top(); // Dead path ? |
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1490 |
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1491 assert(bt == T_OBJECT, "sanity"); |
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1492 assert(val != NULL, "not dead path"); |
0 | 1493 uint adr_idx = C->get_alias_index(adr_type); |
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1494 assert(adr_idx != Compile::AliasIdxTop, "use other store_to_memory factory" ); |
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1495 |
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1496 pre_barrier(control(), obj, adr, adr_idx, val, val_type, bt); |
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1497 Node* store = store_to_memory(control(), adr, val, bt, adr_idx); |
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1498 post_barrier(control(), store, obj, adr, adr_idx, val, bt, use_precise); |
0 | 1499 return store; |
1500 } | |
1501 | |
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1502 // Could be an array or object we don't know at compile time (unsafe ref.) |
0 | 1503 Node* GraphKit::store_oop_to_unknown(Node* ctl, |
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1504 Node* obj, // containing obj |
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1505 Node* adr, // actual adress to store val at |
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1506 const TypePtr* adr_type, |
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1507 Node* val, |
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1508 BasicType bt) { |
825 | 1509 Compile::AliasType* at = C->alias_type(adr_type); |
1510 const TypeOopPtr* val_type = NULL; | |
1511 if (adr_type->isa_instptr()) { | |
1512 if (at->field() != NULL) { | |
1513 // known field. This code is a copy of the do_put_xxx logic. | |
1514 ciField* field = at->field(); | |
1515 if (!field->type()->is_loaded()) { | |
1516 val_type = TypeInstPtr::BOTTOM; | |
1517 } else { | |
1518 val_type = TypeOopPtr::make_from_klass(field->type()->as_klass()); | |
1519 } | |
1520 } | |
1521 } else if (adr_type->isa_aryptr()) { | |
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1522 val_type = adr_type->is_aryptr()->elem()->make_oopptr(); |
825 | 1523 } |
1524 if (val_type == NULL) { | |
1525 val_type = TypeInstPtr::BOTTOM; | |
1526 } | |
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1527 return store_oop(ctl, obj, adr, adr_type, val, val_type, bt, true); |
0 | 1528 } |
1529 | |
1530 | |
1531 //-------------------------array_element_address------------------------- | |
1532 Node* GraphKit::array_element_address(Node* ary, Node* idx, BasicType elembt, | |
1533 const TypeInt* sizetype) { | |
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1534 uint shift = exact_log2(type2aelembytes(elembt)); |
0 | 1535 uint header = arrayOopDesc::base_offset_in_bytes(elembt); |
1536 | |
1537 // short-circuit a common case (saves lots of confusing waste motion) | |
1538 jint idx_con = find_int_con(idx, -1); | |
1539 if (idx_con >= 0) { | |
1540 intptr_t offset = header + ((intptr_t)idx_con << shift); | |
1541 return basic_plus_adr(ary, offset); | |
1542 } | |
1543 | |
1544 // must be correct type for alignment purposes | |
1545 Node* base = basic_plus_adr(ary, header); | |
1546 #ifdef _LP64 | |
1547 // The scaled index operand to AddP must be a clean 64-bit value. | |
1548 // Java allows a 32-bit int to be incremented to a negative | |
1549 // value, which appears in a 64-bit register as a large | |
1550 // positive number. Using that large positive number as an | |
1551 // operand in pointer arithmetic has bad consequences. | |
1552 // On the other hand, 32-bit overflow is rare, and the possibility | |
1553 // can often be excluded, if we annotate the ConvI2L node with | |
1554 // a type assertion that its value is known to be a small positive | |
1555 // number. (The prior range check has ensured this.) | |
1556 // This assertion is used by ConvI2LNode::Ideal. | |
1557 int index_max = max_jint - 1; // array size is max_jint, index is one less | |
1558 if (sizetype != NULL) index_max = sizetype->_hi - 1; | |
1559 const TypeLong* lidxtype = TypeLong::make(CONST64(0), index_max, Type::WidenMax); | |
1560 idx = _gvn.transform( new (C, 2) ConvI2LNode(idx, lidxtype) ); | |
1561 #endif | |
1562 Node* scale = _gvn.transform( new (C, 3) LShiftXNode(idx, intcon(shift)) ); | |
1563 return basic_plus_adr(ary, base, scale); | |
1564 } | |
1565 | |
1566 //-------------------------load_array_element------------------------- | |
1567 Node* GraphKit::load_array_element(Node* ctl, Node* ary, Node* idx, const TypeAryPtr* arytype) { | |
1568 const Type* elemtype = arytype->elem(); | |
1569 BasicType elembt = elemtype->array_element_basic_type(); | |
1570 Node* adr = array_element_address(ary, idx, elembt, arytype->size()); | |
1571 Node* ld = make_load(ctl, adr, elemtype, elembt, arytype); | |
1572 return ld; | |
1573 } | |
1574 | |
1575 //-------------------------set_arguments_for_java_call------------------------- | |
1576 // Arguments (pre-popped from the stack) are taken from the JVMS. | |
1577 void GraphKit::set_arguments_for_java_call(CallJavaNode* call) { | |
1578 // Add the call arguments: | |
1579 uint nargs = call->method()->arg_size(); | |
1580 for (uint i = 0; i < nargs; i++) { | |
1581 Node* arg = argument(i); | |
1582 call->init_req(i + TypeFunc::Parms, arg); | |
1583 } | |
1584 } | |
1585 | |
1586 //---------------------------set_edges_for_java_call--------------------------- | |
1587 // Connect a newly created call into the current JVMS. | |
1588 // A return value node (if any) is returned from set_edges_for_java_call. | |
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1589 void GraphKit::set_edges_for_java_call(CallJavaNode* call, bool must_throw, bool separate_io_proj) { |
0 | 1590 |
1591 // Add the predefined inputs: | |
1592 call->init_req( TypeFunc::Control, control() ); | |
1593 call->init_req( TypeFunc::I_O , i_o() ); | |
1594 call->init_req( TypeFunc::Memory , reset_memory() ); | |
1595 call->init_req( TypeFunc::FramePtr, frameptr() ); | |
1596 call->init_req( TypeFunc::ReturnAdr, top() ); | |
1597 | |
1598 add_safepoint_edges(call, must_throw); | |
1599 | |
1600 Node* xcall = _gvn.transform(call); | |
1601 | |
1602 if (xcall == top()) { | |
1603 set_control(top()); | |
1604 return; | |
1605 } | |
1606 assert(xcall == call, "call identity is stable"); | |
1607 | |
1608 // Re-use the current map to produce the result. | |
1609 | |
1610 set_control(_gvn.transform(new (C, 1) ProjNode(call, TypeFunc::Control))); | |
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1611 set_i_o( _gvn.transform(new (C, 1) ProjNode(call, TypeFunc::I_O , separate_io_proj))); |
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1612 set_all_memory_call(xcall, separate_io_proj); |
0 | 1613 |
1614 //return xcall; // no need, caller already has it | |
1615 } | |
1616 | |
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1617 Node* GraphKit::set_results_for_java_call(CallJavaNode* call, bool separate_io_proj) { |
0 | 1618 if (stopped()) return top(); // maybe the call folded up? |
1619 | |
1620 // Capture the return value, if any. | |
1621 Node* ret; | |
1622 if (call->method() == NULL || | |
1623 call->method()->return_type()->basic_type() == T_VOID) | |
1624 ret = top(); | |
1625 else ret = _gvn.transform(new (C, 1) ProjNode(call, TypeFunc::Parms)); | |
1626 | |
1627 // Note: Since any out-of-line call can produce an exception, | |
1628 // we always insert an I_O projection from the call into the result. | |
1629 | |
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1630 make_slow_call_ex(call, env()->Throwable_klass(), separate_io_proj); |
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1631 |
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1632 if (separate_io_proj) { |
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1633 // The caller requested separate projections be used by the fall |
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1634 // through and exceptional paths, so replace the projections for |
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1635 // the fall through path. |
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1636 set_i_o(_gvn.transform( new (C, 1) ProjNode(call, TypeFunc::I_O) )); |
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1637 set_all_memory(_gvn.transform( new (C, 1) ProjNode(call, TypeFunc::Memory) )); |
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1638 } |
0 | 1639 return ret; |
1640 } | |
1641 | |
1642 //--------------------set_predefined_input_for_runtime_call-------------------- | |
1643 // Reading and setting the memory state is way conservative here. | |
1644 // The real problem is that I am not doing real Type analysis on memory, | |
1645 // so I cannot distinguish card mark stores from other stores. Across a GC | |
1646 // point the Store Barrier and the card mark memory has to agree. I cannot | |
1647 // have a card mark store and its barrier split across the GC point from | |
1648 // either above or below. Here I get that to happen by reading ALL of memory. | |
1649 // A better answer would be to separate out card marks from other memory. | |
1650 // For now, return the input memory state, so that it can be reused | |
1651 // after the call, if this call has restricted memory effects. | |
1652 Node* GraphKit::set_predefined_input_for_runtime_call(SafePointNode* call) { | |
1653 // Set fixed predefined input arguments | |
1654 Node* memory = reset_memory(); | |
1655 call->init_req( TypeFunc::Control, control() ); | |
1656 call->init_req( TypeFunc::I_O, top() ); // does no i/o | |
1657 call->init_req( TypeFunc::Memory, memory ); // may gc ptrs | |
1658 call->init_req( TypeFunc::FramePtr, frameptr() ); | |
1659 call->init_req( TypeFunc::ReturnAdr, top() ); | |
1660 return memory; | |
1661 } | |
1662 | |
1663 //-------------------set_predefined_output_for_runtime_call-------------------- | |
1664 // Set control and memory (not i_o) from the call. | |
1665 // If keep_mem is not NULL, use it for the output state, | |
1666 // except for the RawPtr output of the call, if hook_mem is TypeRawPtr::BOTTOM. | |
1667 // If hook_mem is NULL, this call produces no memory effects at all. | |
1668 // If hook_mem is a Java-visible memory slice (such as arraycopy operands), | |
1669 // then only that memory slice is taken from the call. | |
1670 // In the last case, we must put an appropriate memory barrier before | |
1671 // the call, so as to create the correct anti-dependencies on loads | |
1672 // preceding the call. | |
1673 void GraphKit::set_predefined_output_for_runtime_call(Node* call, | |
1674 Node* keep_mem, | |
1675 const TypePtr* hook_mem) { | |
1676 // no i/o | |
1677 set_control(_gvn.transform( new (C, 1) ProjNode(call,TypeFunc::Control) )); | |
1678 if (keep_mem) { | |
1679 // First clone the existing memory state | |
1680 set_all_memory(keep_mem); | |
1681 if (hook_mem != NULL) { | |
1682 // Make memory for the call | |
1683 Node* mem = _gvn.transform( new (C, 1) ProjNode(call, TypeFunc::Memory) ); | |
1684 // Set the RawPtr memory state only. This covers all the heap top/GC stuff | |
1685 // We also use hook_mem to extract specific effects from arraycopy stubs. | |
1686 set_memory(mem, hook_mem); | |
1687 } | |
1688 // ...else the call has NO memory effects. | |
1689 | |
1690 // Make sure the call advertises its memory effects precisely. | |
1691 // This lets us build accurate anti-dependences in gcm.cpp. | |
1692 assert(C->alias_type(call->adr_type()) == C->alias_type(hook_mem), | |
1693 "call node must be constructed correctly"); | |
1694 } else { | |
1695 assert(hook_mem == NULL, ""); | |
1696 // This is not a "slow path" call; all memory comes from the call. | |
1697 set_all_memory_call(call); | |
1698 } | |
1699 } | |
1700 | |
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1701 |
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1702 // Replace the call with the current state of the kit. |
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1703 void GraphKit::replace_call(CallNode* call, Node* result) { |
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1704 JVMState* ejvms = NULL; |
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1705 if (has_exceptions()) { |
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1706 ejvms = transfer_exceptions_into_jvms(); |
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1707 } |
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1708 |
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1709 SafePointNode* final_state = stop(); |
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1710 |
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1711 // Find all the needed outputs of this call |
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1712 CallProjections callprojs; |
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1713 call->extract_projections(&callprojs, true); |
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1714 |
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1715 // Replace all the old call edges with the edges from the inlining result |
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1716 C->gvn_replace_by(callprojs.fallthrough_catchproj, final_state->in(TypeFunc::Control)); |
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1717 C->gvn_replace_by(callprojs.fallthrough_memproj, final_state->in(TypeFunc::Memory)); |
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1718 C->gvn_replace_by(callprojs.fallthrough_ioproj, final_state->in(TypeFunc::I_O)); |
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1719 |
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1720 // Replace the result with the new result if it exists and is used |
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1721 if (callprojs.resproj != NULL && result != NULL) { |
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1722 C->gvn_replace_by(callprojs.resproj, result); |
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1723 } |
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1724 |
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1725 if (ejvms == NULL) { |
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1726 // No exception edges to simply kill off those paths |
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1727 C->gvn_replace_by(callprojs.catchall_catchproj, C->top()); |
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1728 C->gvn_replace_by(callprojs.catchall_memproj, C->top()); |
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1729 C->gvn_replace_by(callprojs.catchall_ioproj, C->top()); |
1099
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1730 |
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1731 // Replace the old exception object with top |
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1732 if (callprojs.exobj != NULL) { |
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1733 C->gvn_replace_by(callprojs.exobj, C->top()); |
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1734 } |
1080
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1735 } else { |
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1736 GraphKit ekit(ejvms); |
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1737 |
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1738 // Load my combined exception state into the kit, with all phis transformed: |
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1739 SafePointNode* ex_map = ekit.combine_and_pop_all_exception_states(); |
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1740 |
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1741 Node* ex_oop = ekit.use_exception_state(ex_map); |
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1742 |
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1743 C->gvn_replace_by(callprojs.catchall_catchproj, ekit.control()); |
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1744 C->gvn_replace_by(callprojs.catchall_memproj, ekit.reset_memory()); |
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1745 C->gvn_replace_by(callprojs.catchall_ioproj, ekit.i_o()); |
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1746 |
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1747 // Replace the old exception object with the newly created one |
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1748 if (callprojs.exobj != NULL) { |
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1749 C->gvn_replace_by(callprojs.exobj, ex_oop); |
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1750 } |
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1751 } |
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1752 |
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1753 // Disconnect the call from the graph |
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1754 call->disconnect_inputs(NULL); |
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1755 C->gvn_replace_by(call, C->top()); |
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1756 } |
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1757 |
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1758 |
0 | 1759 //------------------------------increment_counter------------------------------ |
1760 // for statistics: increment a VM counter by 1 | |
1761 | |
1762 void GraphKit::increment_counter(address counter_addr) { | |
1763 Node* adr1 = makecon(TypeRawPtr::make(counter_addr)); | |
1764 increment_counter(adr1); | |
1765 } | |
1766 | |
1767 void GraphKit::increment_counter(Node* counter_addr) { | |
1768 int adr_type = Compile::AliasIdxRaw; | |
1769 Node* cnt = make_load(NULL, counter_addr, TypeInt::INT, T_INT, adr_type); | |
1770 Node* incr = _gvn.transform(new (C, 3) AddINode(cnt, _gvn.intcon(1))); | |
1771 store_to_memory( NULL, counter_addr, incr, T_INT, adr_type ); | |
1772 } | |
1773 | |
1774 | |
1775 //------------------------------uncommon_trap---------------------------------- | |
1776 // Bail out to the interpreter in mid-method. Implemented by calling the | |
1777 // uncommon_trap blob. This helper function inserts a runtime call with the | |
1778 // right debug info. | |
1779 void GraphKit::uncommon_trap(int trap_request, | |
1780 ciKlass* klass, const char* comment, | |
1781 bool must_throw, | |
1782 bool keep_exact_action) { | |
1783 if (failing()) stop(); | |
1784 if (stopped()) return; // trap reachable? | |
1785 | |
1786 // Note: If ProfileTraps is true, and if a deopt. actually | |
1787 // occurs here, the runtime will make sure an MDO exists. There is | |
1788 // no need to call method()->build_method_data() at this point. | |
1789 | |
1790 #ifdef ASSERT | |
1791 if (!must_throw) { | |
1792 // Make sure the stack has at least enough depth to execute | |
1793 // the current bytecode. | |
1794 int inputs, ignore; | |
1795 if (compute_stack_effects(inputs, ignore)) { | |
1796 assert(sp() >= inputs, "must have enough JVMS stack to execute"); | |
1797 // It is a frequent error in library_call.cpp to issue an | |
1798 // uncommon trap with the _sp value already popped. | |
1799 } | |
1800 } | |
1801 #endif | |
1802 | |
1803 Deoptimization::DeoptReason reason = Deoptimization::trap_request_reason(trap_request); | |
1804 Deoptimization::DeoptAction action = Deoptimization::trap_request_action(trap_request); | |
1805 | |
1806 switch (action) { | |
1807 case Deoptimization::Action_maybe_recompile: | |
1808 case Deoptimization::Action_reinterpret: | |
1809 // Temporary fix for 6529811 to allow virtual calls to be sure they | |
1810 // get the chance to go from mono->bi->mega | |
1811 if (!keep_exact_action && | |
1812 Deoptimization::trap_request_index(trap_request) < 0 && | |
1813 too_many_recompiles(reason)) { | |
1814 // This BCI is causing too many recompilations. | |
1815 action = Deoptimization::Action_none; | |
1816 trap_request = Deoptimization::make_trap_request(reason, action); | |
1817 } else { | |
1818 C->set_trap_can_recompile(true); | |
1819 } | |
1820 break; | |
1821 case Deoptimization::Action_make_not_entrant: | |
1822 C->set_trap_can_recompile(true); | |
1823 break; | |
1824 #ifdef ASSERT | |
1825 case Deoptimization::Action_none: | |
1826 case Deoptimization::Action_make_not_compilable: | |
1827 break; | |
1828 default: | |
1829 assert(false, "bad action"); | |
1830 #endif | |
1831 } | |
1832 | |
1833 if (TraceOptoParse) { | |
1834 char buf[100]; | |
1835 tty->print_cr("Uncommon trap %s at bci:%d", | |
1836 Deoptimization::format_trap_request(buf, sizeof(buf), | |
1837 trap_request), bci()); | |
1838 } | |
1839 | |
1840 CompileLog* log = C->log(); | |
1841 if (log != NULL) { | |
1842 int kid = (klass == NULL)? -1: log->identify(klass); | |
1843 log->begin_elem("uncommon_trap bci='%d'", bci()); | |
1844 char buf[100]; | |
1845 log->print(" %s", Deoptimization::format_trap_request(buf, sizeof(buf), | |
1846 trap_request)); | |
1847 if (kid >= 0) log->print(" klass='%d'", kid); | |
1848 if (comment != NULL) log->print(" comment='%s'", comment); | |
1849 log->end_elem(); | |
1850 } | |
1851 | |
1852 // Make sure any guarding test views this path as very unlikely | |
1853 Node *i0 = control()->in(0); | |
1854 if (i0 != NULL && i0->is_If()) { // Found a guarding if test? | |
1855 IfNode *iff = i0->as_If(); | |
1856 float f = iff->_prob; // Get prob | |
1857 if (control()->Opcode() == Op_IfTrue) { | |
1858 if (f > PROB_UNLIKELY_MAG(4)) | |
1859 iff->_prob = PROB_MIN; | |
1860 } else { | |
1861 if (f < PROB_LIKELY_MAG(4)) | |
1862 iff->_prob = PROB_MAX; | |
1863 } | |
1864 } | |
1865 | |
1866 // Clear out dead values from the debug info. | |
1867 kill_dead_locals(); | |
1868 | |
1869 // Now insert the uncommon trap subroutine call | |
1870 address call_addr = SharedRuntime::uncommon_trap_blob()->instructions_begin(); | |
1871 const TypePtr* no_memory_effects = NULL; | |
1872 // Pass the index of the class to be loaded | |
1873 Node* call = make_runtime_call(RC_NO_LEAF | RC_UNCOMMON | | |
1874 (must_throw ? RC_MUST_THROW : 0), | |
1875 OptoRuntime::uncommon_trap_Type(), | |
1876 call_addr, "uncommon_trap", no_memory_effects, | |
1877 intcon(trap_request)); | |
1878 assert(call->as_CallStaticJava()->uncommon_trap_request() == trap_request, | |
1879 "must extract request correctly from the graph"); | |
1880 assert(trap_request != 0, "zero value reserved by uncommon_trap_request"); | |
1881 | |
1882 call->set_req(TypeFunc::ReturnAdr, returnadr()); | |
1883 // The debug info is the only real input to this call. | |
1884 | |
1885 // Halt-and-catch fire here. The above call should never return! | |
1886 HaltNode* halt = new(C, TypeFunc::Parms) HaltNode(control(), frameptr()); | |
1887 _gvn.set_type_bottom(halt); | |
1888 root()->add_req(halt); | |
1889 | |
1890 stop_and_kill_map(); | |
1891 } | |
1892 | |
1893 | |
1894 //--------------------------just_allocated_object------------------------------ | |
1895 // Report the object that was just allocated. | |
1896 // It must be the case that there are no intervening safepoints. | |
1897 // We use this to determine if an object is so "fresh" that | |
1898 // it does not require card marks. | |
1899 Node* GraphKit::just_allocated_object(Node* current_control) { | |
1900 if (C->recent_alloc_ctl() == current_control) | |
1901 return C->recent_alloc_obj(); | |
1902 return NULL; | |
1903 } | |
1904 | |
1905 | |
1906 void GraphKit::round_double_arguments(ciMethod* dest_method) { | |
1907 // (Note: TypeFunc::make has a cache that makes this fast.) | |
1908 const TypeFunc* tf = TypeFunc::make(dest_method); | |
1909 int nargs = tf->_domain->_cnt - TypeFunc::Parms; | |
1910 for (int j = 0; j < nargs; j++) { | |
1911 const Type *targ = tf->_domain->field_at(j + TypeFunc::Parms); | |
1912 if( targ->basic_type() == T_DOUBLE ) { | |
1913 // If any parameters are doubles, they must be rounded before | |
1914 // the call, dstore_rounding does gvn.transform | |
1915 Node *arg = argument(j); | |
1916 arg = dstore_rounding(arg); | |
1917 set_argument(j, arg); | |
1918 } | |
1919 } | |
1920 } | |
1921 | |
1922 void GraphKit::round_double_result(ciMethod* dest_method) { | |
1923 // A non-strict method may return a double value which has an extended | |
1924 // exponent, but this must not be visible in a caller which is 'strict' | |
1925 // If a strict caller invokes a non-strict callee, round a double result | |
1926 | |
1927 BasicType result_type = dest_method->return_type()->basic_type(); | |
1928 assert( method() != NULL, "must have caller context"); | |
1929 if( result_type == T_DOUBLE && method()->is_strict() && !dest_method->is_strict() ) { | |
1930 // Destination method's return value is on top of stack | |
1931 // dstore_rounding() does gvn.transform | |
1932 Node *result = pop_pair(); | |
1933 result = dstore_rounding(result); | |
1934 push_pair(result); | |
1935 } | |
1936 } | |
1937 | |
1938 // rounding for strict float precision conformance | |
1939 Node* GraphKit::precision_rounding(Node* n) { | |
1940 return UseStrictFP && _method->flags().is_strict() | |
1941 && UseSSE == 0 && Matcher::strict_fp_requires_explicit_rounding | |
1942 ? _gvn.transform( new (C, 2) RoundFloatNode(0, n) ) | |
1943 : n; | |
1944 } | |
1945 | |
1946 // rounding for strict double precision conformance | |
1947 Node* GraphKit::dprecision_rounding(Node *n) { | |
1948 return UseStrictFP && _method->flags().is_strict() | |
1949 && UseSSE <= 1 && Matcher::strict_fp_requires_explicit_rounding | |
1950 ? _gvn.transform( new (C, 2) RoundDoubleNode(0, n) ) | |
1951 : n; | |
1952 } | |
1953 | |
1954 // rounding for non-strict double stores | |
1955 Node* GraphKit::dstore_rounding(Node* n) { | |
1956 return Matcher::strict_fp_requires_explicit_rounding | |
1957 && UseSSE <= 1 | |
1958 ? _gvn.transform( new (C, 2) RoundDoubleNode(0, n) ) | |
1959 : n; | |
1960 } | |
1961 | |
1962 //============================================================================= | |
1963 // Generate a fast path/slow path idiom. Graph looks like: | |
1964 // [foo] indicates that 'foo' is a parameter | |
1965 // | |
1966 // [in] NULL | |
1967 // \ / | |
1968 // CmpP | |
1969 // Bool ne | |
1970 // If | |
1971 // / \ | |
1972 // True False-<2> | |
1973 // / | | |
1974 // / cast_not_null | |
1975 // Load | | ^ | |
1976 // [fast_test] | | | |
1977 // gvn to opt_test | | | |
1978 // / \ | <1> | |
1979 // True False | | |
1980 // | \\ | | |
1981 // [slow_call] \[fast_result] | |
1982 // Ctl Val \ \ | |
1983 // | \ \ | |
1984 // Catch <1> \ \ | |
1985 // / \ ^ \ \ | |
1986 // Ex No_Ex | \ \ | |
1987 // | \ \ | \ <2> \ | |
1988 // ... \ [slow_res] | | \ [null_result] | |
1989 // \ \--+--+--- | | | |
1990 // \ | / \ | / | |
1991 // --------Region Phi | |
1992 // | |
1993 //============================================================================= | |
1994 // Code is structured as a series of driver functions all called 'do_XXX' that | |
1995 // call a set of helper functions. Helper functions first, then drivers. | |
1996 | |
1997 //------------------------------null_check_oop--------------------------------- | |
1998 // Null check oop. Set null-path control into Region in slot 3. | |
1999 // Make a cast-not-nullness use the other not-null control. Return cast. | |
2000 Node* GraphKit::null_check_oop(Node* value, Node* *null_control, | |
2001 bool never_see_null) { | |
2002 // Initial NULL check taken path | |
2003 (*null_control) = top(); | |
2004 Node* cast = null_check_common(value, T_OBJECT, false, null_control); | |
2005 | |
2006 // Generate uncommon_trap: | |
2007 if (never_see_null && (*null_control) != top()) { | |
2008 // If we see an unexpected null at a check-cast we record it and force a | |
2009 // recompile; the offending check-cast will be compiled to handle NULLs. | |
2010 // If we see more than one offending BCI, then all checkcasts in the | |
2011 // method will be compiled to handle NULLs. | |
2012 PreserveJVMState pjvms(this); | |
2013 set_control(*null_control); | |
332 | 2014 replace_in_map(value, null()); |
0 | 2015 uncommon_trap(Deoptimization::Reason_null_check, |
2016 Deoptimization::Action_make_not_entrant); | |
2017 (*null_control) = top(); // NULL path is dead | |
2018 } | |
2019 | |
2020 // Cast away null-ness on the result | |
2021 return cast; | |
2022 } | |
2023 | |
2024 //------------------------------opt_iff---------------------------------------- | |
2025 // Optimize the fast-check IfNode. Set the fast-path region slot 2. | |
2026 // Return slow-path control. | |
2027 Node* GraphKit::opt_iff(Node* region, Node* iff) { | |
2028 IfNode *opt_iff = _gvn.transform(iff)->as_If(); | |
2029 | |
2030 // Fast path taken; set region slot 2 | |
2031 Node *fast_taken = _gvn.transform( new (C, 1) IfFalseNode(opt_iff) ); | |
2032 region->init_req(2,fast_taken); // Capture fast-control | |
2033 | |
2034 // Fast path not-taken, i.e. slow path | |
2035 Node *slow_taken = _gvn.transform( new (C, 1) IfTrueNode(opt_iff) ); | |
2036 return slow_taken; | |
2037 } | |
2038 | |
2039 //-----------------------------make_runtime_call------------------------------- | |
2040 Node* GraphKit::make_runtime_call(int flags, | |
2041 const TypeFunc* call_type, address call_addr, | |
2042 const char* call_name, | |
2043 const TypePtr* adr_type, | |
2044 // The following parms are all optional. | |
2045 // The first NULL ends the list. | |
2046 Node* parm0, Node* parm1, | |
2047 Node* parm2, Node* parm3, | |
2048 Node* parm4, Node* parm5, | |
2049 Node* parm6, Node* parm7) { | |
2050 // Slow-path call | |
2051 int size = call_type->domain()->cnt(); | |
2052 bool is_leaf = !(flags & RC_NO_LEAF); | |
2053 bool has_io = (!is_leaf && !(flags & RC_NO_IO)); | |
2054 if (call_name == NULL) { | |
2055 assert(!is_leaf, "must supply name for leaf"); | |
2056 call_name = OptoRuntime::stub_name(call_addr); | |
2057 } | |
2058 CallNode* call; | |
2059 if (!is_leaf) { | |
2060 call = new(C, size) CallStaticJavaNode(call_type, call_addr, call_name, | |
2061 bci(), adr_type); | |
2062 } else if (flags & RC_NO_FP) { | |
2063 call = new(C, size) CallLeafNoFPNode(call_type, call_addr, call_name, adr_type); | |
2064 } else { | |
2065 call = new(C, size) CallLeafNode(call_type, call_addr, call_name, adr_type); | |
2066 } | |
2067 | |
2068 // The following is similar to set_edges_for_java_call, | |
2069 // except that the memory effects of the call are restricted to AliasIdxRaw. | |
2070 | |
2071 // Slow path call has no side-effects, uses few values | |
2072 bool wide_in = !(flags & RC_NARROW_MEM); | |
2073 bool wide_out = (C->get_alias_index(adr_type) == Compile::AliasIdxBot); | |
2074 | |
2075 Node* prev_mem = NULL; | |
2076 if (wide_in) { | |
2077 prev_mem = set_predefined_input_for_runtime_call(call); | |
2078 } else { | |
2079 assert(!wide_out, "narrow in => narrow out"); | |
2080 Node* narrow_mem = memory(adr_type); | |
2081 prev_mem = reset_memory(); | |
2082 map()->set_memory(narrow_mem); | |
2083 set_predefined_input_for_runtime_call(call); | |
2084 } | |
2085 | |
2086 // Hook each parm in order. Stop looking at the first NULL. | |
2087 if (parm0 != NULL) { call->init_req(TypeFunc::Parms+0, parm0); | |
2088 if (parm1 != NULL) { call->init_req(TypeFunc::Parms+1, parm1); | |
2089 if (parm2 != NULL) { call->init_req(TypeFunc::Parms+2, parm2); | |
2090 if (parm3 != NULL) { call->init_req(TypeFunc::Parms+3, parm3); | |
2091 if (parm4 != NULL) { call->init_req(TypeFunc::Parms+4, parm4); | |
2092 if (parm5 != NULL) { call->init_req(TypeFunc::Parms+5, parm5); | |
2093 if (parm6 != NULL) { call->init_req(TypeFunc::Parms+6, parm6); | |
2094 if (parm7 != NULL) { call->init_req(TypeFunc::Parms+7, parm7); | |
2095 /* close each nested if ===> */ } } } } } } } } | |
2096 assert(call->in(call->req()-1) != NULL, "must initialize all parms"); | |
2097 | |
2098 if (!is_leaf) { | |
2099 // Non-leaves can block and take safepoints: | |
2100 add_safepoint_edges(call, ((flags & RC_MUST_THROW) != 0)); | |
2101 } | |
2102 // Non-leaves can throw exceptions: | |
2103 if (has_io) { | |
2104 call->set_req(TypeFunc::I_O, i_o()); | |
2105 } | |
2106 | |
2107 if (flags & RC_UNCOMMON) { | |
2108 // Set the count to a tiny probability. Cf. Estimate_Block_Frequency. | |
2109 // (An "if" probability corresponds roughly to an unconditional count. | |
2110 // Sort of.) | |
2111 call->set_cnt(PROB_UNLIKELY_MAG(4)); | |
2112 } | |
2113 | |
2114 Node* c = _gvn.transform(call); | |
2115 assert(c == call, "cannot disappear"); | |
2116 | |
2117 if (wide_out) { | |
2118 // Slow path call has full side-effects. | |
2119 set_predefined_output_for_runtime_call(call); | |
2120 } else { | |
2121 // Slow path call has few side-effects, and/or sets few values. | |
2122 set_predefined_output_for_runtime_call(call, prev_mem, adr_type); | |
2123 } | |
2124 | |
2125 if (has_io) { | |
2126 set_i_o(_gvn.transform(new (C, 1) ProjNode(call, TypeFunc::I_O))); | |
2127 } | |
2128 return call; | |
2129 | |
2130 } | |
2131 | |
2132 //------------------------------merge_memory----------------------------------- | |
2133 // Merge memory from one path into the current memory state. | |
2134 void GraphKit::merge_memory(Node* new_mem, Node* region, int new_path) { | |
2135 for (MergeMemStream mms(merged_memory(), new_mem->as_MergeMem()); mms.next_non_empty2(); ) { | |
2136 Node* old_slice = mms.force_memory(); | |
2137 Node* new_slice = mms.memory2(); | |
2138 if (old_slice != new_slice) { | |
2139 PhiNode* phi; | |
2140 if (new_slice->is_Phi() && new_slice->as_Phi()->region() == region) { | |
2141 phi = new_slice->as_Phi(); | |
2142 #ifdef ASSERT | |
2143 if (old_slice->is_Phi() && old_slice->as_Phi()->region() == region) | |
2144 old_slice = old_slice->in(new_path); | |
2145 // Caller is responsible for ensuring that any pre-existing | |
2146 // phis are already aware of old memory. | |
2147 int old_path = (new_path > 1) ? 1 : 2; // choose old_path != new_path | |
2148 assert(phi->in(old_path) == old_slice, "pre-existing phis OK"); | |
2149 #endif | |
2150 mms.set_memory(phi); | |
2151 } else { | |
2152 phi = PhiNode::make(region, old_slice, Type::MEMORY, mms.adr_type(C)); | |
2153 _gvn.set_type(phi, Type::MEMORY); | |
2154 phi->set_req(new_path, new_slice); | |
2155 mms.set_memory(_gvn.transform(phi)); // assume it is complete | |
2156 } | |
2157 } | |
2158 } | |
2159 } | |
2160 | |
2161 //------------------------------make_slow_call_ex------------------------------ | |
2162 // Make the exception handler hookups for the slow call | |
2163 void GraphKit::make_slow_call_ex(Node* call, ciInstanceKlass* ex_klass, bool separate_io_proj) { | |
2164 if (stopped()) return; | |
2165 | |
2166 // Make a catch node with just two handlers: fall-through and catch-all | |
2167 Node* i_o = _gvn.transform( new (C, 1) ProjNode(call, TypeFunc::I_O, separate_io_proj) ); | |
2168 Node* catc = _gvn.transform( new (C, 2) CatchNode(control(), i_o, 2) ); | |
2169 Node* norm = _gvn.transform( new (C, 1) CatchProjNode(catc, CatchProjNode::fall_through_index, CatchProjNode::no_handler_bci) ); | |
2170 Node* excp = _gvn.transform( new (C, 1) CatchProjNode(catc, CatchProjNode::catch_all_index, CatchProjNode::no_handler_bci) ); | |
2171 | |
2172 { PreserveJVMState pjvms(this); | |
2173 set_control(excp); | |
2174 set_i_o(i_o); | |
2175 | |
2176 if (excp != top()) { | |
2177 // Create an exception state also. | |
2178 // Use an exact type if the caller has specified a specific exception. | |
2179 const Type* ex_type = TypeOopPtr::make_from_klass_unique(ex_klass)->cast_to_ptr_type(TypePtr::NotNull); | |
2180 Node* ex_oop = new (C, 2) CreateExNode(ex_type, control(), i_o); | |
2181 add_exception_state(make_exception_state(_gvn.transform(ex_oop))); | |
2182 } | |
2183 } | |
2184 | |
2185 // Get the no-exception control from the CatchNode. | |
2186 set_control(norm); | |
2187 } | |
2188 | |
2189 | |
2190 //-------------------------------gen_subtype_check----------------------------- | |
2191 // Generate a subtyping check. Takes as input the subtype and supertype. | |
2192 // Returns 2 values: sets the default control() to the true path and returns | |
2193 // the false path. Only reads invariant memory; sets no (visible) memory. | |
2194 // The PartialSubtypeCheckNode sets the hidden 1-word cache in the encoding | |
2195 // but that's not exposed to the optimizer. This call also doesn't take in an | |
2196 // Object; if you wish to check an Object you need to load the Object's class | |
2197 // prior to coming here. | |
2198 Node* GraphKit::gen_subtype_check(Node* subklass, Node* superklass) { | |
2199 // Fast check for identical types, perhaps identical constants. | |
2200 // The types can even be identical non-constants, in cases | |
2201 // involving Array.newInstance, Object.clone, etc. | |
2202 if (subklass == superklass) | |
2203 return top(); // false path is dead; no test needed. | |
2204 | |
2205 if (_gvn.type(superklass)->singleton()) { | |
2206 ciKlass* superk = _gvn.type(superklass)->is_klassptr()->klass(); | |
2207 ciKlass* subk = _gvn.type(subklass)->is_klassptr()->klass(); | |
2208 | |
2209 // In the common case of an exact superklass, try to fold up the | |
2210 // test before generating code. You may ask, why not just generate | |
2211 // the code and then let it fold up? The answer is that the generated | |
2212 // code will necessarily include null checks, which do not always | |
2213 // completely fold away. If they are also needless, then they turn | |
2214 // into a performance loss. Example: | |
2215 // Foo[] fa = blah(); Foo x = fa[0]; fa[1] = x; | |
2216 // Here, the type of 'fa' is often exact, so the store check | |
2217 // of fa[1]=x will fold up, without testing the nullness of x. | |
2218 switch (static_subtype_check(superk, subk)) { | |
2219 case SSC_always_false: | |
2220 { | |
2221 Node* always_fail = control(); | |
2222 set_control(top()); | |
2223 return always_fail; | |
2224 } | |
2225 case SSC_always_true: | |
2226 return top(); | |
2227 case SSC_easy_test: | |
2228 { | |
2229 // Just do a direct pointer compare and be done. | |
2230 Node* cmp = _gvn.transform( new(C, 3) CmpPNode(subklass, superklass) ); | |
2231 Node* bol = _gvn.transform( new(C, 2) BoolNode(cmp, BoolTest::eq) ); | |
2232 IfNode* iff = create_and_xform_if(control(), bol, PROB_STATIC_FREQUENT, COUNT_UNKNOWN); | |
2233 set_control( _gvn.transform( new(C, 1) IfTrueNode (iff) ) ); | |
2234 return _gvn.transform( new(C, 1) IfFalseNode(iff) ); | |
2235 } | |
2236 case SSC_full_test: | |
2237 break; | |
2238 default: | |
2239 ShouldNotReachHere(); | |
2240 } | |
2241 } | |
2242 | |
2243 // %%% Possible further optimization: Even if the superklass is not exact, | |
2244 // if the subklass is the unique subtype of the superklass, the check | |
2245 // will always succeed. We could leave a dependency behind to ensure this. | |
2246 | |
2247 // First load the super-klass's check-offset | |
2248 Node *p1 = basic_plus_adr( superklass, superklass, sizeof(oopDesc) + Klass::super_check_offset_offset_in_bytes() ); | |
2249 Node *chk_off = _gvn.transform( new (C, 3) LoadINode( NULL, memory(p1), p1, _gvn.type(p1)->is_ptr() ) ); | |
2250 int cacheoff_con = sizeof(oopDesc) + Klass::secondary_super_cache_offset_in_bytes(); | |
2251 bool might_be_cache = (find_int_con(chk_off, cacheoff_con) == cacheoff_con); | |
2252 | |
2253 // Load from the sub-klass's super-class display list, or a 1-word cache of | |
2254 // the secondary superclass list, or a failing value with a sentinel offset | |
2255 // if the super-klass is an interface or exceptionally deep in the Java | |
2256 // hierarchy and we have to scan the secondary superclass list the hard way. | |
2257 // Worst-case type is a little odd: NULL is allowed as a result (usually | |
2258 // klass loads can never produce a NULL). | |
2259 Node *chk_off_X = ConvI2X(chk_off); | |
2260 Node *p2 = _gvn.transform( new (C, 4) AddPNode(subklass,subklass,chk_off_X) ); | |
2261 // For some types like interfaces the following loadKlass is from a 1-word | |
2262 // cache which is mutable so can't use immutable memory. Other | |
2263 // types load from the super-class display table which is immutable. | |
2264 Node *kmem = might_be_cache ? memory(p2) : immutable_memory(); | |
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2265 Node *nkls = _gvn.transform( LoadKlassNode::make( _gvn, kmem, p2, _gvn.type(p2)->is_ptr(), TypeKlassPtr::OBJECT_OR_NULL ) ); |
0 | 2266 |
2267 // Compile speed common case: ARE a subtype and we canNOT fail | |
2268 if( superklass == nkls ) | |
2269 return top(); // false path is dead; no test needed. | |
2270 | |
2271 // See if we get an immediate positive hit. Happens roughly 83% of the | |
2272 // time. Test to see if the value loaded just previously from the subklass | |
2273 // is exactly the superklass. | |
2274 Node *cmp1 = _gvn.transform( new (C, 3) CmpPNode( superklass, nkls ) ); | |
2275 Node *bol1 = _gvn.transform( new (C, 2) BoolNode( cmp1, BoolTest::eq ) ); | |
2276 IfNode *iff1 = create_and_xform_if( control(), bol1, PROB_LIKELY(0.83f), COUNT_UNKNOWN ); | |
2277 Node *iftrue1 = _gvn.transform( new (C, 1) IfTrueNode ( iff1 ) ); | |
2278 set_control( _gvn.transform( new (C, 1) IfFalseNode( iff1 ) ) ); | |
2279 | |
2280 // Compile speed common case: Check for being deterministic right now. If | |
2281 // chk_off is a constant and not equal to cacheoff then we are NOT a | |
2282 // subklass. In this case we need exactly the 1 test above and we can | |
2283 // return those results immediately. | |
2284 if (!might_be_cache) { | |
2285 Node* not_subtype_ctrl = control(); | |
2286 set_control(iftrue1); // We need exactly the 1 test above | |
2287 return not_subtype_ctrl; | |
2288 } | |
2289 | |
2290 // Gather the various success & failures here | |
2291 RegionNode *r_ok_subtype = new (C, 4) RegionNode(4); | |
2292 record_for_igvn(r_ok_subtype); | |
2293 RegionNode *r_not_subtype = new (C, 3) RegionNode(3); | |
2294 record_for_igvn(r_not_subtype); | |
2295 | |
2296 r_ok_subtype->init_req(1, iftrue1); | |
2297 | |
2298 // Check for immediate negative hit. Happens roughly 11% of the time (which | |
2299 // is roughly 63% of the remaining cases). Test to see if the loaded | |
2300 // check-offset points into the subklass display list or the 1-element | |
2301 // cache. If it points to the display (and NOT the cache) and the display | |
2302 // missed then it's not a subtype. | |
2303 Node *cacheoff = _gvn.intcon(cacheoff_con); | |
2304 Node *cmp2 = _gvn.transform( new (C, 3) CmpINode( chk_off, cacheoff ) ); | |
2305 Node *bol2 = _gvn.transform( new (C, 2) BoolNode( cmp2, BoolTest::ne ) ); | |
2306 IfNode *iff2 = create_and_xform_if( control(), bol2, PROB_LIKELY(0.63f), COUNT_UNKNOWN ); | |
2307 r_not_subtype->init_req(1, _gvn.transform( new (C, 1) IfTrueNode (iff2) ) ); | |
2308 set_control( _gvn.transform( new (C, 1) IfFalseNode(iff2) ) ); | |
2309 | |
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2310 // Check for self. Very rare to get here, but it is taken 1/3 the time. |
0 | 2311 // No performance impact (too rare) but allows sharing of secondary arrays |
2312 // which has some footprint reduction. | |
2313 Node *cmp3 = _gvn.transform( new (C, 3) CmpPNode( subklass, superklass ) ); | |
2314 Node *bol3 = _gvn.transform( new (C, 2) BoolNode( cmp3, BoolTest::eq ) ); | |
2315 IfNode *iff3 = create_and_xform_if( control(), bol3, PROB_LIKELY(0.36f), COUNT_UNKNOWN ); | |
2316 r_ok_subtype->init_req(2, _gvn.transform( new (C, 1) IfTrueNode ( iff3 ) ) ); | |
2317 set_control( _gvn.transform( new (C, 1) IfFalseNode( iff3 ) ) ); | |
2318 | |
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2319 // -- Roads not taken here: -- |
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2320 // We could also have chosen to perform the self-check at the beginning |
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2321 // of this code sequence, as the assembler does. This would not pay off |
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2322 // the same way, since the optimizer, unlike the assembler, can perform |
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2323 // static type analysis to fold away many successful self-checks. |
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2324 // Non-foldable self checks work better here in second position, because |
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2325 // the initial primary superclass check subsumes a self-check for most |
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2326 // types. An exception would be a secondary type like array-of-interface, |
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2327 // which does not appear in its own primary supertype display. |
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2328 // Finally, we could have chosen to move the self-check into the |
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2329 // PartialSubtypeCheckNode, and from there out-of-line in a platform |
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2330 // dependent manner. But it is worthwhile to have the check here, |
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2331 // where it can be perhaps be optimized. The cost in code space is |
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2332 // small (register compare, branch). |
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2333 |
0 | 2334 // Now do a linear scan of the secondary super-klass array. Again, no real |
2335 // performance impact (too rare) but it's gotta be done. | |
2336 // Since the code is rarely used, there is no penalty for moving it | |
644
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2337 // out of line, and it can only improve I-cache density. |
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2338 // The decision to inline or out-of-line this final check is platform |
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2339 // dependent, and is found in the AD file definition of PartialSubtypeCheck. |
0 | 2340 Node* psc = _gvn.transform( |
2341 new (C, 3) PartialSubtypeCheckNode(control(), subklass, superklass) ); | |
2342 | |
2343 Node *cmp4 = _gvn.transform( new (C, 3) CmpPNode( psc, null() ) ); | |
2344 Node *bol4 = _gvn.transform( new (C, 2) BoolNode( cmp4, BoolTest::ne ) ); | |
2345 IfNode *iff4 = create_and_xform_if( control(), bol4, PROB_FAIR, COUNT_UNKNOWN ); | |
2346 r_not_subtype->init_req(2, _gvn.transform( new (C, 1) IfTrueNode (iff4) ) ); | |
2347 r_ok_subtype ->init_req(3, _gvn.transform( new (C, 1) IfFalseNode(iff4) ) ); | |
2348 | |
2349 // Return false path; set default control to true path. | |
2350 set_control( _gvn.transform(r_ok_subtype) ); | |
2351 return _gvn.transform(r_not_subtype); | |
2352 } | |
2353 | |
2354 //----------------------------static_subtype_check----------------------------- | |
2355 // Shortcut important common cases when superklass is exact: | |
2356 // (0) superklass is java.lang.Object (can occur in reflective code) | |
2357 // (1) subklass is already limited to a subtype of superklass => always ok | |
2358 // (2) subklass does not overlap with superklass => always fail | |
2359 // (3) superklass has NO subtypes and we can check with a simple compare. | |
2360 int GraphKit::static_subtype_check(ciKlass* superk, ciKlass* subk) { | |
2361 if (StressReflectiveCode) { | |
2362 return SSC_full_test; // Let caller generate the general case. | |
2363 } | |
2364 | |
2365 if (superk == env()->Object_klass()) { | |
2366 return SSC_always_true; // (0) this test cannot fail | |
2367 } | |
2368 | |
2369 ciType* superelem = superk; | |
2370 if (superelem->is_array_klass()) | |
2371 superelem = superelem->as_array_klass()->base_element_type(); | |
2372 | |
2373 if (!subk->is_interface()) { // cannot trust static interface types yet | |
2374 if (subk->is_subtype_of(superk)) { | |
2375 return SSC_always_true; // (1) false path dead; no dynamic test needed | |
2376 } | |
2377 if (!(superelem->is_klass() && superelem->as_klass()->is_interface()) && | |
2378 !superk->is_subtype_of(subk)) { | |
2379 return SSC_always_false; | |
2380 } | |
2381 } | |
2382 | |
2383 // If casting to an instance klass, it must have no subtypes | |
2384 if (superk->is_interface()) { | |
2385 // Cannot trust interfaces yet. | |
2386 // %%% S.B. superk->nof_implementors() == 1 | |
2387 } else if (superelem->is_instance_klass()) { | |
2388 ciInstanceKlass* ik = superelem->as_instance_klass(); | |
2389 if (!ik->has_subklass() && !ik->is_interface()) { | |
2390 if (!ik->is_final()) { | |
2391 // Add a dependency if there is a chance of a later subclass. | |
2392 C->dependencies()->assert_leaf_type(ik); | |
2393 } | |
2394 return SSC_easy_test; // (3) caller can do a simple ptr comparison | |
2395 } | |
2396 } else { | |
2397 // A primitive array type has no subtypes. | |
2398 return SSC_easy_test; // (3) caller can do a simple ptr comparison | |
2399 } | |
2400 | |
2401 return SSC_full_test; | |
2402 } | |
2403 | |
2404 // Profile-driven exact type check: | |
2405 Node* GraphKit::type_check_receiver(Node* receiver, ciKlass* klass, | |
2406 float prob, | |
2407 Node* *casted_receiver) { | |
2408 const TypeKlassPtr* tklass = TypeKlassPtr::make(klass); | |
2409 Node* recv_klass = load_object_klass(receiver); | |
2410 Node* want_klass = makecon(tklass); | |
2411 Node* cmp = _gvn.transform( new(C, 3) CmpPNode(recv_klass, want_klass) ); | |
2412 Node* bol = _gvn.transform( new(C, 2) BoolNode(cmp, BoolTest::eq) ); | |
2413 IfNode* iff = create_and_xform_if(control(), bol, prob, COUNT_UNKNOWN); | |
2414 set_control( _gvn.transform( new(C, 1) IfTrueNode (iff) )); | |
2415 Node* fail = _gvn.transform( new(C, 1) IfFalseNode(iff) ); | |
2416 | |
2417 const TypeOopPtr* recv_xtype = tklass->as_instance_type(); | |
2418 assert(recv_xtype->klass_is_exact(), ""); | |
2419 | |
2420 // Subsume downstream occurrences of receiver with a cast to | |
2421 // recv_xtype, since now we know what the type will be. | |
2422 Node* cast = new(C, 2) CheckCastPPNode(control(), receiver, recv_xtype); | |
2423 (*casted_receiver) = _gvn.transform(cast); | |
2424 // (User must make the replace_in_map call.) | |
2425 | |
2426 return fail; | |
2427 } | |
2428 | |
2429 | |
2430 //-------------------------------gen_instanceof-------------------------------- | |
2431 // Generate an instance-of idiom. Used by both the instance-of bytecode | |
2432 // and the reflective instance-of call. | |
2433 Node* GraphKit::gen_instanceof( Node *subobj, Node* superklass ) { | |
2434 C->set_has_split_ifs(true); // Has chance for split-if optimization | |
2435 assert( !stopped(), "dead parse path should be checked in callers" ); | |
2436 assert(!TypePtr::NULL_PTR->higher_equal(_gvn.type(superklass)->is_klassptr()), | |
2437 "must check for not-null not-dead klass in callers"); | |
2438 | |
2439 // Make the merge point | |
2440 enum { _obj_path = 1, _fail_path, _null_path, PATH_LIMIT }; | |
2441 RegionNode* region = new(C, PATH_LIMIT) RegionNode(PATH_LIMIT); | |
2442 Node* phi = new(C, PATH_LIMIT) PhiNode(region, TypeInt::BOOL); | |
2443 C->set_has_split_ifs(true); // Has chance for split-if optimization | |
2444 | |
2445 // Null check; get casted pointer; set region slot 3 | |
2446 Node* null_ctl = top(); | |
2447 Node* not_null_obj = null_check_oop(subobj, &null_ctl); | |
2448 | |
2449 // If not_null_obj is dead, only null-path is taken | |
2450 if (stopped()) { // Doing instance-of on a NULL? | |
2451 set_control(null_ctl); | |
2452 return intcon(0); | |
2453 } | |
2454 region->init_req(_null_path, null_ctl); | |
2455 phi ->init_req(_null_path, intcon(0)); // Set null path value | |
2456 | |
2457 // Load the object's klass | |
2458 Node* obj_klass = load_object_klass(not_null_obj); | |
2459 | |
2460 // Generate the subtype check | |
2461 Node* not_subtype_ctrl = gen_subtype_check(obj_klass, superklass); | |
2462 | |
2463 // Plug in the success path to the general merge in slot 1. | |
2464 region->init_req(_obj_path, control()); | |
2465 phi ->init_req(_obj_path, intcon(1)); | |
2466 | |
2467 // Plug in the failing path to the general merge in slot 2. | |
2468 region->init_req(_fail_path, not_subtype_ctrl); | |
2469 phi ->init_req(_fail_path, intcon(0)); | |
2470 | |
2471 // Return final merged results | |
2472 set_control( _gvn.transform(region) ); | |
2473 record_for_igvn(region); | |
2474 return _gvn.transform(phi); | |
2475 } | |
2476 | |
2477 //-------------------------------gen_checkcast--------------------------------- | |
2478 // Generate a checkcast idiom. Used by both the checkcast bytecode and the | |
2479 // array store bytecode. Stack must be as-if BEFORE doing the bytecode so the | |
2480 // uncommon-trap paths work. Adjust stack after this call. | |
2481 // If failure_control is supplied and not null, it is filled in with | |
2482 // the control edge for the cast failure. Otherwise, an appropriate | |
2483 // uncommon trap or exception is thrown. | |
2484 Node* GraphKit::gen_checkcast(Node *obj, Node* superklass, | |
2485 Node* *failure_control) { | |
2486 kill_dead_locals(); // Benefit all the uncommon traps | |
2487 const TypeKlassPtr *tk = _gvn.type(superklass)->is_klassptr(); | |
2488 const Type *toop = TypeOopPtr::make_from_klass(tk->klass()); | |
2489 | |
2490 // Fast cutout: Check the case that the cast is vacuously true. | |
2491 // This detects the common cases where the test will short-circuit | |
2492 // away completely. We do this before we perform the null check, | |
2493 // because if the test is going to turn into zero code, we don't | |
2494 // want a residual null check left around. (Causes a slowdown, | |
2495 // for example, in some objArray manipulations, such as a[i]=a[j].) | |
2496 if (tk->singleton()) { | |
2497 const TypeOopPtr* objtp = _gvn.type(obj)->isa_oopptr(); | |
2498 if (objtp != NULL && objtp->klass() != NULL) { | |
2499 switch (static_subtype_check(tk->klass(), objtp->klass())) { | |
2500 case SSC_always_true: | |
2501 return obj; | |
2502 case SSC_always_false: | |
2503 // It needs a null check because a null will *pass* the cast check. | |
2504 // A non-null value will always produce an exception. | |
2505 return do_null_assert(obj, T_OBJECT); | |
2506 } | |
2507 } | |
2508 } | |
2509 | |
2510 ciProfileData* data = NULL; | |
2511 if (failure_control == NULL) { // use MDO in regular case only | |
2512 assert(java_bc() == Bytecodes::_aastore || | |
2513 java_bc() == Bytecodes::_checkcast, | |
2514 "interpreter profiles type checks only for these BCs"); | |
2515 data = method()->method_data()->bci_to_data(bci()); | |
2516 } | |
2517 | |
2518 // Make the merge point | |
2519 enum { _obj_path = 1, _null_path, PATH_LIMIT }; | |
2520 RegionNode* region = new (C, PATH_LIMIT) RegionNode(PATH_LIMIT); | |
2521 Node* phi = new (C, PATH_LIMIT) PhiNode(region, toop); | |
2522 C->set_has_split_ifs(true); // Has chance for split-if optimization | |
2523 | |
2524 // Use null-cast information if it is available | |
2525 bool never_see_null = false; | |
2526 // If we see an unexpected null at a check-cast we record it and force a | |
2527 // recompile; the offending check-cast will be compiled to handle NULLs. | |
2528 // If we see several offending BCIs, then all checkcasts in the | |
2529 // method will be compiled to handle NULLs. | |
2530 if (UncommonNullCast // Cutout for this technique | |
2531 && failure_control == NULL // regular case | |
2532 && obj != null() // And not the -Xcomp stupid case? | |
2533 && !too_many_traps(Deoptimization::Reason_null_check)) { | |
2534 // Finally, check the "null_seen" bit from the interpreter. | |
2535 if (data == NULL || !data->as_BitData()->null_seen()) { | |
2536 never_see_null = true; | |
2537 } | |
2538 } | |
2539 | |
2540 // Null check; get casted pointer; set region slot 3 | |
2541 Node* null_ctl = top(); | |
2542 Node* not_null_obj = null_check_oop(obj, &null_ctl, never_see_null); | |
2543 | |
2544 // If not_null_obj is dead, only null-path is taken | |
2545 if (stopped()) { // Doing instance-of on a NULL? | |
2546 set_control(null_ctl); | |
2547 return null(); | |
2548 } | |
2549 region->init_req(_null_path, null_ctl); | |
2550 phi ->init_req(_null_path, null()); // Set null path value | |
2551 | |
2552 Node* cast_obj = NULL; // the casted version of the object | |
2553 | |
2554 // If the profile has seen exactly one type, narrow to that type. | |
2555 // (The subsequent subtype check will always fold up.) | |
2556 if (UseTypeProfile && TypeProfileCasts && data != NULL && | |
2557 // Counter has never been decremented (due to cast failure). | |
2558 // ...This is a reasonable thing to expect. It is true of | |
2559 // all casts inserted by javac to implement generic types. | |
2560 data->as_CounterData()->count() >= 0 && | |
2561 !too_many_traps(Deoptimization::Reason_class_check)) { | |
2562 // (No, this isn't a call, but it's enough like a virtual call | |
2563 // to use the same ciMethod accessor to get the profile info...) | |
2564 ciCallProfile profile = method()->call_profile_at_bci(bci()); | |
2565 if (profile.count() >= 0 && // no cast failures here | |
2566 profile.has_receiver(0) && | |
2567 profile.morphism() == 1) { | |
2568 ciKlass* exact_kls = profile.receiver(0); | |
2569 int ssc = static_subtype_check(tk->klass(), exact_kls); | |
2570 if (ssc == SSC_always_true) { | |
2571 // If we narrow the type to match what the type profile sees, | |
2572 // we can then remove the rest of the cast. | |
2573 // This is a win, even if the exact_kls is very specific, | |
2574 // because downstream operations, such as method calls, | |
2575 // will often benefit from the sharper type. | |
2576 Node* exact_obj = not_null_obj; // will get updated in place... | |
2577 Node* slow_ctl = type_check_receiver(exact_obj, exact_kls, 1.0, | |
2578 &exact_obj); | |
2579 { PreserveJVMState pjvms(this); | |
2580 set_control(slow_ctl); | |
2581 uncommon_trap(Deoptimization::Reason_class_check, | |
2582 Deoptimization::Action_maybe_recompile); | |
2583 } | |
2584 if (failure_control != NULL) // failure is now impossible | |
2585 (*failure_control) = top(); | |
2586 replace_in_map(not_null_obj, exact_obj); | |
2587 // adjust the type of the phi to the exact klass: | |
2588 phi->raise_bottom_type(_gvn.type(exact_obj)->meet(TypePtr::NULL_PTR)); | |
2589 cast_obj = exact_obj; | |
2590 } | |
2591 // assert(cast_obj != NULL)... except maybe the profile lied to us. | |
2592 } | |
2593 } | |
2594 | |
2595 if (cast_obj == NULL) { | |
2596 // Load the object's klass | |
2597 Node* obj_klass = load_object_klass(not_null_obj); | |
2598 | |
2599 // Generate the subtype check | |
2600 Node* not_subtype_ctrl = gen_subtype_check( obj_klass, superklass ); | |
2601 | |
2602 // Plug in success path into the merge | |
2603 cast_obj = _gvn.transform(new (C, 2) CheckCastPPNode(control(), | |
2604 not_null_obj, toop)); | |
2605 // Failure path ends in uncommon trap (or may be dead - failure impossible) | |
2606 if (failure_control == NULL) { | |
2607 if (not_subtype_ctrl != top()) { // If failure is possible | |
2608 PreserveJVMState pjvms(this); | |
2609 set_control(not_subtype_ctrl); | |
2610 builtin_throw(Deoptimization::Reason_class_check, obj_klass); | |
2611 } | |
2612 } else { | |
2613 (*failure_control) = not_subtype_ctrl; | |
2614 } | |
2615 } | |
2616 | |
2617 region->init_req(_obj_path, control()); | |
2618 phi ->init_req(_obj_path, cast_obj); | |
2619 | |
2620 // A merge of NULL or Casted-NotNull obj | |
2621 Node* res = _gvn.transform(phi); | |
2622 | |
2623 // Note I do NOT always 'replace_in_map(obj,result)' here. | |
2624 // if( tk->klass()->can_be_primary_super() ) | |
2625 // This means that if I successfully store an Object into an array-of-String | |
2626 // I 'forget' that the Object is really now known to be a String. I have to | |
2627 // do this because we don't have true union types for interfaces - if I store | |
2628 // a Baz into an array-of-Interface and then tell the optimizer it's an | |
2629 // Interface, I forget that it's also a Baz and cannot do Baz-like field | |
2630 // references to it. FIX THIS WHEN UNION TYPES APPEAR! | |
2631 // replace_in_map( obj, res ); | |
2632 | |
2633 // Return final merged results | |
2634 set_control( _gvn.transform(region) ); | |
2635 record_for_igvn(region); | |
2636 return res; | |
2637 } | |
2638 | |
2639 //------------------------------next_monitor----------------------------------- | |
2640 // What number should be given to the next monitor? | |
2641 int GraphKit::next_monitor() { | |
2642 int current = jvms()->monitor_depth()* C->sync_stack_slots(); | |
2643 int next = current + C->sync_stack_slots(); | |
2644 // Keep the toplevel high water mark current: | |
2645 if (C->fixed_slots() < next) C->set_fixed_slots(next); | |
2646 return current; | |
2647 } | |
2648 | |
2649 //------------------------------insert_mem_bar--------------------------------- | |
2650 // Memory barrier to avoid floating things around | |
2651 // The membar serves as a pinch point between both control and all memory slices. | |
2652 Node* GraphKit::insert_mem_bar(int opcode, Node* precedent) { | |
2653 MemBarNode* mb = MemBarNode::make(C, opcode, Compile::AliasIdxBot, precedent); | |
2654 mb->init_req(TypeFunc::Control, control()); | |
2655 mb->init_req(TypeFunc::Memory, reset_memory()); | |
2656 Node* membar = _gvn.transform(mb); | |
2657 set_control(_gvn.transform(new (C, 1) ProjNode(membar,TypeFunc::Control) )); | |
2658 set_all_memory_call(membar); | |
2659 return membar; | |
2660 } | |
2661 | |
2662 //-------------------------insert_mem_bar_volatile---------------------------- | |
2663 // Memory barrier to avoid floating things around | |
2664 // The membar serves as a pinch point between both control and memory(alias_idx). | |
2665 // If you want to make a pinch point on all memory slices, do not use this | |
2666 // function (even with AliasIdxBot); use insert_mem_bar() instead. | |
2667 Node* GraphKit::insert_mem_bar_volatile(int opcode, int alias_idx, Node* precedent) { | |
2668 // When Parse::do_put_xxx updates a volatile field, it appends a series | |
2669 // of MemBarVolatile nodes, one for *each* volatile field alias category. | |
2670 // The first membar is on the same memory slice as the field store opcode. | |
2671 // This forces the membar to follow the store. (Bug 6500685 broke this.) | |
2672 // All the other membars (for other volatile slices, including AliasIdxBot, | |
2673 // which stands for all unknown volatile slices) are control-dependent | |
2674 // on the first membar. This prevents later volatile loads or stores | |
2675 // from sliding up past the just-emitted store. | |
2676 | |
2677 MemBarNode* mb = MemBarNode::make(C, opcode, alias_idx, precedent); | |
2678 mb->set_req(TypeFunc::Control,control()); | |
2679 if (alias_idx == Compile::AliasIdxBot) { | |
2680 mb->set_req(TypeFunc::Memory, merged_memory()->base_memory()); | |
2681 } else { | |
2682 assert(!(opcode == Op_Initialize && alias_idx != Compile::AliasIdxRaw), "fix caller"); | |
2683 mb->set_req(TypeFunc::Memory, memory(alias_idx)); | |
2684 } | |
2685 Node* membar = _gvn.transform(mb); | |
2686 set_control(_gvn.transform(new (C, 1) ProjNode(membar, TypeFunc::Control))); | |
2687 if (alias_idx == Compile::AliasIdxBot) { | |
2688 merged_memory()->set_base_memory(_gvn.transform(new (C, 1) ProjNode(membar, TypeFunc::Memory))); | |
2689 } else { | |
2690 set_memory(_gvn.transform(new (C, 1) ProjNode(membar, TypeFunc::Memory)),alias_idx); | |
2691 } | |
2692 return membar; | |
2693 } | |
2694 | |
2695 //------------------------------shared_lock------------------------------------ | |
2696 // Emit locking code. | |
2697 FastLockNode* GraphKit::shared_lock(Node* obj) { | |
2698 // bci is either a monitorenter bc or InvocationEntryBci | |
2699 // %%% SynchronizationEntryBCI is redundant; use InvocationEntryBci in interfaces | |
2700 assert(SynchronizationEntryBCI == InvocationEntryBci, ""); | |
2701 | |
2702 if( !GenerateSynchronizationCode ) | |
2703 return NULL; // Not locking things? | |
2704 if (stopped()) // Dead monitor? | |
2705 return NULL; | |
2706 | |
2707 assert(dead_locals_are_killed(), "should kill locals before sync. point"); | |
2708 | |
2709 // Box the stack location | |
2710 Node* box = _gvn.transform(new (C, 1) BoxLockNode(next_monitor())); | |
2711 Node* mem = reset_memory(); | |
2712 | |
2713 FastLockNode * flock = _gvn.transform(new (C, 3) FastLockNode(0, obj, box) )->as_FastLock(); | |
2714 if (PrintPreciseBiasedLockingStatistics) { | |
2715 // Create the counters for this fast lock. | |
2716 flock->create_lock_counter(sync_jvms()); // sync_jvms used to get current bci | |
2717 } | |
2718 // Add monitor to debug info for the slow path. If we block inside the | |
2719 // slow path and de-opt, we need the monitor hanging around | |
2720 map()->push_monitor( flock ); | |
2721 | |
2722 const TypeFunc *tf = LockNode::lock_type(); | |
2723 LockNode *lock = new (C, tf->domain()->cnt()) LockNode(C, tf); | |
2724 | |
2725 lock->init_req( TypeFunc::Control, control() ); | |
2726 lock->init_req( TypeFunc::Memory , mem ); | |
2727 lock->init_req( TypeFunc::I_O , top() ) ; // does no i/o | |
2728 lock->init_req( TypeFunc::FramePtr, frameptr() ); | |
2729 lock->init_req( TypeFunc::ReturnAdr, top() ); | |
2730 | |
2731 lock->init_req(TypeFunc::Parms + 0, obj); | |
2732 lock->init_req(TypeFunc::Parms + 1, box); | |
2733 lock->init_req(TypeFunc::Parms + 2, flock); | |
2734 add_safepoint_edges(lock); | |
2735 | |
2736 lock = _gvn.transform( lock )->as_Lock(); | |
2737 | |
2738 // lock has no side-effects, sets few values | |
2739 set_predefined_output_for_runtime_call(lock, mem, TypeRawPtr::BOTTOM); | |
2740 | |
2741 insert_mem_bar(Op_MemBarAcquire); | |
2742 | |
2743 // Add this to the worklist so that the lock can be eliminated | |
2744 record_for_igvn(lock); | |
2745 | |
2746 #ifndef PRODUCT | |
2747 if (PrintLockStatistics) { | |
2748 // Update the counter for this lock. Don't bother using an atomic | |
2749 // operation since we don't require absolute accuracy. | |
2750 lock->create_lock_counter(map()->jvms()); | |
2751 int adr_type = Compile::AliasIdxRaw; | |
2752 Node* counter_addr = makecon(TypeRawPtr::make(lock->counter()->addr())); | |
2753 Node* cnt = make_load(NULL, counter_addr, TypeInt::INT, T_INT, adr_type); | |
2754 Node* incr = _gvn.transform(new (C, 3) AddINode(cnt, _gvn.intcon(1))); | |
2755 store_to_memory(control(), counter_addr, incr, T_INT, adr_type); | |
2756 } | |
2757 #endif | |
2758 | |
2759 return flock; | |
2760 } | |
2761 | |
2762 | |
2763 //------------------------------shared_unlock---------------------------------- | |
2764 // Emit unlocking code. | |
2765 void GraphKit::shared_unlock(Node* box, Node* obj) { | |
2766 // bci is either a monitorenter bc or InvocationEntryBci | |
2767 // %%% SynchronizationEntryBCI is redundant; use InvocationEntryBci in interfaces | |
2768 assert(SynchronizationEntryBCI == InvocationEntryBci, ""); | |
2769 | |
2770 if( !GenerateSynchronizationCode ) | |
2771 return; | |
2772 if (stopped()) { // Dead monitor? | |
2773 map()->pop_monitor(); // Kill monitor from debug info | |
2774 return; | |
2775 } | |
2776 | |
2777 // Memory barrier to avoid floating things down past the locked region | |
2778 insert_mem_bar(Op_MemBarRelease); | |
2779 | |
2780 const TypeFunc *tf = OptoRuntime::complete_monitor_exit_Type(); | |
2781 UnlockNode *unlock = new (C, tf->domain()->cnt()) UnlockNode(C, tf); | |
2782 uint raw_idx = Compile::AliasIdxRaw; | |
2783 unlock->init_req( TypeFunc::Control, control() ); | |
2784 unlock->init_req( TypeFunc::Memory , memory(raw_idx) ); | |
2785 unlock->init_req( TypeFunc::I_O , top() ) ; // does no i/o | |
2786 unlock->init_req( TypeFunc::FramePtr, frameptr() ); | |
2787 unlock->init_req( TypeFunc::ReturnAdr, top() ); | |
2788 | |
2789 unlock->init_req(TypeFunc::Parms + 0, obj); | |
2790 unlock->init_req(TypeFunc::Parms + 1, box); | |
2791 unlock = _gvn.transform(unlock)->as_Unlock(); | |
2792 | |
2793 Node* mem = reset_memory(); | |
2794 | |
2795 // unlock has no side-effects, sets few values | |
2796 set_predefined_output_for_runtime_call(unlock, mem, TypeRawPtr::BOTTOM); | |
2797 | |
2798 // Kill monitor from debug info | |
2799 map()->pop_monitor( ); | |
2800 } | |
2801 | |
2802 //-------------------------------get_layout_helper----------------------------- | |
2803 // If the given klass is a constant or known to be an array, | |
2804 // fetch the constant layout helper value into constant_value | |
2805 // and return (Node*)NULL. Otherwise, load the non-constant | |
2806 // layout helper value, and return the node which represents it. | |
2807 // This two-faced routine is useful because allocation sites | |
2808 // almost always feature constant types. | |
2809 Node* GraphKit::get_layout_helper(Node* klass_node, jint& constant_value) { | |
2810 const TypeKlassPtr* inst_klass = _gvn.type(klass_node)->isa_klassptr(); | |
2811 if (!StressReflectiveCode && inst_klass != NULL) { | |
2812 ciKlass* klass = inst_klass->klass(); | |
2813 bool xklass = inst_klass->klass_is_exact(); | |
2814 if (xklass || klass->is_array_klass()) { | |
2815 jint lhelper = klass->layout_helper(); | |
2816 if (lhelper != Klass::_lh_neutral_value) { | |
2817 constant_value = lhelper; | |
2818 return (Node*) NULL; | |
2819 } | |
2820 } | |
2821 } | |
2822 constant_value = Klass::_lh_neutral_value; // put in a known value | |
2823 Node* lhp = basic_plus_adr(klass_node, klass_node, Klass::layout_helper_offset_in_bytes() + sizeof(oopDesc)); | |
2824 return make_load(NULL, lhp, TypeInt::INT, T_INT); | |
2825 } | |
2826 | |
2827 // We just put in an allocate/initialize with a big raw-memory effect. | |
2828 // Hook selected additional alias categories on the initialization. | |
2829 static void hook_memory_on_init(GraphKit& kit, int alias_idx, | |
2830 MergeMemNode* init_in_merge, | |
2831 Node* init_out_raw) { | |
2832 DEBUG_ONLY(Node* init_in_raw = init_in_merge->base_memory()); | |
2833 assert(init_in_merge->memory_at(alias_idx) == init_in_raw, ""); | |
2834 | |
2835 Node* prevmem = kit.memory(alias_idx); | |
2836 init_in_merge->set_memory_at(alias_idx, prevmem); | |
2837 kit.set_memory(init_out_raw, alias_idx); | |
2838 } | |
2839 | |
2840 //---------------------------set_output_for_allocation------------------------- | |
2841 Node* GraphKit::set_output_for_allocation(AllocateNode* alloc, | |
2842 const TypeOopPtr* oop_type, | |
2843 bool raw_mem_only) { | |
2844 int rawidx = Compile::AliasIdxRaw; | |
2845 alloc->set_req( TypeFunc::FramePtr, frameptr() ); | |
2846 add_safepoint_edges(alloc); | |
2847 Node* allocx = _gvn.transform(alloc); | |
2848 set_control( _gvn.transform(new (C, 1) ProjNode(allocx, TypeFunc::Control) ) ); | |
2849 // create memory projection for i_o | |
2850 set_memory ( _gvn.transform( new (C, 1) ProjNode(allocx, TypeFunc::Memory, true) ), rawidx ); | |
2851 make_slow_call_ex(allocx, env()->OutOfMemoryError_klass(), true); | |
2852 | |
2853 // create a memory projection as for the normal control path | |
2854 Node* malloc = _gvn.transform(new (C, 1) ProjNode(allocx, TypeFunc::Memory)); | |
2855 set_memory(malloc, rawidx); | |
2856 | |
2857 // a normal slow-call doesn't change i_o, but an allocation does | |
2858 // we create a separate i_o projection for the normal control path | |
2859 set_i_o(_gvn.transform( new (C, 1) ProjNode(allocx, TypeFunc::I_O, false) ) ); | |
2860 Node* rawoop = _gvn.transform( new (C, 1) ProjNode(allocx, TypeFunc::Parms) ); | |
2861 | |
2862 // put in an initialization barrier | |
2863 InitializeNode* init = insert_mem_bar_volatile(Op_Initialize, rawidx, | |
2864 rawoop)->as_Initialize(); | |
2865 assert(alloc->initialization() == init, "2-way macro link must work"); | |
2866 assert(init ->allocation() == alloc, "2-way macro link must work"); | |
2867 if (ReduceFieldZeroing && !raw_mem_only) { | |
2868 // Extract memory strands which may participate in the new object's | |
2869 // initialization, and source them from the new InitializeNode. | |
2870 // This will allow us to observe initializations when they occur, | |
2871 // and link them properly (as a group) to the InitializeNode. | |
2872 assert(init->in(InitializeNode::Memory) == malloc, ""); | |
2873 MergeMemNode* minit_in = MergeMemNode::make(C, malloc); | |
2874 init->set_req(InitializeNode::Memory, minit_in); | |
2875 record_for_igvn(minit_in); // fold it up later, if possible | |
2876 Node* minit_out = memory(rawidx); | |
2877 assert(minit_out->is_Proj() && minit_out->in(0) == init, ""); | |
2878 if (oop_type->isa_aryptr()) { | |
2879 const TypePtr* telemref = oop_type->add_offset(Type::OffsetBot); | |
2880 int elemidx = C->get_alias_index(telemref); | |
2881 hook_memory_on_init(*this, elemidx, minit_in, minit_out); | |
2882 } else if (oop_type->isa_instptr()) { | |
2883 ciInstanceKlass* ik = oop_type->klass()->as_instance_klass(); | |
2884 for (int i = 0, len = ik->nof_nonstatic_fields(); i < len; i++) { | |
2885 ciField* field = ik->nonstatic_field_at(i); | |
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2886 if (field->offset() >= TrackedInitializationLimit * HeapWordSize) |
0 | 2887 continue; // do not bother to track really large numbers of fields |
2888 // Find (or create) the alias category for this field: | |
2889 int fieldidx = C->alias_type(field)->index(); | |
2890 hook_memory_on_init(*this, fieldidx, minit_in, minit_out); | |
2891 } | |
2892 } | |
2893 } | |
2894 | |
2895 // Cast raw oop to the real thing... | |
2896 Node* javaoop = new (C, 2) CheckCastPPNode(control(), rawoop, oop_type); | |
2897 javaoop = _gvn.transform(javaoop); | |
2898 C->set_recent_alloc(control(), javaoop); | |
2899 assert(just_allocated_object(control()) == javaoop, "just allocated"); | |
2900 | |
2901 #ifdef ASSERT | |
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2902 { // Verify that the AllocateNode::Ideal_allocation recognizers work: |
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2903 assert(AllocateNode::Ideal_allocation(rawoop, &_gvn) == alloc, |
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2904 "Ideal_allocation works"); |
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2905 assert(AllocateNode::Ideal_allocation(javaoop, &_gvn) == alloc, |
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2906 "Ideal_allocation works"); |
0 | 2907 if (alloc->is_AllocateArray()) { |
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2908 assert(AllocateArrayNode::Ideal_array_allocation(rawoop, &_gvn) == alloc->as_AllocateArray(), |
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2909 "Ideal_allocation works"); |
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2910 assert(AllocateArrayNode::Ideal_array_allocation(javaoop, &_gvn) == alloc->as_AllocateArray(), |
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2911 "Ideal_allocation works"); |
0 | 2912 } else { |
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2913 assert(alloc->in(AllocateNode::ALength)->is_top(), "no length, please"); |
0 | 2914 } |
2915 } | |
2916 #endif //ASSERT | |
2917 | |
2918 return javaoop; | |
2919 } | |
2920 | |
2921 //---------------------------new_instance-------------------------------------- | |
2922 // This routine takes a klass_node which may be constant (for a static type) | |
2923 // or may be non-constant (for reflective code). It will work equally well | |
2924 // for either, and the graph will fold nicely if the optimizer later reduces | |
2925 // the type to a constant. | |
2926 // The optional arguments are for specialized use by intrinsics: | |
2927 // - If 'extra_slow_test' if not null is an extra condition for the slow-path. | |
2928 // - If 'raw_mem_only', do not cast the result to an oop. | |
2929 // - If 'return_size_val', report the the total object size to the caller. | |
2930 Node* GraphKit::new_instance(Node* klass_node, | |
2931 Node* extra_slow_test, | |
2932 bool raw_mem_only, // affect only raw memory | |
2933 Node* *return_size_val) { | |
2934 // Compute size in doublewords | |
2935 // The size is always an integral number of doublewords, represented | |
2936 // as a positive bytewise size stored in the klass's layout_helper. | |
2937 // The layout_helper also encodes (in a low bit) the need for a slow path. | |
2938 jint layout_con = Klass::_lh_neutral_value; | |
2939 Node* layout_val = get_layout_helper(klass_node, layout_con); | |
2940 int layout_is_con = (layout_val == NULL); | |
2941 | |
2942 if (extra_slow_test == NULL) extra_slow_test = intcon(0); | |
2943 // Generate the initial go-slow test. It's either ALWAYS (return a | |
2944 // Node for 1) or NEVER (return a NULL) or perhaps (in the reflective | |
2945 // case) a computed value derived from the layout_helper. | |
2946 Node* initial_slow_test = NULL; | |
2947 if (layout_is_con) { | |
2948 assert(!StressReflectiveCode, "stress mode does not use these paths"); | |
2949 bool must_go_slow = Klass::layout_helper_needs_slow_path(layout_con); | |
2950 initial_slow_test = must_go_slow? intcon(1): extra_slow_test; | |
2951 | |
2952 } else { // reflective case | |
2953 // This reflective path is used by Unsafe.allocateInstance. | |
2954 // (It may be stress-tested by specifying StressReflectiveCode.) | |
2955 // Basically, we want to get into the VM is there's an illegal argument. | |
2956 Node* bit = intcon(Klass::_lh_instance_slow_path_bit); | |
2957 initial_slow_test = _gvn.transform( new (C, 3) AndINode(layout_val, bit) ); | |
2958 if (extra_slow_test != intcon(0)) { | |
2959 initial_slow_test = _gvn.transform( new (C, 3) OrINode(initial_slow_test, extra_slow_test) ); | |
2960 } | |
2961 // (Macro-expander will further convert this to a Bool, if necessary.) | |
2962 } | |
2963 | |
2964 // Find the size in bytes. This is easy; it's the layout_helper. | |
2965 // The size value must be valid even if the slow path is taken. | |
2966 Node* size = NULL; | |
2967 if (layout_is_con) { | |
2968 size = MakeConX(Klass::layout_helper_size_in_bytes(layout_con)); | |
2969 } else { // reflective case | |
2970 // This reflective path is used by clone and Unsafe.allocateInstance. | |
2971 size = ConvI2X(layout_val); | |
2972 | |
2973 // Clear the low bits to extract layout_helper_size_in_bytes: | |
2974 assert((int)Klass::_lh_instance_slow_path_bit < BytesPerLong, "clear bit"); | |
2975 Node* mask = MakeConX(~ (intptr_t)right_n_bits(LogBytesPerLong)); | |
2976 size = _gvn.transform( new (C, 3) AndXNode(size, mask) ); | |
2977 } | |
2978 if (return_size_val != NULL) { | |
2979 (*return_size_val) = size; | |
2980 } | |
2981 | |
2982 // This is a precise notnull oop of the klass. | |
2983 // (Actually, it need not be precise if this is a reflective allocation.) | |
2984 // It's what we cast the result to. | |
2985 const TypeKlassPtr* tklass = _gvn.type(klass_node)->isa_klassptr(); | |
2986 if (!tklass) tklass = TypeKlassPtr::OBJECT; | |
2987 const TypeOopPtr* oop_type = tklass->as_instance_type(); | |
2988 | |
2989 // Now generate allocation code | |
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2990 |
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2991 // The entire memory state is needed for slow path of the allocation |
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2992 // since GC and deoptimization can happened. |
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2993 Node *mem = reset_memory(); |
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2994 set_all_memory(mem); // Create new memory state |
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2995 |
0 | 2996 AllocateNode* alloc |
2997 = new (C, AllocateNode::ParmLimit) | |
2998 AllocateNode(C, AllocateNode::alloc_type(), | |
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2999 control(), mem, i_o(), |
0 | 3000 size, klass_node, |
3001 initial_slow_test); | |
3002 | |
3003 return set_output_for_allocation(alloc, oop_type, raw_mem_only); | |
3004 } | |
3005 | |
3006 //-------------------------------new_array------------------------------------- | |
3007 // helper for both newarray and anewarray | |
3008 // The 'length' parameter is (obviously) the length of the array. | |
3009 // See comments on new_instance for the meaning of the other arguments. | |
3010 Node* GraphKit::new_array(Node* klass_node, // array klass (maybe variable) | |
3011 Node* length, // number of array elements | |
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3012 int nargs, // number of arguments to push back for uncommon trap |
0 | 3013 bool raw_mem_only, // affect only raw memory |
3014 Node* *return_size_val) { | |
3015 jint layout_con = Klass::_lh_neutral_value; | |
3016 Node* layout_val = get_layout_helper(klass_node, layout_con); | |
3017 int layout_is_con = (layout_val == NULL); | |
3018 | |
3019 if (!layout_is_con && !StressReflectiveCode && | |
3020 !too_many_traps(Deoptimization::Reason_class_check)) { | |
3021 // This is a reflective array creation site. | |
3022 // Optimistically assume that it is a subtype of Object[], | |
3023 // so that we can fold up all the address arithmetic. | |
3024 layout_con = Klass::array_layout_helper(T_OBJECT); | |
3025 Node* cmp_lh = _gvn.transform( new(C, 3) CmpINode(layout_val, intcon(layout_con)) ); | |
3026 Node* bol_lh = _gvn.transform( new(C, 2) BoolNode(cmp_lh, BoolTest::eq) ); | |
3027 { BuildCutout unless(this, bol_lh, PROB_MAX); | |
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3028 _sp += nargs; |
0 | 3029 uncommon_trap(Deoptimization::Reason_class_check, |
3030 Deoptimization::Action_maybe_recompile); | |
3031 } | |
3032 layout_val = NULL; | |
3033 layout_is_con = true; | |
3034 } | |
3035 | |
3036 // Generate the initial go-slow test. Make sure we do not overflow | |
3037 // if length is huge (near 2Gig) or negative! We do not need | |
3038 // exact double-words here, just a close approximation of needed | |
3039 // double-words. We can't add any offset or rounding bits, lest we | |
3040 // take a size -1 of bytes and make it positive. Use an unsigned | |
3041 // compare, so negative sizes look hugely positive. | |
3042 int fast_size_limit = FastAllocateSizeLimit; | |
3043 if (layout_is_con) { | |
3044 assert(!StressReflectiveCode, "stress mode does not use these paths"); | |
3045 // Increase the size limit if we have exact knowledge of array type. | |
3046 int log2_esize = Klass::layout_helper_log2_element_size(layout_con); | |
3047 fast_size_limit <<= (LogBytesPerLong - log2_esize); | |
3048 } | |
3049 | |
3050 Node* initial_slow_cmp = _gvn.transform( new (C, 3) CmpUNode( length, intcon( fast_size_limit ) ) ); | |
3051 Node* initial_slow_test = _gvn.transform( new (C, 2) BoolNode( initial_slow_cmp, BoolTest::gt ) ); | |
3052 if (initial_slow_test->is_Bool()) { | |
3053 // Hide it behind a CMoveI, or else PhaseIdealLoop::split_up will get sick. | |
3054 initial_slow_test = initial_slow_test->as_Bool()->as_int_value(&_gvn); | |
3055 } | |
3056 | |
3057 // --- Size Computation --- | |
3058 // array_size = round_to_heap(array_header + (length << elem_shift)); | |
3059 // where round_to_heap(x) == round_to(x, MinObjAlignmentInBytes) | |
3060 // and round_to(x, y) == ((x + y-1) & ~(y-1)) | |
3061 // The rounding mask is strength-reduced, if possible. | |
3062 int round_mask = MinObjAlignmentInBytes - 1; | |
3063 Node* header_size = NULL; | |
3064 int header_size_min = arrayOopDesc::base_offset_in_bytes(T_BYTE); | |
3065 // (T_BYTE has the weakest alignment and size restrictions...) | |
3066 if (layout_is_con) { | |
3067 int hsize = Klass::layout_helper_header_size(layout_con); | |
3068 int eshift = Klass::layout_helper_log2_element_size(layout_con); | |
3069 BasicType etype = Klass::layout_helper_element_type(layout_con); | |
3070 if ((round_mask & ~right_n_bits(eshift)) == 0) | |
3071 round_mask = 0; // strength-reduce it if it goes away completely | |
3072 assert((hsize & right_n_bits(eshift)) == 0, "hsize is pre-rounded"); | |
3073 assert(header_size_min <= hsize, "generic minimum is smallest"); | |
3074 header_size_min = hsize; | |
3075 header_size = intcon(hsize + round_mask); | |
3076 } else { | |
3077 Node* hss = intcon(Klass::_lh_header_size_shift); | |
3078 Node* hsm = intcon(Klass::_lh_header_size_mask); | |
3079 Node* hsize = _gvn.transform( new(C, 3) URShiftINode(layout_val, hss) ); | |
3080 hsize = _gvn.transform( new(C, 3) AndINode(hsize, hsm) ); | |
3081 Node* mask = intcon(round_mask); | |
3082 header_size = _gvn.transform( new(C, 3) AddINode(hsize, mask) ); | |
3083 } | |
3084 | |
3085 Node* elem_shift = NULL; | |
3086 if (layout_is_con) { | |
3087 int eshift = Klass::layout_helper_log2_element_size(layout_con); | |
3088 if (eshift != 0) | |
3089 elem_shift = intcon(eshift); | |
3090 } else { | |
3091 // There is no need to mask or shift this value. | |
3092 // The semantics of LShiftINode include an implicit mask to 0x1F. | |
3093 assert(Klass::_lh_log2_element_size_shift == 0, "use shift in place"); | |
3094 elem_shift = layout_val; | |
3095 } | |
3096 | |
3097 // Transition to native address size for all offset calculations: | |
3098 Node* lengthx = ConvI2X(length); | |
3099 Node* headerx = ConvI2X(header_size); | |
3100 #ifdef _LP64 | |
3101 { const TypeLong* tllen = _gvn.find_long_type(lengthx); | |
3102 if (tllen != NULL && tllen->_lo < 0) { | |
3103 // Add a manual constraint to a positive range. Cf. array_element_address. | |
3104 jlong size_max = arrayOopDesc::max_array_length(T_BYTE); | |
3105 if (size_max > tllen->_hi) size_max = tllen->_hi; | |
3106 const TypeLong* tlcon = TypeLong::make(CONST64(0), size_max, Type::WidenMin); | |
3107 lengthx = _gvn.transform( new (C, 2) ConvI2LNode(length, tlcon)); | |
3108 } | |
3109 } | |
3110 #endif | |
3111 | |
3112 // Combine header size (plus rounding) and body size. Then round down. | |
3113 // This computation cannot overflow, because it is used only in two | |
3114 // places, one where the length is sharply limited, and the other | |
3115 // after a successful allocation. | |
3116 Node* abody = lengthx; | |
3117 if (elem_shift != NULL) | |
3118 abody = _gvn.transform( new(C, 3) LShiftXNode(lengthx, elem_shift) ); | |
3119 Node* size = _gvn.transform( new(C, 3) AddXNode(headerx, abody) ); | |
3120 if (round_mask != 0) { | |
3121 Node* mask = MakeConX(~round_mask); | |
3122 size = _gvn.transform( new(C, 3) AndXNode(size, mask) ); | |
3123 } | |
3124 // else if round_mask == 0, the size computation is self-rounding | |
3125 | |
3126 if (return_size_val != NULL) { | |
3127 // This is the size | |
3128 (*return_size_val) = size; | |
3129 } | |
3130 | |
3131 // Now generate allocation code | |
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3132 |
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3133 // The entire memory state is needed for slow path of the allocation |
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3134 // since GC and deoptimization can happened. |
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3135 Node *mem = reset_memory(); |
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6799693: Server compiler leads to data corruption when expression throws an Exception
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3136 set_all_memory(mem); // Create new memory state |
74
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|
3137 |
0 | 3138 // Create the AllocateArrayNode and its result projections |
3139 AllocateArrayNode* alloc | |
3140 = new (C, AllocateArrayNode::ParmLimit) | |
3141 AllocateArrayNode(C, AllocateArrayNode::alloc_type(), | |
74
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|
3142 control(), mem, i_o(), |
0 | 3143 size, klass_node, |
3144 initial_slow_test, | |
3145 length); | |
3146 | |
3147 // Cast to correct type. Note that the klass_node may be constant or not, | |
3148 // and in the latter case the actual array type will be inexact also. | |
3149 // (This happens via a non-constant argument to inline_native_newArray.) | |
3150 // In any case, the value of klass_node provides the desired array type. | |
3151 const TypeInt* length_type = _gvn.find_int_type(length); | |
3152 const TypeOopPtr* ary_type = _gvn.type(klass_node)->is_klassptr()->as_instance_type(); | |
3153 if (ary_type->isa_aryptr() && length_type != NULL) { | |
3154 // Try to get a better type than POS for the size | |
3155 ary_type = ary_type->is_aryptr()->cast_to_size(length_type); | |
3156 } | |
3157 | |
3158 Node* javaoop = set_output_for_allocation(alloc, ary_type, raw_mem_only); | |
3159 | |
366
8261ee795323
6711100: 64bit fastdebug server vm crashes with assert(_base == Int,"Not an Int")
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|
3160 // Cast length on remaining path to be as narrow as possible |
8261ee795323
6711100: 64bit fastdebug server vm crashes with assert(_base == Int,"Not an Int")
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changeset
|
3161 if (map()->find_edge(length) >= 0) { |
8261ee795323
6711100: 64bit fastdebug server vm crashes with assert(_base == Int,"Not an Int")
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|
3162 Node* ccast = alloc->make_ideal_length(ary_type, &_gvn); |
8261ee795323
6711100: 64bit fastdebug server vm crashes with assert(_base == Int,"Not an Int")
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|
3163 if (ccast != length) { |
8261ee795323
6711100: 64bit fastdebug server vm crashes with assert(_base == Int,"Not an Int")
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|
3164 _gvn.set_type_bottom(ccast); |
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6711100: 64bit fastdebug server vm crashes with assert(_base == Int,"Not an Int")
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|
3165 record_for_igvn(ccast); |
0 | 3166 replace_in_map(length, ccast); |
3167 } | |
3168 } | |
3169 | |
3170 return javaoop; | |
3171 } | |
3172 | |
3173 // The following "Ideal_foo" functions are placed here because they recognize | |
3174 // the graph shapes created by the functions immediately above. | |
3175 | |
3176 //---------------------------Ideal_allocation---------------------------------- | |
3177 // Given an oop pointer or raw pointer, see if it feeds from an AllocateNode. | |
3178 AllocateNode* AllocateNode::Ideal_allocation(Node* ptr, PhaseTransform* phase) { | |
3179 if (ptr == NULL) { // reduce dumb test in callers | |
3180 return NULL; | |
3181 } | |
3182 if (ptr->is_CheckCastPP()) { // strip a raw-to-oop cast | |
3183 ptr = ptr->in(1); | |
3184 if (ptr == NULL) return NULL; | |
3185 } | |
3186 if (ptr->is_Proj()) { | |
3187 Node* allo = ptr->in(0); | |
3188 if (allo != NULL && allo->is_Allocate()) { | |
3189 return allo->as_Allocate(); | |
3190 } | |
3191 } | |
3192 // Report failure to match. | |
3193 return NULL; | |
3194 } | |
3195 | |
3196 // Fancy version which also strips off an offset (and reports it to caller). | |
3197 AllocateNode* AllocateNode::Ideal_allocation(Node* ptr, PhaseTransform* phase, | |
3198 intptr_t& offset) { | |
3199 Node* base = AddPNode::Ideal_base_and_offset(ptr, phase, offset); | |
3200 if (base == NULL) return NULL; | |
3201 return Ideal_allocation(base, phase); | |
3202 } | |
3203 | |
3204 // Trace Initialize <- Proj[Parm] <- Allocate | |
3205 AllocateNode* InitializeNode::allocation() { | |
3206 Node* rawoop = in(InitializeNode::RawAddress); | |
3207 if (rawoop->is_Proj()) { | |
3208 Node* alloc = rawoop->in(0); | |
3209 if (alloc->is_Allocate()) { | |
3210 return alloc->as_Allocate(); | |
3211 } | |
3212 } | |
3213 return NULL; | |
3214 } | |
3215 | |
3216 // Trace Allocate -> Proj[Parm] -> Initialize | |
3217 InitializeNode* AllocateNode::initialization() { | |
3218 ProjNode* rawoop = proj_out(AllocateNode::RawAddress); | |
3219 if (rawoop == NULL) return NULL; | |
3220 for (DUIterator_Fast imax, i = rawoop->fast_outs(imax); i < imax; i++) { | |
3221 Node* init = rawoop->fast_out(i); | |
3222 if (init->is_Initialize()) { | |
3223 assert(init->as_Initialize()->allocation() == this, "2-way link"); | |
3224 return init->as_Initialize(); | |
3225 } | |
3226 } | |
3227 return NULL; | |
3228 } | |
342
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6711316: Open source the Garbage-First garbage collector
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3229 |
851
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|
3230 //----------------------------- store barriers ---------------------------- |
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|
3231 #define __ ideal. |
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|
3232 |
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|
3233 void GraphKit::sync_kit(IdealKit& ideal) { |
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|
3234 // Final sync IdealKit and graphKit. |
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|
3235 __ drain_delay_transform(); |
fc4be448891f
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|
3236 set_all_memory(__ merged_memory()); |
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|
3237 set_control(__ ctrl()); |
fc4be448891f
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|
3238 } |
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|
3239 |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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|
3240 // vanilla/CMS post barrier |
fc4be448891f
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|
3241 // Insert a write-barrier store. This is to let generational GC work; we have |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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|
3242 // to flag all oop-stores before the next GC point. |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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|
3243 void GraphKit::write_barrier_post(Node* oop_store, |
fc4be448891f
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|
3244 Node* obj, |
fc4be448891f
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|
3245 Node* adr, |
985
685e959d09ea
6877254: Server vm crashes with no branches off of store slice" when run with CMS and UseSuperWord(default)
cfang
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955
diff
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|
3246 uint adr_idx, |
851
fc4be448891f
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changeset
|
3247 Node* val, |
fc4be448891f
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|
3248 bool use_precise) { |
fc4be448891f
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|
3249 // No store check needed if we're storing a NULL or an old object |
fc4be448891f
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|
3250 // (latter case is probably a string constant). The concurrent |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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|
3251 // mark sweep garbage collector, however, needs to have all nonNull |
fc4be448891f
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|
3252 // oop updates flagged via card-marks. |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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|
3253 if (val != NULL && val->is_Con()) { |
fc4be448891f
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|
3254 // must be either an oop or NULL |
fc4be448891f
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|
3255 const Type* t = val->bottom_type(); |
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|
3256 if (t == TypePtr::NULL_PTR || t == Type::TOP) |
fc4be448891f
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changeset
|
3257 // stores of null never (?) need barriers |
fc4be448891f
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|
3258 return; |
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changeset
|
3259 ciObject* con = t->is_oopptr()->const_oop(); |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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|
3260 if (con != NULL |
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|
3261 && con->is_perm() |
fc4be448891f
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|
3262 && Universe::heap()->can_elide_permanent_oop_store_barriers()) |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
kvn
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|
3263 // no store barrier needed, because no old-to-new ref created |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
kvn
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diff
changeset
|
3264 return; |
fc4be448891f
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diff
changeset
|
3265 } |
fc4be448891f
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diff
changeset
|
3266 |
1027
39b01ab7035a
6888898: CMS: ReduceInitialCardMarks unsafe in the presence of cms precleaning
ysr
parents:
985
diff
changeset
|
3267 if (use_ReduceInitialCardMarks() |
39b01ab7035a
6888898: CMS: ReduceInitialCardMarks unsafe in the presence of cms precleaning
ysr
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985
diff
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|
3268 && obj == just_allocated_object(control())) { |
39b01ab7035a
6888898: CMS: ReduceInitialCardMarks unsafe in the presence of cms precleaning
ysr
parents:
985
diff
changeset
|
3269 // We can skip marks on a freshly-allocated object in Eden. |
1166 | 3270 // Keep this code in sync with new_store_pre_barrier() in runtime.cpp. |
3271 // That routine informs GC to take appropriate compensating steps, | |
3272 // upon a slow-path allocation, so as to make this card-mark | |
3273 // elision safe. | |
1027
39b01ab7035a
6888898: CMS: ReduceInitialCardMarks unsafe in the presence of cms precleaning
ysr
parents:
985
diff
changeset
|
3274 return; |
39b01ab7035a
6888898: CMS: ReduceInitialCardMarks unsafe in the presence of cms precleaning
ysr
parents:
985
diff
changeset
|
3275 } |
39b01ab7035a
6888898: CMS: ReduceInitialCardMarks unsafe in the presence of cms precleaning
ysr
parents:
985
diff
changeset
|
3276 |
851
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
kvn
parents:
827
diff
changeset
|
3277 if (!use_precise) { |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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diff
changeset
|
3278 // All card marks for a (non-array) instance are in one place: |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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827
diff
changeset
|
3279 adr = obj; |
fc4be448891f
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|
3280 } |
fc4be448891f
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|
3281 // (Else it's an array (or unknown), and we want more precise card marks.) |
fc4be448891f
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827
diff
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|
3282 assert(adr != NULL, ""); |
fc4be448891f
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827
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changeset
|
3283 |
fc4be448891f
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827
diff
changeset
|
3284 IdealKit ideal(gvn(), control(), merged_memory(), true); |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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827
diff
changeset
|
3285 |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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827
diff
changeset
|
3286 // Convert the pointer to an int prior to doing math on it |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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diff
changeset
|
3287 Node* cast = __ CastPX(__ ctrl(), adr); |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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827
diff
changeset
|
3288 |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
kvn
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827
diff
changeset
|
3289 // Divide by card size |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
kvn
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827
diff
changeset
|
3290 assert(Universe::heap()->barrier_set()->kind() == BarrierSet::CardTableModRef, |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
kvn
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827
diff
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|
3291 "Only one we handle so far."); |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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827
diff
changeset
|
3292 Node* card_offset = __ URShiftX( cast, __ ConI(CardTableModRefBS::card_shift) ); |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
kvn
parents:
827
diff
changeset
|
3293 |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
kvn
parents:
827
diff
changeset
|
3294 // Combine card table base and card offset |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
kvn
parents:
827
diff
changeset
|
3295 Node* card_adr = __ AddP(__ top(), byte_map_base_node(), card_offset ); |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
kvn
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827
diff
changeset
|
3296 |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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827
diff
changeset
|
3297 // Get the alias_index for raw card-mark memory |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
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827
diff
changeset
|
3298 int adr_type = Compile::AliasIdxRaw; |
fc4be448891f
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diff
changeset
|
3299 // Smash zero into card |
fc4be448891f
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|
3300 Node* zero = __ ConI(0); |
fc4be448891f
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diff
changeset
|
3301 BasicType bt = T_BYTE; |
fc4be448891f
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827
diff
changeset
|
3302 if( !UseConcMarkSweepGC ) { |
fc4be448891f
6851742: (EA) allocation elimination doesn't work with UseG1GC
kvn
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827
diff
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|
3303 __ store(__ ctrl(), card_adr, zero, bt, adr_type); |
fc4be448891f
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diff
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|
3304 } else { |
fc4be448891f
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|
3305 // Specialized path for CM store barrier |
985
685e959d09ea
6877254: Server vm crashes with no branches off of store slice" when run with CMS and UseSuperWord(default)
cfang
parents:
955
diff
changeset
|
3306 __ storeCM(__ ctrl(), card_adr, zero, oop_store, adr_idx, bt, adr_type); |
851
fc4be448891f
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827
diff
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|
3307 } |
fc4be448891f
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827
diff
changeset
|
3308 |
fc4be448891f
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diff
changeset
|
3309 // Final sync IdealKit and GraphKit. |
fc4be448891f
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kvn
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827
diff
changeset
|
3310 sync_kit(ideal); |
fc4be448891f
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|
3311 } |
fc4be448891f
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changeset
|
3312 |
fc4be448891f
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|
3313 // G1 pre/post barriers |
342
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|
3314 void GraphKit::g1_write_barrier_pre(Node* obj, |
37f87013dfd8
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diff
changeset
|
3315 Node* adr, |
37f87013dfd8
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diff
changeset
|
3316 uint alias_idx, |
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diff
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|
3317 Node* val, |
825 | 3318 const TypeOopPtr* val_type, |
342
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diff
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|
3319 BasicType bt) { |
37f87013dfd8
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ysr
parents:
113
diff
changeset
|
3320 IdealKit ideal(gvn(), control(), merged_memory(), true); |
851
fc4be448891f
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827
diff
changeset
|
3321 |
fc4be448891f
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diff
changeset
|
3322 Node* tls = __ thread(); // ThreadLocalStorage |
342
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ysr
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113
diff
changeset
|
3323 |
37f87013dfd8
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ysr
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113
diff
changeset
|
3324 Node* no_ctrl = NULL; |
37f87013dfd8
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parents:
113
diff
changeset
|
3325 Node* no_base = __ top(); |
37f87013dfd8
6711316: Open source the Garbage-First garbage collector
ysr
parents:
113
diff
changeset
|
3326 Node* zero = __ ConI(0); |
37f87013dfd8
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parents:
113
diff
changeset
|
3327 |
37f87013dfd8
6711316: Open source the Garbage-First garbage collector
ysr
parents:
113
diff
changeset
|
3328 float likely = PROB_LIKELY(0.999); |
37f87013dfd8
6711316: Open source the Garbage-First garbage collector
ysr
parents:
113
diff
changeset
|
3329 float unlikely = PROB_UNLIKELY(0.999); |
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3330 |
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3331 BasicType active_type = in_bytes(PtrQueue::byte_width_of_active()) == 4 ? T_INT : T_BYTE; |
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3332 assert(in_bytes(PtrQueue::byte_width_of_active()) == 4 || in_bytes(PtrQueue::byte_width_of_active()) == 1, "flag width"); |
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3333 |
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3334 // Offsets into the thread |
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3335 const int marking_offset = in_bytes(JavaThread::satb_mark_queue_offset() + // 648 |
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3336 PtrQueue::byte_offset_of_active()); |
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3337 const int index_offset = in_bytes(JavaThread::satb_mark_queue_offset() + // 656 |
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3338 PtrQueue::byte_offset_of_index()); |
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3339 const int buffer_offset = in_bytes(JavaThread::satb_mark_queue_offset() + // 652 |
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3340 PtrQueue::byte_offset_of_buf()); |
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3341 // Now the actual pointers into the thread |
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3342 |
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3343 // set_control( ctl); |
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3344 |
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3345 Node* marking_adr = __ AddP(no_base, tls, __ ConX(marking_offset)); |
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3346 Node* buffer_adr = __ AddP(no_base, tls, __ ConX(buffer_offset)); |
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3347 Node* index_adr = __ AddP(no_base, tls, __ ConX(index_offset)); |
342
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3348 |
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3349 // Now some of the values |
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3350 |
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3351 Node* marking = __ load(__ ctrl(), marking_adr, TypeInt::INT, active_type, Compile::AliasIdxRaw); |
342
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3352 |
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3353 // if (!marking) |
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3354 __ if_then(marking, BoolTest::ne, zero); { |
544
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3355 Node* index = __ load(__ ctrl(), index_adr, TypeInt::INT, T_INT, Compile::AliasIdxRaw); |
342
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3356 |
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3357 const Type* t1 = adr->bottom_type(); |
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3358 const Type* t2 = val->bottom_type(); |
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3359 |
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3360 Node* orig = __ load(no_ctrl, adr, val_type, bt, alias_idx); |
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3361 // if (orig != NULL) |
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3362 __ if_then(orig, BoolTest::ne, null()); { |
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3363 Node* buffer = __ load(__ ctrl(), buffer_adr, TypeRawPtr::NOTNULL, T_ADDRESS, Compile::AliasIdxRaw); |
342
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3364 |
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3365 // load original value |
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3366 // alias_idx correct?? |
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3367 |
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3368 // is the queue for this thread full? |
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3369 __ if_then(index, BoolTest::ne, zero, likely); { |
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3370 |
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3371 // decrement the index |
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3372 Node* next_index = __ SubI(index, __ ConI(sizeof(intptr_t))); |
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3373 Node* next_indexX = next_index; |
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3374 #ifdef _LP64 |
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3375 // We could refine the type for what it's worth |
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3376 // const TypeLong* lidxtype = TypeLong::make(CONST64(0), get_size_from_queue); |
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3377 next_indexX = _gvn.transform( new (C, 2) ConvI2LNode(next_index, TypeLong::make(0, max_jlong, Type::WidenMax)) ); |
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3378 #endif |
342
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3379 |
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3380 // Now get the buffer location we will log the original value into and store it |
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3381 Node *log_addr = __ AddP(no_base, buffer, next_indexX); |
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3382 __ store(__ ctrl(), log_addr, orig, T_OBJECT, Compile::AliasIdxRaw); |
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3383 |
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3384 // update the index |
851
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3385 __ store(__ ctrl(), index_adr, next_index, T_INT, Compile::AliasIdxRaw); |
342
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3386 |
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|
3387 } __ else_(); { |
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|
3388 |
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3389 // logging buffer is full, call the runtime |
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3390 const TypeFunc *tf = OptoRuntime::g1_wb_pre_Type(); |
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3391 __ make_leaf_call(tf, CAST_FROM_FN_PTR(address, SharedRuntime::g1_wb_pre), "g1_wb_pre", orig, tls); |
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3392 } __ end_if(); // (!index) |
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3393 } __ end_if(); // (orig != NULL) |
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3394 } __ end_if(); // (!marking) |
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|
3395 |
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3396 // Final sync IdealKit and GraphKit. |
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|
3397 sync_kit(ideal); |
342
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|
3398 } |
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|
3399 |
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|
3400 // |
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3401 // Update the card table and add card address to the queue |
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3402 // |
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3403 void GraphKit::g1_mark_card(IdealKit& ideal, |
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3404 Node* card_adr, |
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|
3405 Node* oop_store, |
985
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cfang
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|
3406 uint oop_alias_idx, |
851
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|
3407 Node* index, |
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|
3408 Node* index_adr, |
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|
3409 Node* buffer, |
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|
3410 const TypeFunc* tf) { |
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3411 |
342
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3412 Node* zero = __ ConI(0); |
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|
3413 Node* no_base = __ top(); |
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|
3414 BasicType card_bt = T_BYTE; |
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3415 // Smash zero into card. MUST BE ORDERED WRT TO STORE |
985
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|
3416 __ storeCM(__ ctrl(), card_adr, zero, oop_store, oop_alias_idx, card_bt, Compile::AliasIdxRaw); |
342
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|
3417 |
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3418 // Now do the queue work |
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3419 __ if_then(index, BoolTest::ne, zero); { |
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3420 |
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3421 Node* next_index = __ SubI(index, __ ConI(sizeof(intptr_t))); |
342
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3422 Node* next_indexX = next_index; |
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|
3423 #ifdef _LP64 |
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3424 // We could refine the type for what it's worth |
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3425 // const TypeLong* lidxtype = TypeLong::make(CONST64(0), get_size_from_queue); |
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3426 next_indexX = _gvn.transform( new (C, 2) ConvI2LNode(next_index, TypeLong::make(0, max_jlong, Type::WidenMax)) ); |
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3427 #endif // _LP64 |
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3428 Node* log_addr = __ AddP(no_base, buffer, next_indexX); |
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3429 |
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3430 __ store(__ ctrl(), log_addr, card_adr, T_ADDRESS, Compile::AliasIdxRaw); |
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3431 __ store(__ ctrl(), index_adr, next_index, T_INT, Compile::AliasIdxRaw); |
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3432 |
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|
3433 } __ else_(); { |
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|
3434 __ make_leaf_call(tf, CAST_FROM_FN_PTR(address, SharedRuntime::g1_wb_post), "g1_wb_post", card_adr, __ thread()); |
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3435 } __ end_if(); |
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3436 |
342
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3437 } |
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|
3438 |
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3439 void GraphKit::g1_write_barrier_post(Node* oop_store, |
342
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3440 Node* obj, |
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|
3441 Node* adr, |
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|
3442 uint alias_idx, |
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|
3443 Node* val, |
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|
3444 BasicType bt, |
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|
3445 bool use_precise) { |
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|
3446 // If we are writing a NULL then we need no post barrier |
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|
3447 |
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3448 if (val != NULL && val->is_Con() && val->bottom_type() == TypePtr::NULL_PTR) { |
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3449 // Must be NULL |
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3450 const Type* t = val->bottom_type(); |
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3451 assert(t == Type::TOP || t == TypePtr::NULL_PTR, "must be NULL"); |
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3452 // No post barrier if writing NULLx |
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|
3453 return; |
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|
3454 } |
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|
3455 |
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3456 if (!use_precise) { |
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3457 // All card marks for a (non-array) instance are in one place: |
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3458 adr = obj; |
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3459 } |
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3460 // (Else it's an array (or unknown), and we want more precise card marks.) |
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3461 assert(adr != NULL, ""); |
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3462 |
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3463 IdealKit ideal(gvn(), control(), merged_memory(), true); |
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3464 |
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3465 Node* tls = __ thread(); // ThreadLocalStorage |
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3466 |
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3467 Node* no_ctrl = NULL; |
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3468 Node* no_base = __ top(); |
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3469 float likely = PROB_LIKELY(0.999); |
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3470 float unlikely = PROB_UNLIKELY(0.999); |
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3471 Node* zero = __ ConI(0); |
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3472 Node* zeroX = __ ConX(0); |
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3473 |
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3474 // Get the alias_index for raw card-mark memory |
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3475 const TypePtr* card_type = TypeRawPtr::BOTTOM; |
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3476 |
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3477 const TypeFunc *tf = OptoRuntime::g1_wb_post_Type(); |
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3478 |
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3479 // Offsets into the thread |
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3480 const int index_offset = in_bytes(JavaThread::dirty_card_queue_offset() + |
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3481 PtrQueue::byte_offset_of_index()); |
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3482 const int buffer_offset = in_bytes(JavaThread::dirty_card_queue_offset() + |
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3483 PtrQueue::byte_offset_of_buf()); |
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3484 |
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3485 // Pointers into the thread |
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3486 |
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3487 Node* buffer_adr = __ AddP(no_base, tls, __ ConX(buffer_offset)); |
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3488 Node* index_adr = __ AddP(no_base, tls, __ ConX(index_offset)); |
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3489 |
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3490 // Now some values |
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3491 |
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3492 Node* index = __ load(no_ctrl, index_adr, TypeInt::INT, T_INT, Compile::AliasIdxRaw); |
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3493 Node* buffer = __ load(no_ctrl, buffer_adr, TypeRawPtr::NOTNULL, T_ADDRESS, Compile::AliasIdxRaw); |
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3494 |
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3495 |
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3496 // Convert the store obj pointer to an int prior to doing math on it |
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3497 // Must use ctrl to prevent "integerized oop" existing across safepoint |
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3498 Node* cast = __ CastPX(__ ctrl(), adr); |
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3499 |
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3500 // Divide pointer by card size |
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3501 Node* card_offset = __ URShiftX( cast, __ ConI(CardTableModRefBS::card_shift) ); |
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3502 |
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3503 // Combine card table base and card offset |
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3504 Node* card_adr = __ AddP(no_base, byte_map_base_node(), card_offset ); |
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3505 |
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3506 // If we know the value being stored does it cross regions? |
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3507 |
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3508 if (val != NULL) { |
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3509 // Does the store cause us to cross regions? |
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3510 |
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3511 // Should be able to do an unsigned compare of region_size instead of |
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3512 // and extra shift. Do we have an unsigned compare?? |
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3513 // Node* region_size = __ ConI(1 << HeapRegion::LogOfHRGrainBytes); |
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3514 Node* xor_res = __ URShiftX ( __ XorX( cast, __ CastPX(__ ctrl(), val)), __ ConI(HeapRegion::LogOfHRGrainBytes)); |
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3515 |
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3516 // if (xor_res == 0) same region so skip |
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3517 __ if_then(xor_res, BoolTest::ne, zeroX); { |
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3518 |
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3519 // No barrier if we are storing a NULL |
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3520 __ if_then(val, BoolTest::ne, null(), unlikely); { |
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3521 |
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3522 // Ok must mark the card if not already dirty |
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3523 |
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3524 // load the original value of the card |
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3525 Node* card_val = __ load(__ ctrl(), card_adr, TypeInt::INT, T_BYTE, Compile::AliasIdxRaw); |
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3526 |
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3527 __ if_then(card_val, BoolTest::ne, zero); { |
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3528 g1_mark_card(ideal, card_adr, oop_store, alias_idx, index, index_adr, buffer, tf); |
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3529 } __ end_if(); |
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3530 } __ end_if(); |
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3531 } __ end_if(); |
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3532 } else { |
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3533 // Object.clone() instrinsic uses this path. |
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3534 g1_mark_card(ideal, card_adr, oop_store, alias_idx, index, index_adr, buffer, tf); |
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3535 } |
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3536 |
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3537 // Final sync IdealKit and GraphKit. |
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3538 sync_kit(ideal); |
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3539 } |
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3540 #undef __ |