Mercurial > hg > truffle
annotate src/share/vm/opto/compile.cpp @ 3853:11211f7cb5a0
7079317: Incorrect branch's destination block in PrintoOptoAssembly output
Summary: save/restore label and block in scratch_emit_size()
Reviewed-by: never
author | kvn |
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date | Tue, 16 Aug 2011 11:53:57 -0700 |
parents | 3d42f82cd811 |
children | c124e2e7463e |
rev | line source |
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0 | 1 /* |
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2 * Copyright (c) 1997, 2011, Oracle and/or its affiliates. All rights reserved. |
0 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #include "precompiled.hpp" |
26 #include "asm/assembler.hpp" | |
27 #include "classfile/systemDictionary.hpp" | |
28 #include "code/exceptionHandlerTable.hpp" | |
29 #include "code/nmethod.hpp" | |
30 #include "compiler/compileLog.hpp" | |
31 #include "compiler/oopMap.hpp" | |
32 #include "opto/addnode.hpp" | |
33 #include "opto/block.hpp" | |
34 #include "opto/c2compiler.hpp" | |
35 #include "opto/callGenerator.hpp" | |
36 #include "opto/callnode.hpp" | |
37 #include "opto/cfgnode.hpp" | |
38 #include "opto/chaitin.hpp" | |
39 #include "opto/compile.hpp" | |
40 #include "opto/connode.hpp" | |
41 #include "opto/divnode.hpp" | |
42 #include "opto/escape.hpp" | |
43 #include "opto/idealGraphPrinter.hpp" | |
44 #include "opto/loopnode.hpp" | |
45 #include "opto/machnode.hpp" | |
46 #include "opto/macro.hpp" | |
47 #include "opto/matcher.hpp" | |
48 #include "opto/memnode.hpp" | |
49 #include "opto/mulnode.hpp" | |
50 #include "opto/node.hpp" | |
51 #include "opto/opcodes.hpp" | |
52 #include "opto/output.hpp" | |
53 #include "opto/parse.hpp" | |
54 #include "opto/phaseX.hpp" | |
55 #include "opto/rootnode.hpp" | |
56 #include "opto/runtime.hpp" | |
57 #include "opto/stringopts.hpp" | |
58 #include "opto/type.hpp" | |
59 #include "opto/vectornode.hpp" | |
60 #include "runtime/arguments.hpp" | |
61 #include "runtime/signature.hpp" | |
62 #include "runtime/stubRoutines.hpp" | |
63 #include "runtime/timer.hpp" | |
64 #include "utilities/copy.hpp" | |
65 #ifdef TARGET_ARCH_MODEL_x86_32 | |
66 # include "adfiles/ad_x86_32.hpp" | |
67 #endif | |
68 #ifdef TARGET_ARCH_MODEL_x86_64 | |
69 # include "adfiles/ad_x86_64.hpp" | |
70 #endif | |
71 #ifdef TARGET_ARCH_MODEL_sparc | |
72 # include "adfiles/ad_sparc.hpp" | |
73 #endif | |
74 #ifdef TARGET_ARCH_MODEL_zero | |
75 # include "adfiles/ad_zero.hpp" | |
76 #endif | |
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77 #ifdef TARGET_ARCH_MODEL_arm |
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78 # include "adfiles/ad_arm.hpp" |
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79 #endif |
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80 #ifdef TARGET_ARCH_MODEL_ppc |
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81 # include "adfiles/ad_ppc.hpp" |
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82 #endif |
0 | 83 |
2008 | 84 |
85 // -------------------- Compile::mach_constant_base_node ----------------------- | |
86 // Constant table base node singleton. | |
87 MachConstantBaseNode* Compile::mach_constant_base_node() { | |
88 if (_mach_constant_base_node == NULL) { | |
89 _mach_constant_base_node = new (C) MachConstantBaseNode(); | |
90 _mach_constant_base_node->add_req(C->root()); | |
91 } | |
92 return _mach_constant_base_node; | |
93 } | |
94 | |
95 | |
0 | 96 /// Support for intrinsics. |
97 | |
98 // Return the index at which m must be inserted (or already exists). | |
99 // The sort order is by the address of the ciMethod, with is_virtual as minor key. | |
100 int Compile::intrinsic_insertion_index(ciMethod* m, bool is_virtual) { | |
101 #ifdef ASSERT | |
102 for (int i = 1; i < _intrinsics->length(); i++) { | |
103 CallGenerator* cg1 = _intrinsics->at(i-1); | |
104 CallGenerator* cg2 = _intrinsics->at(i); | |
105 assert(cg1->method() != cg2->method() | |
106 ? cg1->method() < cg2->method() | |
107 : cg1->is_virtual() < cg2->is_virtual(), | |
108 "compiler intrinsics list must stay sorted"); | |
109 } | |
110 #endif | |
111 // Binary search sorted list, in decreasing intervals [lo, hi]. | |
112 int lo = 0, hi = _intrinsics->length()-1; | |
113 while (lo <= hi) { | |
114 int mid = (uint)(hi + lo) / 2; | |
115 ciMethod* mid_m = _intrinsics->at(mid)->method(); | |
116 if (m < mid_m) { | |
117 hi = mid-1; | |
118 } else if (m > mid_m) { | |
119 lo = mid+1; | |
120 } else { | |
121 // look at minor sort key | |
122 bool mid_virt = _intrinsics->at(mid)->is_virtual(); | |
123 if (is_virtual < mid_virt) { | |
124 hi = mid-1; | |
125 } else if (is_virtual > mid_virt) { | |
126 lo = mid+1; | |
127 } else { | |
128 return mid; // exact match | |
129 } | |
130 } | |
131 } | |
132 return lo; // inexact match | |
133 } | |
134 | |
135 void Compile::register_intrinsic(CallGenerator* cg) { | |
136 if (_intrinsics == NULL) { | |
137 _intrinsics = new GrowableArray<CallGenerator*>(60); | |
138 } | |
139 // This code is stolen from ciObjectFactory::insert. | |
140 // Really, GrowableArray should have methods for | |
141 // insert_at, remove_at, and binary_search. | |
142 int len = _intrinsics->length(); | |
143 int index = intrinsic_insertion_index(cg->method(), cg->is_virtual()); | |
144 if (index == len) { | |
145 _intrinsics->append(cg); | |
146 } else { | |
147 #ifdef ASSERT | |
148 CallGenerator* oldcg = _intrinsics->at(index); | |
149 assert(oldcg->method() != cg->method() || oldcg->is_virtual() != cg->is_virtual(), "don't register twice"); | |
150 #endif | |
151 _intrinsics->append(_intrinsics->at(len-1)); | |
152 int pos; | |
153 for (pos = len-2; pos >= index; pos--) { | |
154 _intrinsics->at_put(pos+1,_intrinsics->at(pos)); | |
155 } | |
156 _intrinsics->at_put(index, cg); | |
157 } | |
158 assert(find_intrinsic(cg->method(), cg->is_virtual()) == cg, "registration worked"); | |
159 } | |
160 | |
161 CallGenerator* Compile::find_intrinsic(ciMethod* m, bool is_virtual) { | |
162 assert(m->is_loaded(), "don't try this on unloaded methods"); | |
163 if (_intrinsics != NULL) { | |
164 int index = intrinsic_insertion_index(m, is_virtual); | |
165 if (index < _intrinsics->length() | |
166 && _intrinsics->at(index)->method() == m | |
167 && _intrinsics->at(index)->is_virtual() == is_virtual) { | |
168 return _intrinsics->at(index); | |
169 } | |
170 } | |
171 // Lazily create intrinsics for intrinsic IDs well-known in the runtime. | |
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172 if (m->intrinsic_id() != vmIntrinsics::_none && |
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173 m->intrinsic_id() <= vmIntrinsics::LAST_COMPILER_INLINE) { |
0 | 174 CallGenerator* cg = make_vm_intrinsic(m, is_virtual); |
175 if (cg != NULL) { | |
176 // Save it for next time: | |
177 register_intrinsic(cg); | |
178 return cg; | |
179 } else { | |
180 gather_intrinsic_statistics(m->intrinsic_id(), is_virtual, _intrinsic_disabled); | |
181 } | |
182 } | |
183 return NULL; | |
184 } | |
185 | |
186 // Compile:: register_library_intrinsics and make_vm_intrinsic are defined | |
187 // in library_call.cpp. | |
188 | |
189 | |
190 #ifndef PRODUCT | |
191 // statistics gathering... | |
192 | |
193 juint Compile::_intrinsic_hist_count[vmIntrinsics::ID_LIMIT] = {0}; | |
194 jubyte Compile::_intrinsic_hist_flags[vmIntrinsics::ID_LIMIT] = {0}; | |
195 | |
196 bool Compile::gather_intrinsic_statistics(vmIntrinsics::ID id, bool is_virtual, int flags) { | |
197 assert(id > vmIntrinsics::_none && id < vmIntrinsics::ID_LIMIT, "oob"); | |
198 int oflags = _intrinsic_hist_flags[id]; | |
199 assert(flags != 0, "what happened?"); | |
200 if (is_virtual) { | |
201 flags |= _intrinsic_virtual; | |
202 } | |
203 bool changed = (flags != oflags); | |
204 if ((flags & _intrinsic_worked) != 0) { | |
205 juint count = (_intrinsic_hist_count[id] += 1); | |
206 if (count == 1) { | |
207 changed = true; // first time | |
208 } | |
209 // increment the overall count also: | |
210 _intrinsic_hist_count[vmIntrinsics::_none] += 1; | |
211 } | |
212 if (changed) { | |
213 if (((oflags ^ flags) & _intrinsic_virtual) != 0) { | |
214 // Something changed about the intrinsic's virtuality. | |
215 if ((flags & _intrinsic_virtual) != 0) { | |
216 // This is the first use of this intrinsic as a virtual call. | |
217 if (oflags != 0) { | |
218 // We already saw it as a non-virtual, so note both cases. | |
219 flags |= _intrinsic_both; | |
220 } | |
221 } else if ((oflags & _intrinsic_both) == 0) { | |
222 // This is the first use of this intrinsic as a non-virtual | |
223 flags |= _intrinsic_both; | |
224 } | |
225 } | |
226 _intrinsic_hist_flags[id] = (jubyte) (oflags | flags); | |
227 } | |
228 // update the overall flags also: | |
229 _intrinsic_hist_flags[vmIntrinsics::_none] |= (jubyte) flags; | |
230 return changed; | |
231 } | |
232 | |
233 static char* format_flags(int flags, char* buf) { | |
234 buf[0] = 0; | |
235 if ((flags & Compile::_intrinsic_worked) != 0) strcat(buf, ",worked"); | |
236 if ((flags & Compile::_intrinsic_failed) != 0) strcat(buf, ",failed"); | |
237 if ((flags & Compile::_intrinsic_disabled) != 0) strcat(buf, ",disabled"); | |
238 if ((flags & Compile::_intrinsic_virtual) != 0) strcat(buf, ",virtual"); | |
239 if ((flags & Compile::_intrinsic_both) != 0) strcat(buf, ",nonvirtual"); | |
240 if (buf[0] == 0) strcat(buf, ","); | |
241 assert(buf[0] == ',', "must be"); | |
242 return &buf[1]; | |
243 } | |
244 | |
245 void Compile::print_intrinsic_statistics() { | |
246 char flagsbuf[100]; | |
247 ttyLocker ttyl; | |
248 if (xtty != NULL) xtty->head("statistics type='intrinsic'"); | |
249 tty->print_cr("Compiler intrinsic usage:"); | |
250 juint total = _intrinsic_hist_count[vmIntrinsics::_none]; | |
251 if (total == 0) total = 1; // avoid div0 in case of no successes | |
252 #define PRINT_STAT_LINE(name, c, f) \ | |
253 tty->print_cr(" %4d (%4.1f%%) %s (%s)", (int)(c), ((c) * 100.0) / total, name, f); | |
254 for (int index = 1 + (int)vmIntrinsics::_none; index < (int)vmIntrinsics::ID_LIMIT; index++) { | |
255 vmIntrinsics::ID id = (vmIntrinsics::ID) index; | |
256 int flags = _intrinsic_hist_flags[id]; | |
257 juint count = _intrinsic_hist_count[id]; | |
258 if ((flags | count) != 0) { | |
259 PRINT_STAT_LINE(vmIntrinsics::name_at(id), count, format_flags(flags, flagsbuf)); | |
260 } | |
261 } | |
262 PRINT_STAT_LINE("total", total, format_flags(_intrinsic_hist_flags[vmIntrinsics::_none], flagsbuf)); | |
263 if (xtty != NULL) xtty->tail("statistics"); | |
264 } | |
265 | |
266 void Compile::print_statistics() { | |
267 { ttyLocker ttyl; | |
268 if (xtty != NULL) xtty->head("statistics type='opto'"); | |
269 Parse::print_statistics(); | |
270 PhaseCCP::print_statistics(); | |
271 PhaseRegAlloc::print_statistics(); | |
272 Scheduling::print_statistics(); | |
273 PhasePeephole::print_statistics(); | |
274 PhaseIdealLoop::print_statistics(); | |
275 if (xtty != NULL) xtty->tail("statistics"); | |
276 } | |
277 if (_intrinsic_hist_flags[vmIntrinsics::_none] != 0) { | |
278 // put this under its own <statistics> element. | |
279 print_intrinsic_statistics(); | |
280 } | |
281 } | |
282 #endif //PRODUCT | |
283 | |
284 // Support for bundling info | |
285 Bundle* Compile::node_bundling(const Node *n) { | |
286 assert(valid_bundle_info(n), "oob"); | |
287 return &_node_bundling_base[n->_idx]; | |
288 } | |
289 | |
290 bool Compile::valid_bundle_info(const Node *n) { | |
291 return (_node_bundling_limit > n->_idx); | |
292 } | |
293 | |
294 | |
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295 void Compile::gvn_replace_by(Node* n, Node* nn) { |
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296 for (DUIterator_Last imin, i = n->last_outs(imin); i >= imin; ) { |
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297 Node* use = n->last_out(i); |
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298 bool is_in_table = initial_gvn()->hash_delete(use); |
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299 uint uses_found = 0; |
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300 for (uint j = 0; j < use->len(); j++) { |
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301 if (use->in(j) == n) { |
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302 if (j < use->req()) |
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303 use->set_req(j, nn); |
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304 else |
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305 use->set_prec(j, nn); |
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306 uses_found++; |
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307 } |
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308 } |
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309 if (is_in_table) { |
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310 // reinsert into table |
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311 initial_gvn()->hash_find_insert(use); |
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312 } |
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313 record_for_igvn(use); |
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314 i -= uses_found; // we deleted 1 or more copies of this edge |
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315 } |
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316 } |
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317 |
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318 |
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319 |
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320 |
0 | 321 // Identify all nodes that are reachable from below, useful. |
322 // Use breadth-first pass that records state in a Unique_Node_List, | |
323 // recursive traversal is slower. | |
324 void Compile::identify_useful_nodes(Unique_Node_List &useful) { | |
325 int estimated_worklist_size = unique(); | |
326 useful.map( estimated_worklist_size, NULL ); // preallocate space | |
327 | |
328 // Initialize worklist | |
329 if (root() != NULL) { useful.push(root()); } | |
330 // If 'top' is cached, declare it useful to preserve cached node | |
331 if( cached_top_node() ) { useful.push(cached_top_node()); } | |
332 | |
333 // Push all useful nodes onto the list, breadthfirst | |
334 for( uint next = 0; next < useful.size(); ++next ) { | |
335 assert( next < unique(), "Unique useful nodes < total nodes"); | |
336 Node *n = useful.at(next); | |
337 uint max = n->len(); | |
338 for( uint i = 0; i < max; ++i ) { | |
339 Node *m = n->in(i); | |
340 if( m == NULL ) continue; | |
341 useful.push(m); | |
342 } | |
343 } | |
344 } | |
345 | |
346 // Disconnect all useless nodes by disconnecting those at the boundary. | |
347 void Compile::remove_useless_nodes(Unique_Node_List &useful) { | |
348 uint next = 0; | |
349 while( next < useful.size() ) { | |
350 Node *n = useful.at(next++); | |
351 // Use raw traversal of out edges since this code removes out edges | |
352 int max = n->outcnt(); | |
353 for (int j = 0; j < max; ++j ) { | |
354 Node* child = n->raw_out(j); | |
355 if( ! useful.member(child) ) { | |
356 assert( !child->is_top() || child != top(), | |
357 "If top is cached in Compile object it is in useful list"); | |
358 // Only need to remove this out-edge to the useless node | |
359 n->raw_del_out(j); | |
360 --j; | |
361 --max; | |
362 } | |
363 } | |
364 if (n->outcnt() == 1 && n->has_special_unique_user()) { | |
365 record_for_igvn( n->unique_out() ); | |
366 } | |
367 } | |
368 debug_only(verify_graph_edges(true/*check for no_dead_code*/);) | |
369 } | |
370 | |
371 //------------------------------frame_size_in_words----------------------------- | |
372 // frame_slots in units of words | |
373 int Compile::frame_size_in_words() const { | |
374 // shift is 0 in LP32 and 1 in LP64 | |
375 const int shift = (LogBytesPerWord - LogBytesPerInt); | |
376 int words = _frame_slots >> shift; | |
377 assert( words << shift == _frame_slots, "frame size must be properly aligned in LP64" ); | |
378 return words; | |
379 } | |
380 | |
381 // ============================================================================ | |
382 //------------------------------CompileWrapper--------------------------------- | |
383 class CompileWrapper : public StackObj { | |
384 Compile *const _compile; | |
385 public: | |
386 CompileWrapper(Compile* compile); | |
387 | |
388 ~CompileWrapper(); | |
389 }; | |
390 | |
391 CompileWrapper::CompileWrapper(Compile* compile) : _compile(compile) { | |
392 // the Compile* pointer is stored in the current ciEnv: | |
393 ciEnv* env = compile->env(); | |
394 assert(env == ciEnv::current(), "must already be a ciEnv active"); | |
395 assert(env->compiler_data() == NULL, "compile already active?"); | |
396 env->set_compiler_data(compile); | |
397 assert(compile == Compile::current(), "sanity"); | |
398 | |
399 compile->set_type_dict(NULL); | |
400 compile->set_type_hwm(NULL); | |
401 compile->set_type_last_size(0); | |
402 compile->set_last_tf(NULL, NULL); | |
403 compile->set_indexSet_arena(NULL); | |
404 compile->set_indexSet_free_block_list(NULL); | |
405 compile->init_type_arena(); | |
406 Type::Initialize(compile); | |
407 _compile->set_scratch_buffer_blob(NULL); | |
408 _compile->begin_method(); | |
409 } | |
410 CompileWrapper::~CompileWrapper() { | |
411 _compile->end_method(); | |
412 if (_compile->scratch_buffer_blob() != NULL) | |
413 BufferBlob::free(_compile->scratch_buffer_blob()); | |
414 _compile->env()->set_compiler_data(NULL); | |
415 } | |
416 | |
417 | |
418 //----------------------------print_compile_messages--------------------------- | |
419 void Compile::print_compile_messages() { | |
420 #ifndef PRODUCT | |
421 // Check if recompiling | |
422 if (_subsume_loads == false && PrintOpto) { | |
423 // Recompiling without allowing machine instructions to subsume loads | |
424 tty->print_cr("*********************************************************"); | |
425 tty->print_cr("** Bailout: Recompile without subsuming loads **"); | |
426 tty->print_cr("*********************************************************"); | |
427 } | |
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428 if (_do_escape_analysis != DoEscapeAnalysis && PrintOpto) { |
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429 // Recompiling without escape analysis |
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430 tty->print_cr("*********************************************************"); |
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431 tty->print_cr("** Bailout: Recompile without escape analysis **"); |
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432 tty->print_cr("*********************************************************"); |
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433 } |
0 | 434 if (env()->break_at_compile()) { |
605 | 435 // Open the debugger when compiling this method. |
0 | 436 tty->print("### Breaking when compiling: "); |
437 method()->print_short_name(); | |
438 tty->cr(); | |
439 BREAKPOINT; | |
440 } | |
441 | |
442 if( PrintOpto ) { | |
443 if (is_osr_compilation()) { | |
444 tty->print("[OSR]%3d", _compile_id); | |
445 } else { | |
446 tty->print("%3d", _compile_id); | |
447 } | |
448 } | |
449 #endif | |
450 } | |
451 | |
452 | |
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453 //-----------------------init_scratch_buffer_blob------------------------------ |
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454 // Construct a temporary BufferBlob and cache it for this compile. |
2008 | 455 void Compile::init_scratch_buffer_blob(int const_size) { |
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456 // If there is already a scratch buffer blob allocated and the |
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457 // constant section is big enough, use it. Otherwise free the |
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458 // current and allocate a new one. |
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459 BufferBlob* blob = scratch_buffer_blob(); |
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460 if ((blob != NULL) && (const_size <= _scratch_const_size)) { |
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461 // Use the current blob. |
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462 } else { |
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463 if (blob != NULL) { |
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464 BufferBlob::free(blob); |
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465 } |
0 | 466 |
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467 ResourceMark rm; |
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468 _scratch_const_size = const_size; |
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469 int size = (MAX_inst_size + MAX_stubs_size + _scratch_const_size); |
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470 blob = BufferBlob::create("Compile::scratch_buffer", size); |
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471 // Record the buffer blob for next time. |
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472 set_scratch_buffer_blob(blob); |
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473 // Have we run out of code space? |
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474 if (scratch_buffer_blob() == NULL) { |
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475 // Let CompilerBroker disable further compilations. |
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476 record_failure("Not enough space for scratch buffer in CodeCache"); |
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477 return; |
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478 } |
163 | 479 } |
0 | 480 |
481 // Initialize the relocation buffers | |
1748 | 482 relocInfo* locs_buf = (relocInfo*) blob->content_end() - MAX_locs_size; |
0 | 483 set_scratch_locs_memory(locs_buf); |
484 } | |
485 | |
486 | |
487 //-----------------------scratch_emit_size------------------------------------- | |
488 // Helper function that computes size by emitting code | |
489 uint Compile::scratch_emit_size(const Node* n) { | |
2008 | 490 // Start scratch_emit_size section. |
491 set_in_scratch_emit_size(true); | |
492 | |
0 | 493 // Emit into a trash buffer and count bytes emitted. |
494 // This is a pretty expensive way to compute a size, | |
495 // but it works well enough if seldom used. | |
496 // All common fixed-size instructions are given a size | |
497 // method by the AD file. | |
498 // Note that the scratch buffer blob and locs memory are | |
499 // allocated at the beginning of the compile task, and | |
500 // may be shared by several calls to scratch_emit_size. | |
501 // The allocation of the scratch buffer blob is particularly | |
502 // expensive, since it has to grab the code cache lock. | |
503 BufferBlob* blob = this->scratch_buffer_blob(); | |
504 assert(blob != NULL, "Initialize BufferBlob at start"); | |
505 assert(blob->size() > MAX_inst_size, "sanity"); | |
506 relocInfo* locs_buf = scratch_locs_memory(); | |
1748 | 507 address blob_begin = blob->content_begin(); |
0 | 508 address blob_end = (address)locs_buf; |
1748 | 509 assert(blob->content_contains(blob_end), "sanity"); |
0 | 510 CodeBuffer buf(blob_begin, blob_end - blob_begin); |
2008 | 511 buf.initialize_consts_size(_scratch_const_size); |
0 | 512 buf.initialize_stubs_size(MAX_stubs_size); |
513 assert(locs_buf != NULL, "sanity"); | |
2008 | 514 int lsize = MAX_locs_size / 3; |
515 buf.consts()->initialize_shared_locs(&locs_buf[lsize * 0], lsize); | |
516 buf.insts()->initialize_shared_locs( &locs_buf[lsize * 1], lsize); | |
517 buf.stubs()->initialize_shared_locs( &locs_buf[lsize * 2], lsize); | |
518 | |
519 // Do the emission. | |
3839 | 520 |
521 Label fakeL; // Fake label for branch instructions. | |
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522 Label* saveL = NULL; |
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523 uint save_bnum = 0; |
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524 bool is_branch = n->is_MachBranch(); |
3839 | 525 if (is_branch) { |
526 MacroAssembler masm(&buf); | |
527 masm.bind(fakeL); | |
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528 n->as_MachBranch()->save_label(&saveL, &save_bnum); |
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529 n->as_MachBranch()->label_set(&fakeL, 0); |
3839 | 530 } |
0 | 531 n->emit(buf, this->regalloc()); |
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532 if (is_branch) // Restore label. |
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533 n->as_MachBranch()->label_set(saveL, save_bnum); |
2008 | 534 |
535 // End scratch_emit_size section. | |
536 set_in_scratch_emit_size(false); | |
537 | |
1748 | 538 return buf.insts_size(); |
0 | 539 } |
540 | |
541 | |
542 // ============================================================================ | |
543 //------------------------------Compile standard------------------------------- | |
544 debug_only( int Compile::_debug_idx = 100000; ) | |
545 | |
546 // Compile a method. entry_bci is -1 for normal compilations and indicates | |
547 // the continuation bci for on stack replacement. | |
548 | |
549 | |
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550 Compile::Compile( ciEnv* ci_env, C2Compiler* compiler, ciMethod* target, int osr_bci, bool subsume_loads, bool do_escape_analysis ) |
0 | 551 : Phase(Compiler), |
552 _env(ci_env), | |
553 _log(ci_env->log()), | |
554 _compile_id(ci_env->compile_id()), | |
555 _save_argument_registers(false), | |
556 _stub_name(NULL), | |
557 _stub_function(NULL), | |
558 _stub_entry_point(NULL), | |
559 _method(target), | |
560 _entry_bci(osr_bci), | |
561 _initial_gvn(NULL), | |
562 _for_igvn(NULL), | |
563 _warm_calls(NULL), | |
564 _subsume_loads(subsume_loads), | |
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565 _do_escape_analysis(do_escape_analysis), |
0 | 566 _failure_reason(NULL), |
567 _code_buffer("Compile::Fill_buffer"), | |
568 _orig_pc_slot(0), | |
569 _orig_pc_slot_offset_in_bytes(0), | |
1265 | 570 _has_method_handle_invokes(false), |
2008 | 571 _mach_constant_base_node(NULL), |
0 | 572 _node_bundling_limit(0), |
573 _node_bundling_base(NULL), | |
859
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574 _java_calls(0), |
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575 _inner_loops(0), |
2008 | 576 _scratch_const_size(-1), |
577 _in_scratch_emit_size(false), | |
0 | 578 #ifndef PRODUCT |
579 _trace_opto_output(TraceOptoOutput || method()->has_option("TraceOptoOutput")), | |
580 _printer(IdealGraphPrinter::printer()), | |
581 #endif | |
582 _congraph(NULL) { | |
583 C = this; | |
584 | |
585 CompileWrapper cw(this); | |
586 #ifndef PRODUCT | |
587 if (TimeCompiler2) { | |
588 tty->print(" "); | |
589 target->holder()->name()->print(); | |
590 tty->print("."); | |
591 target->print_short_name(); | |
592 tty->print(" "); | |
593 } | |
594 TraceTime t1("Total compilation time", &_t_totalCompilation, TimeCompiler, TimeCompiler2); | |
595 TraceTime t2(NULL, &_t_methodCompilation, TimeCompiler, false); | |
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596 bool print_opto_assembly = PrintOptoAssembly || _method->has_option("PrintOptoAssembly"); |
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597 if (!print_opto_assembly) { |
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598 bool print_assembly = (PrintAssembly || _method->should_print_assembly()); |
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599 if (print_assembly && !Disassembler::can_decode()) { |
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600 tty->print_cr("PrintAssembly request changed to PrintOptoAssembly"); |
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601 print_opto_assembly = true; |
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602 } |
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603 } |
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604 set_print_assembly(print_opto_assembly); |
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605 set_parsed_irreducible_loop(false); |
0 | 606 #endif |
607 | |
608 if (ProfileTraps) { | |
609 // Make sure the method being compiled gets its own MDO, | |
610 // so we can at least track the decompile_count(). | |
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611 method()->ensure_method_data(); |
0 | 612 } |
613 | |
614 Init(::AliasLevel); | |
615 | |
616 | |
617 print_compile_messages(); | |
618 | |
619 if (UseOldInlining || PrintCompilation NOT_PRODUCT( || PrintOpto) ) | |
620 _ilt = InlineTree::build_inline_tree_root(); | |
621 else | |
622 _ilt = NULL; | |
623 | |
624 // Even if NO memory addresses are used, MergeMem nodes must have at least 1 slice | |
625 assert(num_alias_types() >= AliasIdxRaw, ""); | |
626 | |
627 #define MINIMUM_NODE_HASH 1023 | |
628 // Node list that Iterative GVN will start with | |
629 Unique_Node_List for_igvn(comp_arena()); | |
630 set_for_igvn(&for_igvn); | |
631 | |
632 // GVN that will be run immediately on new nodes | |
633 uint estimated_size = method()->code_size()*4+64; | |
634 estimated_size = (estimated_size < MINIMUM_NODE_HASH ? MINIMUM_NODE_HASH : estimated_size); | |
635 PhaseGVN gvn(node_arena(), estimated_size); | |
636 set_initial_gvn(&gvn); | |
637 | |
638 { // Scope for timing the parser | |
639 TracePhase t3("parse", &_t_parser, true); | |
640 | |
641 // Put top into the hash table ASAP. | |
642 initial_gvn()->transform_no_reclaim(top()); | |
643 | |
644 // Set up tf(), start(), and find a CallGenerator. | |
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645 CallGenerator* cg = NULL; |
0 | 646 if (is_osr_compilation()) { |
647 const TypeTuple *domain = StartOSRNode::osr_domain(); | |
648 const TypeTuple *range = TypeTuple::make_range(method()->signature()); | |
649 init_tf(TypeFunc::make(domain, range)); | |
650 StartNode* s = new (this, 2) StartOSRNode(root(), domain); | |
651 initial_gvn()->set_type_bottom(s); | |
652 init_start(s); | |
653 cg = CallGenerator::for_osr(method(), entry_bci()); | |
654 } else { | |
655 // Normal case. | |
656 init_tf(TypeFunc::make(method())); | |
657 StartNode* s = new (this, 2) StartNode(root(), tf()->domain()); | |
658 initial_gvn()->set_type_bottom(s); | |
659 init_start(s); | |
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660 if (method()->intrinsic_id() == vmIntrinsics::_Reference_get && UseG1GC) { |
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661 // With java.lang.ref.reference.get() we must go through the |
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662 // intrinsic when G1 is enabled - even when get() is the root |
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663 // method of the compile - so that, if necessary, the value in |
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664 // the referent field of the reference object gets recorded by |
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665 // the pre-barrier code. |
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666 // Specifically, if G1 is enabled, the value in the referent |
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667 // field is recorded by the G1 SATB pre barrier. This will |
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668 // result in the referent being marked live and the reference |
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669 // object removed from the list of discovered references during |
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670 // reference processing. |
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671 cg = find_intrinsic(method(), false); |
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672 } |
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673 if (cg == NULL) { |
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674 float past_uses = method()->interpreter_invocation_count(); |
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675 float expected_uses = past_uses; |
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676 cg = CallGenerator::for_inline(method(), expected_uses); |
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677 } |
0 | 678 } |
679 if (failing()) return; | |
680 if (cg == NULL) { | |
681 record_method_not_compilable_all_tiers("cannot parse method"); | |
682 return; | |
683 } | |
684 JVMState* jvms = build_start_state(start(), tf()); | |
685 if ((jvms = cg->generate(jvms)) == NULL) { | |
686 record_method_not_compilable("method parse failed"); | |
687 return; | |
688 } | |
689 GraphKit kit(jvms); | |
690 | |
691 if (!kit.stopped()) { | |
692 // Accept return values, and transfer control we know not where. | |
693 // This is done by a special, unique ReturnNode bound to root. | |
694 return_values(kit.jvms()); | |
695 } | |
696 | |
697 if (kit.has_exceptions()) { | |
698 // Any exceptions that escape from this call must be rethrown | |
699 // to whatever caller is dynamically above us on the stack. | |
700 // This is done by a special, unique RethrowNode bound to root. | |
701 rethrow_exceptions(kit.transfer_exceptions_into_jvms()); | |
702 } | |
703 | |
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704 if (!failing() && has_stringbuilder()) { |
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705 { |
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706 // remove useless nodes to make the usage analysis simpler |
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707 ResourceMark rm; |
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708 PhaseRemoveUseless pru(initial_gvn(), &for_igvn); |
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709 } |
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710 |
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711 { |
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712 ResourceMark rm; |
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713 print_method("Before StringOpts", 3); |
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714 PhaseStringOpts pso(initial_gvn(), &for_igvn); |
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715 print_method("After StringOpts", 3); |
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716 } |
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717 |
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718 // now inline anything that we skipped the first time around |
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719 while (_late_inlines.length() > 0) { |
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720 CallGenerator* cg = _late_inlines.pop(); |
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721 cg->do_late_inline(); |
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722 } |
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723 } |
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724 assert(_late_inlines.length() == 0, "should have been processed"); |
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725 |
417 | 726 print_method("Before RemoveUseless", 3); |
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727 |
0 | 728 // Remove clutter produced by parsing. |
729 if (!failing()) { | |
730 ResourceMark rm; | |
731 PhaseRemoveUseless pru(initial_gvn(), &for_igvn); | |
732 } | |
733 } | |
734 | |
735 // Note: Large methods are capped off in do_one_bytecode(). | |
736 if (failing()) return; | |
737 | |
738 // After parsing, node notes are no longer automagic. | |
739 // They must be propagated by register_new_node_with_optimizer(), | |
740 // clone(), or the like. | |
741 set_default_node_notes(NULL); | |
742 | |
743 for (;;) { | |
744 int successes = Inline_Warm(); | |
745 if (failing()) return; | |
746 if (successes == 0) break; | |
747 } | |
748 | |
749 // Drain the list. | |
750 Finish_Warm(); | |
751 #ifndef PRODUCT | |
752 if (_printer) { | |
753 _printer->print_inlining(this); | |
754 } | |
755 #endif | |
756 | |
757 if (failing()) return; | |
758 NOT_PRODUCT( verify_graph_edges(); ) | |
759 | |
760 // Now optimize | |
761 Optimize(); | |
762 if (failing()) return; | |
763 NOT_PRODUCT( verify_graph_edges(); ) | |
764 | |
765 #ifndef PRODUCT | |
766 if (PrintIdeal) { | |
767 ttyLocker ttyl; // keep the following output all in one block | |
768 // This output goes directly to the tty, not the compiler log. | |
769 // To enable tools to match it up with the compilation activity, | |
770 // be sure to tag this tty output with the compile ID. | |
771 if (xtty != NULL) { | |
772 xtty->head("ideal compile_id='%d'%s", compile_id(), | |
773 is_osr_compilation() ? " compile_kind='osr'" : | |
774 ""); | |
775 } | |
776 root()->dump(9999); | |
777 if (xtty != NULL) { | |
778 xtty->tail("ideal"); | |
779 } | |
780 } | |
781 #endif | |
782 | |
783 // Now that we know the size of all the monitors we can add a fixed slot | |
784 // for the original deopt pc. | |
785 | |
786 _orig_pc_slot = fixed_slots(); | |
787 int next_slot = _orig_pc_slot + (sizeof(address) / VMRegImpl::stack_slot_size); | |
788 set_fixed_slots(next_slot); | |
789 | |
790 // Now generate code | |
791 Code_Gen(); | |
792 if (failing()) return; | |
793 | |
794 // Check if we want to skip execution of all compiled code. | |
795 { | |
796 #ifndef PRODUCT | |
797 if (OptoNoExecute) { | |
798 record_method_not_compilable("+OptoNoExecute"); // Flag as failed | |
799 return; | |
800 } | |
801 TracePhase t2("install_code", &_t_registerMethod, TimeCompiler); | |
802 #endif | |
803 | |
804 if (is_osr_compilation()) { | |
805 _code_offsets.set_value(CodeOffsets::Verified_Entry, 0); | |
806 _code_offsets.set_value(CodeOffsets::OSR_Entry, _first_block_size); | |
807 } else { | |
808 _code_offsets.set_value(CodeOffsets::Verified_Entry, _first_block_size); | |
809 _code_offsets.set_value(CodeOffsets::OSR_Entry, 0); | |
810 } | |
811 | |
812 env()->register_method(_method, _entry_bci, | |
813 &_code_offsets, | |
814 _orig_pc_slot_offset_in_bytes, | |
815 code_buffer(), | |
816 frame_size_in_words(), _oop_map_set, | |
817 &_handler_table, &_inc_table, | |
818 compiler, | |
819 env()->comp_level(), | |
820 true, /*has_debug_info*/ | |
821 has_unsafe_access() | |
822 ); | |
823 } | |
824 } | |
825 | |
826 //------------------------------Compile---------------------------------------- | |
827 // Compile a runtime stub | |
828 Compile::Compile( ciEnv* ci_env, | |
829 TypeFunc_generator generator, | |
830 address stub_function, | |
831 const char *stub_name, | |
832 int is_fancy_jump, | |
833 bool pass_tls, | |
834 bool save_arg_registers, | |
835 bool return_pc ) | |
836 : Phase(Compiler), | |
837 _env(ci_env), | |
838 _log(ci_env->log()), | |
839 _compile_id(-1), | |
840 _save_argument_registers(save_arg_registers), | |
841 _method(NULL), | |
842 _stub_name(stub_name), | |
843 _stub_function(stub_function), | |
844 _stub_entry_point(NULL), | |
845 _entry_bci(InvocationEntryBci), | |
846 _initial_gvn(NULL), | |
847 _for_igvn(NULL), | |
848 _warm_calls(NULL), | |
849 _orig_pc_slot(0), | |
850 _orig_pc_slot_offset_in_bytes(0), | |
851 _subsume_loads(true), | |
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852 _do_escape_analysis(false), |
0 | 853 _failure_reason(NULL), |
854 _code_buffer("Compile::Fill_buffer"), | |
1265 | 855 _has_method_handle_invokes(false), |
2008 | 856 _mach_constant_base_node(NULL), |
0 | 857 _node_bundling_limit(0), |
858 _node_bundling_base(NULL), | |
859
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859 _java_calls(0), |
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860 _inner_loops(0), |
0 | 861 #ifndef PRODUCT |
862 _trace_opto_output(TraceOptoOutput), | |
863 _printer(NULL), | |
864 #endif | |
865 _congraph(NULL) { | |
866 C = this; | |
867 | |
868 #ifndef PRODUCT | |
869 TraceTime t1(NULL, &_t_totalCompilation, TimeCompiler, false); | |
870 TraceTime t2(NULL, &_t_stubCompilation, TimeCompiler, false); | |
871 set_print_assembly(PrintFrameConverterAssembly); | |
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872 set_parsed_irreducible_loop(false); |
0 | 873 #endif |
874 CompileWrapper cw(this); | |
875 Init(/*AliasLevel=*/ 0); | |
876 init_tf((*generator)()); | |
877 | |
878 { | |
879 // The following is a dummy for the sake of GraphKit::gen_stub | |
880 Unique_Node_List for_igvn(comp_arena()); | |
881 set_for_igvn(&for_igvn); // not used, but some GraphKit guys push on this | |
882 PhaseGVN gvn(Thread::current()->resource_area(),255); | |
883 set_initial_gvn(&gvn); // not significant, but GraphKit guys use it pervasively | |
884 gvn.transform_no_reclaim(top()); | |
885 | |
886 GraphKit kit; | |
887 kit.gen_stub(stub_function, stub_name, is_fancy_jump, pass_tls, return_pc); | |
888 } | |
889 | |
890 NOT_PRODUCT( verify_graph_edges(); ) | |
891 Code_Gen(); | |
892 if (failing()) return; | |
893 | |
894 | |
895 // Entry point will be accessed using compile->stub_entry_point(); | |
896 if (code_buffer() == NULL) { | |
897 Matcher::soft_match_failure(); | |
898 } else { | |
899 if (PrintAssembly && (WizardMode || Verbose)) | |
900 tty->print_cr("### Stub::%s", stub_name); | |
901 | |
902 if (!failing()) { | |
903 assert(_fixed_slots == 0, "no fixed slots used for runtime stubs"); | |
904 | |
905 // Make the NMethod | |
906 // For now we mark the frame as never safe for profile stackwalking | |
907 RuntimeStub *rs = RuntimeStub::new_runtime_stub(stub_name, | |
908 code_buffer(), | |
909 CodeOffsets::frame_never_safe, | |
910 // _code_offsets.value(CodeOffsets::Frame_Complete), | |
911 frame_size_in_words(), | |
912 _oop_map_set, | |
913 save_arg_registers); | |
914 assert(rs != NULL && rs->is_runtime_stub(), "sanity check"); | |
915 | |
916 _stub_entry_point = rs->entry_point(); | |
917 } | |
918 } | |
919 } | |
920 | |
921 #ifndef PRODUCT | |
922 void print_opto_verbose_signature( const TypeFunc *j_sig, const char *stub_name ) { | |
923 if(PrintOpto && Verbose) { | |
924 tty->print("%s ", stub_name); j_sig->print_flattened(); tty->cr(); | |
925 } | |
926 } | |
927 #endif | |
928 | |
929 void Compile::print_codes() { | |
930 } | |
931 | |
932 //------------------------------Init------------------------------------------- | |
933 // Prepare for a single compilation | |
934 void Compile::Init(int aliaslevel) { | |
935 _unique = 0; | |
936 _regalloc = NULL; | |
937 | |
938 _tf = NULL; // filled in later | |
939 _top = NULL; // cached later | |
940 _matcher = NULL; // filled in later | |
941 _cfg = NULL; // filled in later | |
942 | |
943 set_24_bit_selection_and_mode(Use24BitFP, false); | |
944 | |
945 _node_note_array = NULL; | |
946 _default_node_notes = NULL; | |
947 | |
948 _immutable_memory = NULL; // filled in at first inquiry | |
949 | |
950 // Globally visible Nodes | |
951 // First set TOP to NULL to give safe behavior during creation of RootNode | |
952 set_cached_top_node(NULL); | |
953 set_root(new (this, 3) RootNode()); | |
954 // Now that you have a Root to point to, create the real TOP | |
955 set_cached_top_node( new (this, 1) ConNode(Type::TOP) ); | |
956 set_recent_alloc(NULL, NULL); | |
957 | |
958 // Create Debug Information Recorder to record scopes, oopmaps, etc. | |
959 env()->set_oop_recorder(new OopRecorder(comp_arena())); | |
960 env()->set_debug_info(new DebugInformationRecorder(env()->oop_recorder())); | |
961 env()->set_dependencies(new Dependencies(env())); | |
962 | |
963 _fixed_slots = 0; | |
964 set_has_split_ifs(false); | |
965 set_has_loops(has_method() && method()->has_loops()); // first approximation | |
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966 set_has_stringbuilder(false); |
0 | 967 _trap_can_recompile = false; // no traps emitted yet |
968 _major_progress = true; // start out assuming good things will happen | |
969 set_has_unsafe_access(false); | |
970 Copy::zero_to_bytes(_trap_hist, sizeof(_trap_hist)); | |
971 set_decompile_count(0); | |
972 | |
418 | 973 set_do_freq_based_layout(BlockLayoutByFrequency || method_has_option("BlockLayoutByFrequency")); |
1783 | 974 set_num_loop_opts(LoopOptsCount); |
975 set_do_inlining(Inline); | |
976 set_max_inline_size(MaxInlineSize); | |
977 set_freq_inline_size(FreqInlineSize); | |
978 set_do_scheduling(OptoScheduling); | |
979 set_do_count_invocations(false); | |
980 set_do_method_data_update(false); | |
0 | 981 |
982 if (debug_info()->recording_non_safepoints()) { | |
983 set_node_note_array(new(comp_arena()) GrowableArray<Node_Notes*> | |
984 (comp_arena(), 8, 0, NULL)); | |
985 set_default_node_notes(Node_Notes::make(this)); | |
986 } | |
987 | |
988 // // -- Initialize types before each compile -- | |
989 // // Update cached type information | |
990 // if( _method && _method->constants() ) | |
991 // Type::update_loaded_types(_method, _method->constants()); | |
992 | |
993 // Init alias_type map. | |
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994 if (!_do_escape_analysis && aliaslevel == 3) |
0 | 995 aliaslevel = 2; // No unique types without escape analysis |
996 _AliasLevel = aliaslevel; | |
997 const int grow_ats = 16; | |
998 _max_alias_types = grow_ats; | |
999 _alias_types = NEW_ARENA_ARRAY(comp_arena(), AliasType*, grow_ats); | |
1000 AliasType* ats = NEW_ARENA_ARRAY(comp_arena(), AliasType, grow_ats); | |
1001 Copy::zero_to_bytes(ats, sizeof(AliasType)*grow_ats); | |
1002 { | |
1003 for (int i = 0; i < grow_ats; i++) _alias_types[i] = &ats[i]; | |
1004 } | |
1005 // Initialize the first few types. | |
1006 _alias_types[AliasIdxTop]->Init(AliasIdxTop, NULL); | |
1007 _alias_types[AliasIdxBot]->Init(AliasIdxBot, TypePtr::BOTTOM); | |
1008 _alias_types[AliasIdxRaw]->Init(AliasIdxRaw, TypeRawPtr::BOTTOM); | |
1009 _num_alias_types = AliasIdxRaw+1; | |
1010 // Zero out the alias type cache. | |
1011 Copy::zero_to_bytes(_alias_cache, sizeof(_alias_cache)); | |
1012 // A NULL adr_type hits in the cache right away. Preload the right answer. | |
1013 probe_alias_cache(NULL)->_index = AliasIdxTop; | |
1014 | |
1015 _intrinsics = NULL; | |
1685 | 1016 _macro_nodes = new(comp_arena()) GrowableArray<Node*>(comp_arena(), 8, 0, NULL); |
1017 _predicate_opaqs = new(comp_arena()) GrowableArray<Node*>(comp_arena(), 8, 0, NULL); | |
0 | 1018 register_library_intrinsics(); |
1019 } | |
1020 | |
1021 //---------------------------init_start---------------------------------------- | |
1022 // Install the StartNode on this compile object. | |
1023 void Compile::init_start(StartNode* s) { | |
1024 if (failing()) | |
1025 return; // already failing | |
1026 assert(s == start(), ""); | |
1027 } | |
1028 | |
1029 StartNode* Compile::start() const { | |
1030 assert(!failing(), ""); | |
1031 for (DUIterator_Fast imax, i = root()->fast_outs(imax); i < imax; i++) { | |
1032 Node* start = root()->fast_out(i); | |
1033 if( start->is_Start() ) | |
1034 return start->as_Start(); | |
1035 } | |
1036 ShouldNotReachHere(); | |
1037 return NULL; | |
1038 } | |
1039 | |
1040 //-------------------------------immutable_memory------------------------------------- | |
1041 // Access immutable memory | |
1042 Node* Compile::immutable_memory() { | |
1043 if (_immutable_memory != NULL) { | |
1044 return _immutable_memory; | |
1045 } | |
1046 StartNode* s = start(); | |
1047 for (DUIterator_Fast imax, i = s->fast_outs(imax); true; i++) { | |
1048 Node *p = s->fast_out(i); | |
1049 if (p != s && p->as_Proj()->_con == TypeFunc::Memory) { | |
1050 _immutable_memory = p; | |
1051 return _immutable_memory; | |
1052 } | |
1053 } | |
1054 ShouldNotReachHere(); | |
1055 return NULL; | |
1056 } | |
1057 | |
1058 //----------------------set_cached_top_node------------------------------------ | |
1059 // Install the cached top node, and make sure Node::is_top works correctly. | |
1060 void Compile::set_cached_top_node(Node* tn) { | |
1061 if (tn != NULL) verify_top(tn); | |
1062 Node* old_top = _top; | |
1063 _top = tn; | |
1064 // Calling Node::setup_is_top allows the nodes the chance to adjust | |
1065 // their _out arrays. | |
1066 if (_top != NULL) _top->setup_is_top(); | |
1067 if (old_top != NULL) old_top->setup_is_top(); | |
1068 assert(_top == NULL || top()->is_top(), ""); | |
1069 } | |
1070 | |
1071 #ifndef PRODUCT | |
1072 void Compile::verify_top(Node* tn) const { | |
1073 if (tn != NULL) { | |
1074 assert(tn->is_Con(), "top node must be a constant"); | |
1075 assert(((ConNode*)tn)->type() == Type::TOP, "top node must have correct type"); | |
1076 assert(tn->in(0) != NULL, "must have live top node"); | |
1077 } | |
1078 } | |
1079 #endif | |
1080 | |
1081 | |
1082 ///-------------------Managing Per-Node Debug & Profile Info------------------- | |
1083 | |
1084 void Compile::grow_node_notes(GrowableArray<Node_Notes*>* arr, int grow_by) { | |
1085 guarantee(arr != NULL, ""); | |
1086 int num_blocks = arr->length(); | |
1087 if (grow_by < num_blocks) grow_by = num_blocks; | |
1088 int num_notes = grow_by * _node_notes_block_size; | |
1089 Node_Notes* notes = NEW_ARENA_ARRAY(node_arena(), Node_Notes, num_notes); | |
1090 Copy::zero_to_bytes(notes, num_notes * sizeof(Node_Notes)); | |
1091 while (num_notes > 0) { | |
1092 arr->append(notes); | |
1093 notes += _node_notes_block_size; | |
1094 num_notes -= _node_notes_block_size; | |
1095 } | |
1096 assert(num_notes == 0, "exact multiple, please"); | |
1097 } | |
1098 | |
1099 bool Compile::copy_node_notes_to(Node* dest, Node* source) { | |
1100 if (source == NULL || dest == NULL) return false; | |
1101 | |
1102 if (dest->is_Con()) | |
1103 return false; // Do not push debug info onto constants. | |
1104 | |
1105 #ifdef ASSERT | |
1106 // Leave a bread crumb trail pointing to the original node: | |
1107 if (dest != NULL && dest != source && dest->debug_orig() == NULL) { | |
1108 dest->set_debug_orig(source); | |
1109 } | |
1110 #endif | |
1111 | |
1112 if (node_note_array() == NULL) | |
1113 return false; // Not collecting any notes now. | |
1114 | |
1115 // This is a copy onto a pre-existing node, which may already have notes. | |
1116 // If both nodes have notes, do not overwrite any pre-existing notes. | |
1117 Node_Notes* source_notes = node_notes_at(source->_idx); | |
1118 if (source_notes == NULL || source_notes->is_clear()) return false; | |
1119 Node_Notes* dest_notes = node_notes_at(dest->_idx); | |
1120 if (dest_notes == NULL || dest_notes->is_clear()) { | |
1121 return set_node_notes_at(dest->_idx, source_notes); | |
1122 } | |
1123 | |
1124 Node_Notes merged_notes = (*source_notes); | |
1125 // The order of operations here ensures that dest notes will win... | |
1126 merged_notes.update_from(dest_notes); | |
1127 return set_node_notes_at(dest->_idx, &merged_notes); | |
1128 } | |
1129 | |
1130 | |
1131 //--------------------------allow_range_check_smearing------------------------- | |
1132 // Gating condition for coalescing similar range checks. | |
1133 // Sometimes we try 'speculatively' replacing a series of a range checks by a | |
1134 // single covering check that is at least as strong as any of them. | |
1135 // If the optimization succeeds, the simplified (strengthened) range check | |
1136 // will always succeed. If it fails, we will deopt, and then give up | |
1137 // on the optimization. | |
1138 bool Compile::allow_range_check_smearing() const { | |
1139 // If this method has already thrown a range-check, | |
1140 // assume it was because we already tried range smearing | |
1141 // and it failed. | |
1142 uint already_trapped = trap_count(Deoptimization::Reason_range_check); | |
1143 return !already_trapped; | |
1144 } | |
1145 | |
1146 | |
1147 //------------------------------flatten_alias_type----------------------------- | |
1148 const TypePtr *Compile::flatten_alias_type( const TypePtr *tj ) const { | |
1149 int offset = tj->offset(); | |
1150 TypePtr::PTR ptr = tj->ptr(); | |
1151 | |
247 | 1152 // Known instance (scalarizable allocation) alias only with itself. |
1153 bool is_known_inst = tj->isa_oopptr() != NULL && | |
1154 tj->is_oopptr()->is_known_instance(); | |
1155 | |
0 | 1156 // Process weird unsafe references. |
1157 if (offset == Type::OffsetBot && (tj->isa_instptr() /*|| tj->isa_klassptr()*/)) { | |
1158 assert(InlineUnsafeOps, "indeterminate pointers come only from unsafe ops"); | |
247 | 1159 assert(!is_known_inst, "scalarizable allocation should not have unsafe references"); |
0 | 1160 tj = TypeOopPtr::BOTTOM; |
1161 ptr = tj->ptr(); | |
1162 offset = tj->offset(); | |
1163 } | |
1164 | |
1165 // Array pointers need some flattening | |
1166 const TypeAryPtr *ta = tj->isa_aryptr(); | |
247 | 1167 if( ta && is_known_inst ) { |
1168 if ( offset != Type::OffsetBot && | |
1169 offset > arrayOopDesc::length_offset_in_bytes() ) { | |
1170 offset = Type::OffsetBot; // Flatten constant access into array body only | |
1171 tj = ta = TypeAryPtr::make(ptr, ta->ary(), ta->klass(), true, offset, ta->instance_id()); | |
1172 } | |
1173 } else if( ta && _AliasLevel >= 2 ) { | |
0 | 1174 // For arrays indexed by constant indices, we flatten the alias |
1175 // space to include all of the array body. Only the header, klass | |
1176 // and array length can be accessed un-aliased. | |
1177 if( offset != Type::OffsetBot ) { | |
1178 if( ta->const_oop() ) { // methodDataOop or methodOop | |
1179 offset = Type::OffsetBot; // Flatten constant access into array body | |
247 | 1180 tj = ta = TypeAryPtr::make(ptr,ta->const_oop(),ta->ary(),ta->klass(),false,offset); |
0 | 1181 } else if( offset == arrayOopDesc::length_offset_in_bytes() ) { |
1182 // range is OK as-is. | |
1183 tj = ta = TypeAryPtr::RANGE; | |
1184 } else if( offset == oopDesc::klass_offset_in_bytes() ) { | |
1185 tj = TypeInstPtr::KLASS; // all klass loads look alike | |
1186 ta = TypeAryPtr::RANGE; // generic ignored junk | |
1187 ptr = TypePtr::BotPTR; | |
1188 } else if( offset == oopDesc::mark_offset_in_bytes() ) { | |
1189 tj = TypeInstPtr::MARK; | |
1190 ta = TypeAryPtr::RANGE; // generic ignored junk | |
1191 ptr = TypePtr::BotPTR; | |
1192 } else { // Random constant offset into array body | |
1193 offset = Type::OffsetBot; // Flatten constant access into array body | |
247 | 1194 tj = ta = TypeAryPtr::make(ptr,ta->ary(),ta->klass(),false,offset); |
0 | 1195 } |
1196 } | |
1197 // Arrays of fixed size alias with arrays of unknown size. | |
1198 if (ta->size() != TypeInt::POS) { | |
1199 const TypeAry *tary = TypeAry::make(ta->elem(), TypeInt::POS); | |
247 | 1200 tj = ta = TypeAryPtr::make(ptr,ta->const_oop(),tary,ta->klass(),false,offset); |
0 | 1201 } |
1202 // Arrays of known objects become arrays of unknown objects. | |
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1203 if (ta->elem()->isa_narrowoop() && ta->elem() != TypeNarrowOop::BOTTOM) { |
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1204 const TypeAry *tary = TypeAry::make(TypeNarrowOop::BOTTOM, ta->size()); |
247 | 1205 tj = ta = TypeAryPtr::make(ptr,ta->const_oop(),tary,NULL,false,offset); |
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1206 } |
0 | 1207 if (ta->elem()->isa_oopptr() && ta->elem() != TypeInstPtr::BOTTOM) { |
1208 const TypeAry *tary = TypeAry::make(TypeInstPtr::BOTTOM, ta->size()); | |
247 | 1209 tj = ta = TypeAryPtr::make(ptr,ta->const_oop(),tary,NULL,false,offset); |
0 | 1210 } |
1211 // Arrays of bytes and of booleans both use 'bastore' and 'baload' so | |
1212 // cannot be distinguished by bytecode alone. | |
1213 if (ta->elem() == TypeInt::BOOL) { | |
1214 const TypeAry *tary = TypeAry::make(TypeInt::BYTE, ta->size()); | |
1215 ciKlass* aklass = ciTypeArrayKlass::make(T_BYTE); | |
247 | 1216 tj = ta = TypeAryPtr::make(ptr,ta->const_oop(),tary,aklass,false,offset); |
0 | 1217 } |
1218 // During the 2nd round of IterGVN, NotNull castings are removed. | |
1219 // Make sure the Bottom and NotNull variants alias the same. | |
1220 // Also, make sure exact and non-exact variants alias the same. | |
1221 if( ptr == TypePtr::NotNull || ta->klass_is_exact() ) { | |
3789 | 1222 tj = ta = TypeAryPtr::make(TypePtr::BotPTR,ta->ary(),ta->klass(),false,offset); |
0 | 1223 } |
1224 } | |
1225 | |
1226 // Oop pointers need some flattening | |
1227 const TypeInstPtr *to = tj->isa_instptr(); | |
1228 if( to && _AliasLevel >= 2 && to != TypeOopPtr::BOTTOM ) { | |
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1229 ciInstanceKlass *k = to->klass()->as_instance_klass(); |
0 | 1230 if( ptr == TypePtr::Constant ) { |
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1231 if (to->klass() != ciEnv::current()->Class_klass() || |
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1232 offset < k->size_helper() * wordSize) { |
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1233 // No constant oop pointers (such as Strings); they alias with |
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1234 // unknown strings. |
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1235 assert(!is_known_inst, "not scalarizable allocation"); |
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1236 tj = to = TypeInstPtr::make(TypePtr::BotPTR,to->klass(),false,0,offset); |
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1237 } |
247 | 1238 } else if( is_known_inst ) { |
163 | 1239 tj = to; // Keep NotNull and klass_is_exact for instance type |
0 | 1240 } else if( ptr == TypePtr::NotNull || to->klass_is_exact() ) { |
1241 // During the 2nd round of IterGVN, NotNull castings are removed. | |
1242 // Make sure the Bottom and NotNull variants alias the same. | |
1243 // Also, make sure exact and non-exact variants alias the same. | |
247 | 1244 tj = to = TypeInstPtr::make(TypePtr::BotPTR,to->klass(),false,0,offset); |
0 | 1245 } |
1246 // Canonicalize the holder of this field | |
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1247 if (offset >= 0 && offset < instanceOopDesc::base_offset_in_bytes()) { |
0 | 1248 // First handle header references such as a LoadKlassNode, even if the |
1249 // object's klass is unloaded at compile time (4965979). | |
247 | 1250 if (!is_known_inst) { // Do it only for non-instance types |
1251 tj = to = TypeInstPtr::make(TypePtr::BotPTR, env()->Object_klass(), false, NULL, offset); | |
1252 } | |
0 | 1253 } else if (offset < 0 || offset >= k->size_helper() * wordSize) { |
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1254 // Static fields are in the space above the normal instance |
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1255 // fields in the java.lang.Class instance. |
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1256 if (to->klass() != ciEnv::current()->Class_klass()) { |
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1257 to = NULL; |
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1258 tj = TypeOopPtr::BOTTOM; |
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1259 offset = tj->offset(); |
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1260 } |
0 | 1261 } else { |
1262 ciInstanceKlass *canonical_holder = k->get_canonical_holder(offset); | |
1263 if (!k->equals(canonical_holder) || tj->offset() != offset) { | |
247 | 1264 if( is_known_inst ) { |
1265 tj = to = TypeInstPtr::make(to->ptr(), canonical_holder, true, NULL, offset, to->instance_id()); | |
1266 } else { | |
1267 tj = to = TypeInstPtr::make(to->ptr(), canonical_holder, false, NULL, offset); | |
1268 } | |
0 | 1269 } |
1270 } | |
1271 } | |
1272 | |
1273 // Klass pointers to object array klasses need some flattening | |
1274 const TypeKlassPtr *tk = tj->isa_klassptr(); | |
1275 if( tk ) { | |
1276 // If we are referencing a field within a Klass, we need | |
1277 // to assume the worst case of an Object. Both exact and | |
1278 // inexact types must flatten to the same alias class. | |
1279 // Since the flattened result for a klass is defined to be | |
1280 // precisely java.lang.Object, use a constant ptr. | |
1281 if ( offset == Type::OffsetBot || (offset >= 0 && (size_t)offset < sizeof(Klass)) ) { | |
1282 | |
1283 tj = tk = TypeKlassPtr::make(TypePtr::Constant, | |
1284 TypeKlassPtr::OBJECT->klass(), | |
1285 offset); | |
1286 } | |
1287 | |
1288 ciKlass* klass = tk->klass(); | |
1289 if( klass->is_obj_array_klass() ) { | |
1290 ciKlass* k = TypeAryPtr::OOPS->klass(); | |
1291 if( !k || !k->is_loaded() ) // Only fails for some -Xcomp runs | |
1292 k = TypeInstPtr::BOTTOM->klass(); | |
1293 tj = tk = TypeKlassPtr::make( TypePtr::NotNull, k, offset ); | |
1294 } | |
1295 | |
1296 // Check for precise loads from the primary supertype array and force them | |
1297 // to the supertype cache alias index. Check for generic array loads from | |
1298 // the primary supertype array and also force them to the supertype cache | |
1299 // alias index. Since the same load can reach both, we need to merge | |
1300 // these 2 disparate memories into the same alias class. Since the | |
1301 // primary supertype array is read-only, there's no chance of confusion | |
1302 // where we bypass an array load and an array store. | |
1303 uint off2 = offset - Klass::primary_supers_offset_in_bytes(); | |
1304 if( offset == Type::OffsetBot || | |
1305 off2 < Klass::primary_super_limit()*wordSize ) { | |
1306 offset = sizeof(oopDesc) +Klass::secondary_super_cache_offset_in_bytes(); | |
1307 tj = tk = TypeKlassPtr::make( TypePtr::NotNull, tk->klass(), offset ); | |
1308 } | |
1309 } | |
1310 | |
1311 // Flatten all Raw pointers together. | |
1312 if (tj->base() == Type::RawPtr) | |
1313 tj = TypeRawPtr::BOTTOM; | |
1314 | |
1315 if (tj->base() == Type::AnyPtr) | |
1316 tj = TypePtr::BOTTOM; // An error, which the caller must check for. | |
1317 | |
1318 // Flatten all to bottom for now | |
1319 switch( _AliasLevel ) { | |
1320 case 0: | |
1321 tj = TypePtr::BOTTOM; | |
1322 break; | |
1323 case 1: // Flatten to: oop, static, field or array | |
1324 switch (tj->base()) { | |
1325 //case Type::AryPtr: tj = TypeAryPtr::RANGE; break; | |
1326 case Type::RawPtr: tj = TypeRawPtr::BOTTOM; break; | |
1327 case Type::AryPtr: // do not distinguish arrays at all | |
1328 case Type::InstPtr: tj = TypeInstPtr::BOTTOM; break; | |
1329 case Type::KlassPtr: tj = TypeKlassPtr::OBJECT; break; | |
1330 case Type::AnyPtr: tj = TypePtr::BOTTOM; break; // caller checks it | |
1331 default: ShouldNotReachHere(); | |
1332 } | |
1333 break; | |
605 | 1334 case 2: // No collapsing at level 2; keep all splits |
1335 case 3: // No collapsing at level 3; keep all splits | |
0 | 1336 break; |
1337 default: | |
1338 Unimplemented(); | |
1339 } | |
1340 | |
1341 offset = tj->offset(); | |
1342 assert( offset != Type::OffsetTop, "Offset has fallen from constant" ); | |
1343 | |
1344 assert( (offset != Type::OffsetBot && tj->base() != Type::AryPtr) || | |
1345 (offset == Type::OffsetBot && tj->base() == Type::AryPtr) || | |
1346 (offset == Type::OffsetBot && tj == TypeOopPtr::BOTTOM) || | |
1347 (offset == Type::OffsetBot && tj == TypePtr::BOTTOM) || | |
1348 (offset == oopDesc::mark_offset_in_bytes() && tj->base() == Type::AryPtr) || | |
1349 (offset == oopDesc::klass_offset_in_bytes() && tj->base() == Type::AryPtr) || | |
1350 (offset == arrayOopDesc::length_offset_in_bytes() && tj->base() == Type::AryPtr) , | |
1351 "For oops, klasses, raw offset must be constant; for arrays the offset is never known" ); | |
1352 assert( tj->ptr() != TypePtr::TopPTR && | |
1353 tj->ptr() != TypePtr::AnyNull && | |
1354 tj->ptr() != TypePtr::Null, "No imprecise addresses" ); | |
1355 // assert( tj->ptr() != TypePtr::Constant || | |
1356 // tj->base() == Type::RawPtr || | |
1357 // tj->base() == Type::KlassPtr, "No constant oop addresses" ); | |
1358 | |
1359 return tj; | |
1360 } | |
1361 | |
1362 void Compile::AliasType::Init(int i, const TypePtr* at) { | |
1363 _index = i; | |
1364 _adr_type = at; | |
1365 _field = NULL; | |
1366 _is_rewritable = true; // default | |
1367 const TypeOopPtr *atoop = (at != NULL) ? at->isa_oopptr() : NULL; | |
223 | 1368 if (atoop != NULL && atoop->is_known_instance()) { |
1369 const TypeOopPtr *gt = atoop->cast_to_instance_id(TypeOopPtr::InstanceBot); | |
0 | 1370 _general_index = Compile::current()->get_alias_index(gt); |
1371 } else { | |
1372 _general_index = 0; | |
1373 } | |
1374 } | |
1375 | |
1376 //---------------------------------print_on------------------------------------ | |
1377 #ifndef PRODUCT | |
1378 void Compile::AliasType::print_on(outputStream* st) { | |
1379 if (index() < 10) | |
1380 st->print("@ <%d> ", index()); | |
1381 else st->print("@ <%d>", index()); | |
1382 st->print(is_rewritable() ? " " : " RO"); | |
1383 int offset = adr_type()->offset(); | |
1384 if (offset == Type::OffsetBot) | |
1385 st->print(" +any"); | |
1386 else st->print(" +%-3d", offset); | |
1387 st->print(" in "); | |
1388 adr_type()->dump_on(st); | |
1389 const TypeOopPtr* tjp = adr_type()->isa_oopptr(); | |
1390 if (field() != NULL && tjp) { | |
1391 if (tjp->klass() != field()->holder() || | |
1392 tjp->offset() != field()->offset_in_bytes()) { | |
1393 st->print(" != "); | |
1394 field()->print(); | |
1395 st->print(" ***"); | |
1396 } | |
1397 } | |
1398 } | |
1399 | |
1400 void print_alias_types() { | |
1401 Compile* C = Compile::current(); | |
1402 tty->print_cr("--- Alias types, AliasIdxBot .. %d", C->num_alias_types()-1); | |
1403 for (int idx = Compile::AliasIdxBot; idx < C->num_alias_types(); idx++) { | |
1404 C->alias_type(idx)->print_on(tty); | |
1405 tty->cr(); | |
1406 } | |
1407 } | |
1408 #endif | |
1409 | |
1410 | |
1411 //----------------------------probe_alias_cache-------------------------------- | |
1412 Compile::AliasCacheEntry* Compile::probe_alias_cache(const TypePtr* adr_type) { | |
1413 intptr_t key = (intptr_t) adr_type; | |
1414 key ^= key >> logAliasCacheSize; | |
1415 return &_alias_cache[key & right_n_bits(logAliasCacheSize)]; | |
1416 } | |
1417 | |
1418 | |
1419 //-----------------------------grow_alias_types-------------------------------- | |
1420 void Compile::grow_alias_types() { | |
1421 const int old_ats = _max_alias_types; // how many before? | |
1422 const int new_ats = old_ats; // how many more? | |
1423 const int grow_ats = old_ats+new_ats; // how many now? | |
1424 _max_alias_types = grow_ats; | |
1425 _alias_types = REALLOC_ARENA_ARRAY(comp_arena(), AliasType*, _alias_types, old_ats, grow_ats); | |
1426 AliasType* ats = NEW_ARENA_ARRAY(comp_arena(), AliasType, new_ats); | |
1427 Copy::zero_to_bytes(ats, sizeof(AliasType)*new_ats); | |
1428 for (int i = 0; i < new_ats; i++) _alias_types[old_ats+i] = &ats[i]; | |
1429 } | |
1430 | |
1431 | |
1432 //--------------------------------find_alias_type------------------------------ | |
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1433 Compile::AliasType* Compile::find_alias_type(const TypePtr* adr_type, bool no_create, ciField* original_field) { |
0 | 1434 if (_AliasLevel == 0) |
1435 return alias_type(AliasIdxBot); | |
1436 | |
1437 AliasCacheEntry* ace = probe_alias_cache(adr_type); | |
1438 if (ace->_adr_type == adr_type) { | |
1439 return alias_type(ace->_index); | |
1440 } | |
1441 | |
1442 // Handle special cases. | |
1443 if (adr_type == NULL) return alias_type(AliasIdxTop); | |
1444 if (adr_type == TypePtr::BOTTOM) return alias_type(AliasIdxBot); | |
1445 | |
1446 // Do it the slow way. | |
1447 const TypePtr* flat = flatten_alias_type(adr_type); | |
1448 | |
1449 #ifdef ASSERT | |
1450 assert(flat == flatten_alias_type(flat), "idempotent"); | |
1451 assert(flat != TypePtr::BOTTOM, "cannot alias-analyze an untyped ptr"); | |
1452 if (flat->isa_oopptr() && !flat->isa_klassptr()) { | |
1453 const TypeOopPtr* foop = flat->is_oopptr(); | |
247 | 1454 // Scalarizable allocations have exact klass always. |
1455 bool exact = !foop->klass_is_exact() || foop->is_known_instance(); | |
1456 const TypePtr* xoop = foop->cast_to_exactness(exact)->is_ptr(); | |
0 | 1457 assert(foop == flatten_alias_type(xoop), "exactness must not affect alias type"); |
1458 } | |
1459 assert(flat == flatten_alias_type(flat), "exact bit doesn't matter"); | |
1460 #endif | |
1461 | |
1462 int idx = AliasIdxTop; | |
1463 for (int i = 0; i < num_alias_types(); i++) { | |
1464 if (alias_type(i)->adr_type() == flat) { | |
1465 idx = i; | |
1466 break; | |
1467 } | |
1468 } | |
1469 | |
1470 if (idx == AliasIdxTop) { | |
1471 if (no_create) return NULL; | |
1472 // Grow the array if necessary. | |
1473 if (_num_alias_types == _max_alias_types) grow_alias_types(); | |
1474 // Add a new alias type. | |
1475 idx = _num_alias_types++; | |
1476 _alias_types[idx]->Init(idx, flat); | |
1477 if (flat == TypeInstPtr::KLASS) alias_type(idx)->set_rewritable(false); | |
1478 if (flat == TypeAryPtr::RANGE) alias_type(idx)->set_rewritable(false); | |
1479 if (flat->isa_instptr()) { | |
1480 if (flat->offset() == java_lang_Class::klass_offset_in_bytes() | |
1481 && flat->is_instptr()->klass() == env()->Class_klass()) | |
1482 alias_type(idx)->set_rewritable(false); | |
1483 } | |
1484 if (flat->isa_klassptr()) { | |
1485 if (flat->offset() == Klass::super_check_offset_offset_in_bytes() + (int)sizeof(oopDesc)) | |
1486 alias_type(idx)->set_rewritable(false); | |
1487 if (flat->offset() == Klass::modifier_flags_offset_in_bytes() + (int)sizeof(oopDesc)) | |
1488 alias_type(idx)->set_rewritable(false); | |
1489 if (flat->offset() == Klass::access_flags_offset_in_bytes() + (int)sizeof(oopDesc)) | |
1490 alias_type(idx)->set_rewritable(false); | |
1491 if (flat->offset() == Klass::java_mirror_offset_in_bytes() + (int)sizeof(oopDesc)) | |
1492 alias_type(idx)->set_rewritable(false); | |
1493 } | |
1494 // %%% (We would like to finalize JavaThread::threadObj_offset(), | |
1495 // but the base pointer type is not distinctive enough to identify | |
1496 // references into JavaThread.) | |
1497 | |
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1498 // Check for final fields. |
0 | 1499 const TypeInstPtr* tinst = flat->isa_instptr(); |
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1500 if (tinst && tinst->offset() >= instanceOopDesc::base_offset_in_bytes()) { |
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1501 ciField* field; |
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1502 if (tinst->const_oop() != NULL && |
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1503 tinst->klass() == ciEnv::current()->Class_klass() && |
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1504 tinst->offset() >= (tinst->klass()->as_instance_klass()->size_helper() * wordSize)) { |
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1505 // static field |
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1506 ciInstanceKlass* k = tinst->const_oop()->as_instance()->java_lang_Class_klass()->as_instance_klass(); |
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1507 field = k->get_field_by_offset(tinst->offset(), true); |
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1508 } else { |
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1509 ciInstanceKlass *k = tinst->klass()->as_instance_klass(); |
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1510 field = k->get_field_by_offset(tinst->offset(), false); |
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1511 } |
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1512 assert(field == NULL || |
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1513 original_field == NULL || |
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1514 (field->holder() == original_field->holder() && |
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1515 field->offset() == original_field->offset() && |
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1516 field->is_static() == original_field->is_static()), "wrong field?"); |
0 | 1517 // Set field() and is_rewritable() attributes. |
1518 if (field != NULL) alias_type(idx)->set_field(field); | |
1519 } | |
1520 } | |
1521 | |
1522 // Fill the cache for next time. | |
1523 ace->_adr_type = adr_type; | |
1524 ace->_index = idx; | |
1525 assert(alias_type(adr_type) == alias_type(idx), "type must be installed"); | |
1526 | |
1527 // Might as well try to fill the cache for the flattened version, too. | |
1528 AliasCacheEntry* face = probe_alias_cache(flat); | |
1529 if (face->_adr_type == NULL) { | |
1530 face->_adr_type = flat; | |
1531 face->_index = idx; | |
1532 assert(alias_type(flat) == alias_type(idx), "flat type must work too"); | |
1533 } | |
1534 | |
1535 return alias_type(idx); | |
1536 } | |
1537 | |
1538 | |
1539 Compile::AliasType* Compile::alias_type(ciField* field) { | |
1540 const TypeOopPtr* t; | |
1541 if (field->is_static()) | |
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1542 t = TypeInstPtr::make(field->holder()->java_mirror()); |
0 | 1543 else |
1544 t = TypeOopPtr::make_from_klass_raw(field->holder()); | |
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1545 AliasType* atp = alias_type(t->add_offset(field->offset_in_bytes()), field); |
0 | 1546 assert(field->is_final() == !atp->is_rewritable(), "must get the rewritable bits correct"); |
1547 return atp; | |
1548 } | |
1549 | |
1550 | |
1551 //------------------------------have_alias_type-------------------------------- | |
1552 bool Compile::have_alias_type(const TypePtr* adr_type) { | |
1553 AliasCacheEntry* ace = probe_alias_cache(adr_type); | |
1554 if (ace->_adr_type == adr_type) { | |
1555 return true; | |
1556 } | |
1557 | |
1558 // Handle special cases. | |
1559 if (adr_type == NULL) return true; | |
1560 if (adr_type == TypePtr::BOTTOM) return true; | |
1561 | |
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1562 return find_alias_type(adr_type, true, NULL) != NULL; |
0 | 1563 } |
1564 | |
1565 //-----------------------------must_alias-------------------------------------- | |
1566 // True if all values of the given address type are in the given alias category. | |
1567 bool Compile::must_alias(const TypePtr* adr_type, int alias_idx) { | |
1568 if (alias_idx == AliasIdxBot) return true; // the universal category | |
1569 if (adr_type == NULL) return true; // NULL serves as TypePtr::TOP | |
1570 if (alias_idx == AliasIdxTop) return false; // the empty category | |
1571 if (adr_type->base() == Type::AnyPtr) return false; // TypePtr::BOTTOM or its twins | |
1572 | |
1573 // the only remaining possible overlap is identity | |
1574 int adr_idx = get_alias_index(adr_type); | |
1575 assert(adr_idx != AliasIdxBot && adr_idx != AliasIdxTop, ""); | |
1576 assert(adr_idx == alias_idx || | |
1577 (alias_type(alias_idx)->adr_type() != TypeOopPtr::BOTTOM | |
1578 && adr_type != TypeOopPtr::BOTTOM), | |
1579 "should not be testing for overlap with an unsafe pointer"); | |
1580 return adr_idx == alias_idx; | |
1581 } | |
1582 | |
1583 //------------------------------can_alias-------------------------------------- | |
1584 // True if any values of the given address type are in the given alias category. | |
1585 bool Compile::can_alias(const TypePtr* adr_type, int alias_idx) { | |
1586 if (alias_idx == AliasIdxTop) return false; // the empty category | |
1587 if (adr_type == NULL) return false; // NULL serves as TypePtr::TOP | |
1588 if (alias_idx == AliasIdxBot) return true; // the universal category | |
1589 if (adr_type->base() == Type::AnyPtr) return true; // TypePtr::BOTTOM or its twins | |
1590 | |
1591 // the only remaining possible overlap is identity | |
1592 int adr_idx = get_alias_index(adr_type); | |
1593 assert(adr_idx != AliasIdxBot && adr_idx != AliasIdxTop, ""); | |
1594 return adr_idx == alias_idx; | |
1595 } | |
1596 | |
1597 | |
1598 | |
1599 //---------------------------pop_warm_call------------------------------------- | |
1600 WarmCallInfo* Compile::pop_warm_call() { | |
1601 WarmCallInfo* wci = _warm_calls; | |
1602 if (wci != NULL) _warm_calls = wci->remove_from(wci); | |
1603 return wci; | |
1604 } | |
1605 | |
1606 //----------------------------Inline_Warm-------------------------------------- | |
1607 int Compile::Inline_Warm() { | |
1608 // If there is room, try to inline some more warm call sites. | |
1609 // %%% Do a graph index compaction pass when we think we're out of space? | |
1610 if (!InlineWarmCalls) return 0; | |
1611 | |
1612 int calls_made_hot = 0; | |
1613 int room_to_grow = NodeCountInliningCutoff - unique(); | |
1614 int amount_to_grow = MIN2(room_to_grow, (int)NodeCountInliningStep); | |
1615 int amount_grown = 0; | |
1616 WarmCallInfo* call; | |
1617 while (amount_to_grow > 0 && (call = pop_warm_call()) != NULL) { | |
1618 int est_size = (int)call->size(); | |
1619 if (est_size > (room_to_grow - amount_grown)) { | |
1620 // This one won't fit anyway. Get rid of it. | |
1621 call->make_cold(); | |
1622 continue; | |
1623 } | |
1624 call->make_hot(); | |
1625 calls_made_hot++; | |
1626 amount_grown += est_size; | |
1627 amount_to_grow -= est_size; | |
1628 } | |
1629 | |
1630 if (calls_made_hot > 0) set_major_progress(); | |
1631 return calls_made_hot; | |
1632 } | |
1633 | |
1634 | |
1635 //----------------------------Finish_Warm-------------------------------------- | |
1636 void Compile::Finish_Warm() { | |
1637 if (!InlineWarmCalls) return; | |
1638 if (failing()) return; | |
1639 if (warm_calls() == NULL) return; | |
1640 | |
1641 // Clean up loose ends, if we are out of space for inlining. | |
1642 WarmCallInfo* call; | |
1643 while ((call = pop_warm_call()) != NULL) { | |
1644 call->make_cold(); | |
1645 } | |
1646 } | |
1647 | |
1172 | 1648 //---------------------cleanup_loop_predicates----------------------- |
1649 // Remove the opaque nodes that protect the predicates so that all unused | |
1650 // checks and uncommon_traps will be eliminated from the ideal graph | |
1651 void Compile::cleanup_loop_predicates(PhaseIterGVN &igvn) { | |
1652 if (predicate_count()==0) return; | |
1653 for (int i = predicate_count(); i > 0; i--) { | |
1654 Node * n = predicate_opaque1_node(i-1); | |
1655 assert(n->Opcode() == Op_Opaque1, "must be"); | |
1656 igvn.replace_node(n, n->in(1)); | |
1657 } | |
1658 assert(predicate_count()==0, "should be clean!"); | |
1659 } | |
0 | 1660 |
1661 //------------------------------Optimize--------------------------------------- | |
1662 // Given a graph, optimize it. | |
1663 void Compile::Optimize() { | |
1664 TracePhase t1("optimizer", &_t_optimizer, true); | |
1665 | |
1666 #ifndef PRODUCT | |
1667 if (env()->break_at_compile()) { | |
1668 BREAKPOINT; | |
1669 } | |
1670 | |
1671 #endif | |
1672 | |
1673 ResourceMark rm; | |
1674 int loop_opts_cnt; | |
1675 | |
1676 NOT_PRODUCT( verify_graph_edges(); ) | |
1677 | |
222 | 1678 print_method("After Parsing"); |
0 | 1679 |
1680 { | |
1681 // Iterative Global Value Numbering, including ideal transforms | |
1682 // Initialize IterGVN with types and values from parse-time GVN | |
1683 PhaseIterGVN igvn(initial_gvn()); | |
1684 { | |
1685 NOT_PRODUCT( TracePhase t2("iterGVN", &_t_iterGVN, TimeCompiler); ) | |
1686 igvn.optimize(); | |
1687 } | |
1688 | |
1689 print_method("Iter GVN 1", 2); | |
1690 | |
1691 if (failing()) return; | |
1692 | |
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1693 // Perform escape analysis |
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1694 if (_do_escape_analysis && ConnectionGraph::has_candidates(this)) { |
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1695 TracePhase t2("escapeAnalysis", &_t_escapeAnalysis, true); |
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1696 ConnectionGraph::do_analysis(this, &igvn); |
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1697 |
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1698 if (failing()) return; |
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1699 |
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1700 igvn.optimize(); |
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1701 print_method("Iter GVN 3", 2); |
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1702 |
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1703 if (failing()) return; |
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1704 |
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1705 } |
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1706 |
0 | 1707 // Loop transforms on the ideal graph. Range Check Elimination, |
1708 // peeling, unrolling, etc. | |
1709 | |
1710 // Set loop opts counter | |
1711 loop_opts_cnt = num_loop_opts(); | |
1712 if((loop_opts_cnt > 0) && (has_loops() || has_split_ifs())) { | |
1713 { | |
1714 TracePhase t2("idealLoop", &_t_idealLoop, true); | |
2445 | 1715 PhaseIdealLoop ideal_loop( igvn, true ); |
0 | 1716 loop_opts_cnt--; |
1717 if (major_progress()) print_method("PhaseIdealLoop 1", 2); | |
1718 if (failing()) return; | |
1719 } | |
1720 // Loop opts pass if partial peeling occurred in previous pass | |
1721 if(PartialPeelLoop && major_progress() && (loop_opts_cnt > 0)) { | |
1722 TracePhase t3("idealLoop", &_t_idealLoop, true); | |
2445 | 1723 PhaseIdealLoop ideal_loop( igvn, false ); |
0 | 1724 loop_opts_cnt--; |
1725 if (major_progress()) print_method("PhaseIdealLoop 2", 2); | |
1726 if (failing()) return; | |
1727 } | |
1728 // Loop opts pass for loop-unrolling before CCP | |
1729 if(major_progress() && (loop_opts_cnt > 0)) { | |
1730 TracePhase t4("idealLoop", &_t_idealLoop, true); | |
2445 | 1731 PhaseIdealLoop ideal_loop( igvn, false ); |
0 | 1732 loop_opts_cnt--; |
1733 if (major_progress()) print_method("PhaseIdealLoop 3", 2); | |
1734 } | |
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1735 if (!failing()) { |
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1736 // Verify that last round of loop opts produced a valid graph |
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1737 NOT_PRODUCT( TracePhase t2("idealLoopVerify", &_t_idealLoopVerify, TimeCompiler); ) |
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1738 PhaseIdealLoop::verify(igvn); |
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1739 } |
0 | 1740 } |
1741 if (failing()) return; | |
1742 | |
1743 // Conditional Constant Propagation; | |
1744 PhaseCCP ccp( &igvn ); | |
1745 assert( true, "Break here to ccp.dump_nodes_and_types(_root,999,1)"); | |
1746 { | |
1747 TracePhase t2("ccp", &_t_ccp, true); | |
1748 ccp.do_transform(); | |
1749 } | |
1750 print_method("PhaseCPP 1", 2); | |
1751 | |
1752 assert( true, "Break here to ccp.dump_old2new_map()"); | |
1753 | |
1754 // Iterative Global Value Numbering, including ideal transforms | |
1755 { | |
1756 NOT_PRODUCT( TracePhase t2("iterGVN2", &_t_iterGVN2, TimeCompiler); ) | |
1757 igvn = ccp; | |
1758 igvn.optimize(); | |
1759 } | |
1760 | |
1761 print_method("Iter GVN 2", 2); | |
1762 | |
1763 if (failing()) return; | |
1764 | |
1765 // Loop transforms on the ideal graph. Range Check Elimination, | |
1766 // peeling, unrolling, etc. | |
1767 if(loop_opts_cnt > 0) { | |
1768 debug_only( int cnt = 0; ); | |
1769 while(major_progress() && (loop_opts_cnt > 0)) { | |
1770 TracePhase t2("idealLoop", &_t_idealLoop, true); | |
1771 assert( cnt++ < 40, "infinite cycle in loop optimization" ); | |
2445 | 1772 PhaseIdealLoop ideal_loop( igvn, true); |
0 | 1773 loop_opts_cnt--; |
1774 if (major_progress()) print_method("PhaseIdealLoop iterations", 2); | |
1775 if (failing()) return; | |
1776 } | |
1777 } | |
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1778 |
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1779 { |
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1780 // Verify that all previous optimizations produced a valid graph |
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1781 // at least to this point, even if no loop optimizations were done. |
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1782 NOT_PRODUCT( TracePhase t2("idealLoopVerify", &_t_idealLoopVerify, TimeCompiler); ) |
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1783 PhaseIdealLoop::verify(igvn); |
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1784 } |
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1785 |
0 | 1786 { |
1787 NOT_PRODUCT( TracePhase t2("macroExpand", &_t_macroExpand, TimeCompiler); ) | |
1788 PhaseMacroExpand mex(igvn); | |
1789 if (mex.expand_macro_nodes()) { | |
1790 assert(failing(), "must bail out w/ explicit message"); | |
1791 return; | |
1792 } | |
1793 } | |
1794 | |
1795 } // (End scope of igvn; run destructor if necessary for asserts.) | |
1796 | |
1797 // A method with only infinite loops has no edges entering loops from root | |
1798 { | |
1799 NOT_PRODUCT( TracePhase t2("graphReshape", &_t_graphReshaping, TimeCompiler); ) | |
1800 if (final_graph_reshaping()) { | |
1801 assert(failing(), "must bail out w/ explicit message"); | |
1802 return; | |
1803 } | |
1804 } | |
1805 | |
1806 print_method("Optimize finished", 2); | |
1807 } | |
1808 | |
1809 | |
1810 //------------------------------Code_Gen--------------------------------------- | |
1811 // Given a graph, generate code for it | |
1812 void Compile::Code_Gen() { | |
1813 if (failing()) return; | |
1814 | |
1815 // Perform instruction selection. You might think we could reclaim Matcher | |
1816 // memory PDQ, but actually the Matcher is used in generating spill code. | |
1817 // Internals of the Matcher (including some VectorSets) must remain live | |
1818 // for awhile - thus I cannot reclaim Matcher memory lest a VectorSet usage | |
1819 // set a bit in reclaimed memory. | |
1820 | |
1821 // In debug mode can dump m._nodes.dump() for mapping of ideal to machine | |
1822 // nodes. Mapping is only valid at the root of each matched subtree. | |
1823 NOT_PRODUCT( verify_graph_edges(); ) | |
1824 | |
1825 Node_List proj_list; | |
1826 Matcher m(proj_list); | |
1827 _matcher = &m; | |
1828 { | |
1829 TracePhase t2("matcher", &_t_matcher, true); | |
1830 m.match(); | |
1831 } | |
1832 // In debug mode can dump m._nodes.dump() for mapping of ideal to machine | |
1833 // nodes. Mapping is only valid at the root of each matched subtree. | |
1834 NOT_PRODUCT( verify_graph_edges(); ) | |
1835 | |
1836 // If you have too many nodes, or if matching has failed, bail out | |
1837 check_node_count(0, "out of nodes matching instructions"); | |
1838 if (failing()) return; | |
1839 | |
1840 // Build a proper-looking CFG | |
1841 PhaseCFG cfg(node_arena(), root(), m); | |
1842 _cfg = &cfg; | |
1843 { | |
1844 NOT_PRODUCT( TracePhase t2("scheduler", &_t_scheduler, TimeCompiler); ) | |
1845 cfg.Dominators(); | |
1846 if (failing()) return; | |
1847 | |
1848 NOT_PRODUCT( verify_graph_edges(); ) | |
1849 | |
1850 cfg.Estimate_Block_Frequency(); | |
1851 cfg.GlobalCodeMotion(m,unique(),proj_list); | |
1852 | |
1853 print_method("Global code motion", 2); | |
1854 | |
1855 if (failing()) return; | |
1856 NOT_PRODUCT( verify_graph_edges(); ) | |
1857 | |
1858 debug_only( cfg.verify(); ) | |
1859 } | |
1860 NOT_PRODUCT( verify_graph_edges(); ) | |
1861 | |
1862 PhaseChaitin regalloc(unique(),cfg,m); | |
1863 _regalloc = ®alloc; | |
1864 { | |
1865 TracePhase t2("regalloc", &_t_registerAllocation, true); | |
1866 // Perform any platform dependent preallocation actions. This is used, | |
1867 // for example, to avoid taking an implicit null pointer exception | |
1868 // using the frame pointer on win95. | |
1869 _regalloc->pd_preallocate_hook(); | |
1870 | |
1871 // Perform register allocation. After Chaitin, use-def chains are | |
1872 // no longer accurate (at spill code) and so must be ignored. | |
1873 // Node->LRG->reg mappings are still accurate. | |
1874 _regalloc->Register_Allocate(); | |
1875 | |
1876 // Bail out if the allocator builds too many nodes | |
1877 if (failing()) return; | |
1878 } | |
1879 | |
1880 // Prior to register allocation we kept empty basic blocks in case the | |
1881 // the allocator needed a place to spill. After register allocation we | |
1882 // are not adding any new instructions. If any basic block is empty, we | |
1883 // can now safely remove it. | |
1884 { | |
418 | 1885 NOT_PRODUCT( TracePhase t2("blockOrdering", &_t_blockOrdering, TimeCompiler); ) |
1886 cfg.remove_empty(); | |
1887 if (do_freq_based_layout()) { | |
1888 PhaseBlockLayout layout(cfg); | |
1889 } else { | |
1890 cfg.set_loop_alignment(); | |
1891 } | |
1892 cfg.fixup_flow(); | |
0 | 1893 } |
1894 | |
1895 // Perform any platform dependent postallocation verifications. | |
1896 debug_only( _regalloc->pd_postallocate_verify_hook(); ) | |
1897 | |
1898 // Apply peephole optimizations | |
1899 if( OptoPeephole ) { | |
1900 NOT_PRODUCT( TracePhase t2("peephole", &_t_peephole, TimeCompiler); ) | |
1901 PhasePeephole peep( _regalloc, cfg); | |
1902 peep.do_transform(); | |
1903 } | |
1904 | |
1905 // Convert Nodes to instruction bits in a buffer | |
1906 { | |
1907 // %%%% workspace merge brought two timers together for one job | |
1908 TracePhase t2a("output", &_t_output, true); | |
1909 NOT_PRODUCT( TraceTime t2b(NULL, &_t_codeGeneration, TimeCompiler, false); ) | |
1910 Output(); | |
1911 } | |
1912 | |
222 | 1913 print_method("Final Code"); |
0 | 1914 |
1915 // He's dead, Jim. | |
1916 _cfg = (PhaseCFG*)0xdeadbeef; | |
1917 _regalloc = (PhaseChaitin*)0xdeadbeef; | |
1918 } | |
1919 | |
1920 | |
1921 //------------------------------dump_asm--------------------------------------- | |
1922 // Dump formatted assembly | |
1923 #ifndef PRODUCT | |
1924 void Compile::dump_asm(int *pcs, uint pc_limit) { | |
1925 bool cut_short = false; | |
1926 tty->print_cr("#"); | |
1927 tty->print("# "); _tf->dump(); tty->cr(); | |
1928 tty->print_cr("#"); | |
1929 | |
1930 // For all blocks | |
1931 int pc = 0x0; // Program counter | |
1932 char starts_bundle = ' '; | |
1933 _regalloc->dump_frame(); | |
1934 | |
1935 Node *n = NULL; | |
1936 for( uint i=0; i<_cfg->_num_blocks; i++ ) { | |
1937 if (VMThread::should_terminate()) { cut_short = true; break; } | |
1938 Block *b = _cfg->_blocks[i]; | |
1939 if (b->is_connector() && !Verbose) continue; | |
1940 n = b->_nodes[0]; | |
1941 if (pcs && n->_idx < pc_limit) | |
1942 tty->print("%3.3x ", pcs[n->_idx]); | |
1943 else | |
1944 tty->print(" "); | |
1945 b->dump_head( &_cfg->_bbs ); | |
1946 if (b->is_connector()) { | |
1947 tty->print_cr(" # Empty connector block"); | |
1948 } else if (b->num_preds() == 2 && b->pred(1)->is_CatchProj() && b->pred(1)->as_CatchProj()->_con == CatchProjNode::fall_through_index) { | |
1949 tty->print_cr(" # Block is sole successor of call"); | |
1950 } | |
1951 | |
1952 // For all instructions | |
1953 Node *delay = NULL; | |
1954 for( uint j = 0; j<b->_nodes.size(); j++ ) { | |
1955 if (VMThread::should_terminate()) { cut_short = true; break; } | |
1956 n = b->_nodes[j]; | |
1957 if (valid_bundle_info(n)) { | |
1958 Bundle *bundle = node_bundling(n); | |
1959 if (bundle->used_in_unconditional_delay()) { | |
1960 delay = n; | |
1961 continue; | |
1962 } | |
1963 if (bundle->starts_bundle()) | |
1964 starts_bundle = '+'; | |
1965 } | |
1966 | |
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1967 if (WizardMode) n->dump(); |
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1968 |
0 | 1969 if( !n->is_Region() && // Dont print in the Assembly |
1970 !n->is_Phi() && // a few noisely useless nodes | |
1971 !n->is_Proj() && | |
1972 !n->is_MachTemp() && | |
1100
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1973 !n->is_SafePointScalarObject() && |
0 | 1974 !n->is_Catch() && // Would be nice to print exception table targets |
1975 !n->is_MergeMem() && // Not very interesting | |
1976 !n->is_top() && // Debug info table constants | |
1977 !(n->is_Con() && !n->is_Mach())// Debug info table constants | |
1978 ) { | |
1979 if (pcs && n->_idx < pc_limit) | |
1980 tty->print("%3.3x", pcs[n->_idx]); | |
1981 else | |
1982 tty->print(" "); | |
1983 tty->print(" %c ", starts_bundle); | |
1984 starts_bundle = ' '; | |
1985 tty->print("\t"); | |
1986 n->format(_regalloc, tty); | |
1987 tty->cr(); | |
1988 } | |
1989 | |
1990 // If we have an instruction with a delay slot, and have seen a delay, | |
1991 // then back up and print it | |
1992 if (valid_bundle_info(n) && node_bundling(n)->use_unconditional_delay()) { | |
1993 assert(delay != NULL, "no unconditional delay instruction"); | |
113
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1994 if (WizardMode) delay->dump(); |
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1995 |
0 | 1996 if (node_bundling(delay)->starts_bundle()) |
1997 starts_bundle = '+'; | |
1998 if (pcs && n->_idx < pc_limit) | |
1999 tty->print("%3.3x", pcs[n->_idx]); | |
2000 else | |
2001 tty->print(" "); | |
2002 tty->print(" %c ", starts_bundle); | |
2003 starts_bundle = ' '; | |
2004 tty->print("\t"); | |
2005 delay->format(_regalloc, tty); | |
2006 tty->print_cr(""); | |
2007 delay = NULL; | |
2008 } | |
2009 | |
2010 // Dump the exception table as well | |
2011 if( n->is_Catch() && (Verbose || WizardMode) ) { | |
2012 // Print the exception table for this offset | |
2013 _handler_table.print_subtable_for(pc); | |
2014 } | |
2015 } | |
2016 | |
2017 if (pcs && n->_idx < pc_limit) | |
2018 tty->print_cr("%3.3x", pcs[n->_idx]); | |
2019 else | |
2020 tty->print_cr(""); | |
2021 | |
2022 assert(cut_short || delay == NULL, "no unconditional delay branch"); | |
2023 | |
2024 } // End of per-block dump | |
2025 tty->print_cr(""); | |
2026 | |
2027 if (cut_short) tty->print_cr("*** disassembly is cut short ***"); | |
2028 } | |
2029 #endif | |
2030 | |
2031 //------------------------------Final_Reshape_Counts--------------------------- | |
2032 // This class defines counters to help identify when a method | |
2033 // may/must be executed using hardware with only 24-bit precision. | |
2034 struct Final_Reshape_Counts : public StackObj { | |
2035 int _call_count; // count non-inlined 'common' calls | |
2036 int _float_count; // count float ops requiring 24-bit precision | |
2037 int _double_count; // count double ops requiring more precision | |
2038 int _java_call_count; // count non-inlined 'java' calls | |
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2039 int _inner_loop_count; // count loops which need alignment |
0 | 2040 VectorSet _visited; // Visitation flags |
2041 Node_List _tests; // Set of IfNodes & PCTableNodes | |
2042 | |
2043 Final_Reshape_Counts() : | |
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2044 _call_count(0), _float_count(0), _double_count(0), |
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2045 _java_call_count(0), _inner_loop_count(0), |
0 | 2046 _visited( Thread::current()->resource_area() ) { } |
2047 | |
2048 void inc_call_count () { _call_count ++; } | |
2049 void inc_float_count () { _float_count ++; } | |
2050 void inc_double_count() { _double_count++; } | |
2051 void inc_java_call_count() { _java_call_count++; } | |
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2052 void inc_inner_loop_count() { _inner_loop_count++; } |
0 | 2053 |
2054 int get_call_count () const { return _call_count ; } | |
2055 int get_float_count () const { return _float_count ; } | |
2056 int get_double_count() const { return _double_count; } | |
2057 int get_java_call_count() const { return _java_call_count; } | |
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2058 int get_inner_loop_count() const { return _inner_loop_count; } |
0 | 2059 }; |
2060 | |
2061 static bool oop_offset_is_sane(const TypeInstPtr* tp) { | |
2062 ciInstanceKlass *k = tp->klass()->as_instance_klass(); | |
2063 // Make sure the offset goes inside the instance layout. | |
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2064 return k->contains_field_offset(tp->offset()); |
0 | 2065 // Note that OffsetBot and OffsetTop are very negative. |
2066 } | |
2067 | |
3248
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2068 // Eliminate trivially redundant StoreCMs and accumulate their |
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2069 // precedence edges. |
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2070 static void eliminate_redundant_card_marks(Node* n) { |
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2071 assert(n->Opcode() == Op_StoreCM, "expected StoreCM"); |
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2072 if (n->in(MemNode::Address)->outcnt() > 1) { |
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2073 // There are multiple users of the same address so it might be |
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2074 // possible to eliminate some of the StoreCMs |
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2075 Node* mem = n->in(MemNode::Memory); |
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2076 Node* adr = n->in(MemNode::Address); |
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2077 Node* val = n->in(MemNode::ValueIn); |
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2078 Node* prev = n; |
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2079 bool done = false; |
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2080 // Walk the chain of StoreCMs eliminating ones that match. As |
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2081 // long as it's a chain of single users then the optimization is |
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2082 // safe. Eliminating partially redundant StoreCMs would require |
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2083 // cloning copies down the other paths. |
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2084 while (mem->Opcode() == Op_StoreCM && mem->outcnt() == 1 && !done) { |
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2085 if (adr == mem->in(MemNode::Address) && |
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2086 val == mem->in(MemNode::ValueIn)) { |
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2087 // redundant StoreCM |
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2088 if (mem->req() > MemNode::OopStore) { |
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2089 // Hasn't been processed by this code yet. |
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2090 n->add_prec(mem->in(MemNode::OopStore)); |
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2091 } else { |
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2092 // Already converted to precedence edge |
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2093 for (uint i = mem->req(); i < mem->len(); i++) { |
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2094 // Accumulate any precedence edges |
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2095 if (mem->in(i) != NULL) { |
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2096 n->add_prec(mem->in(i)); |
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2097 } |
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2098 } |
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2099 // Everything above this point has been processed. |
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2100 done = true; |
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2101 } |
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2102 // Eliminate the previous StoreCM |
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2103 prev->set_req(MemNode::Memory, mem->in(MemNode::Memory)); |
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2104 assert(mem->outcnt() == 0, "should be dead"); |
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2105 mem->disconnect_inputs(NULL); |
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2106 } else { |
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2107 prev = mem; |
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2108 } |
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2109 mem = prev->in(MemNode::Memory); |
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2110 } |
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2111 } |
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|
2112 } |
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|
2113 |
0 | 2114 //------------------------------final_graph_reshaping_impl---------------------- |
2115 // Implement items 1-5 from final_graph_reshaping below. | |
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2116 static void final_graph_reshaping_impl( Node *n, Final_Reshape_Counts &frc ) { |
0 | 2117 |
168
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2118 if ( n->outcnt() == 0 ) return; // dead node |
0 | 2119 uint nop = n->Opcode(); |
2120 | |
2121 // Check for 2-input instruction with "last use" on right input. | |
2122 // Swap to left input. Implements item (2). | |
2123 if( n->req() == 3 && // two-input instruction | |
2124 n->in(1)->outcnt() > 1 && // left use is NOT a last use | |
2125 (!n->in(1)->is_Phi() || n->in(1)->in(2) != n) && // it is not data loop | |
2126 n->in(2)->outcnt() == 1 &&// right use IS a last use | |
2127 !n->in(2)->is_Con() ) { // right use is not a constant | |
2128 // Check for commutative opcode | |
2129 switch( nop ) { | |
2130 case Op_AddI: case Op_AddF: case Op_AddD: case Op_AddL: | |
2131 case Op_MaxI: case Op_MinI: | |
2132 case Op_MulI: case Op_MulF: case Op_MulD: case Op_MulL: | |
2133 case Op_AndL: case Op_XorL: case Op_OrL: | |
2134 case Op_AndI: case Op_XorI: case Op_OrI: { | |
2135 // Move "last use" input to left by swapping inputs | |
2136 n->swap_edges(1, 2); | |
2137 break; | |
2138 } | |
2139 default: | |
2140 break; | |
2141 } | |
2142 } | |
2143 | |
1609 | 2144 #ifdef ASSERT |
2145 if( n->is_Mem() ) { | |
2146 Compile* C = Compile::current(); | |
2147 int alias_idx = C->get_alias_index(n->as_Mem()->adr_type()); | |
2148 assert( n->in(0) != NULL || alias_idx != Compile::AliasIdxRaw || | |
2149 // oop will be recorded in oop map if load crosses safepoint | |
2150 n->is_Load() && (n->as_Load()->bottom_type()->isa_oopptr() || | |
2151 LoadNode::is_immutable_value(n->in(MemNode::Address))), | |
2152 "raw memory operations should have control edge"); | |
2153 } | |
2154 #endif | |
0 | 2155 // Count FPU ops and common calls, implements item (3) |
2156 switch( nop ) { | |
2157 // Count all float operations that may use FPU | |
2158 case Op_AddF: | |
2159 case Op_SubF: | |
2160 case Op_MulF: | |
2161 case Op_DivF: | |
2162 case Op_NegF: | |
2163 case Op_ModF: | |
2164 case Op_ConvI2F: | |
2165 case Op_ConF: | |
2166 case Op_CmpF: | |
2167 case Op_CmpF3: | |
2168 // case Op_ConvL2F: // longs are split into 32-bit halves | |
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2169 frc.inc_float_count(); |
0 | 2170 break; |
2171 | |
2172 case Op_ConvF2D: | |
2173 case Op_ConvD2F: | |
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2174 frc.inc_float_count(); |
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2175 frc.inc_double_count(); |
0 | 2176 break; |
2177 | |
2178 // Count all double operations that may use FPU | |
2179 case Op_AddD: | |
2180 case Op_SubD: | |
2181 case Op_MulD: | |
2182 case Op_DivD: | |
2183 case Op_NegD: | |
2184 case Op_ModD: | |
2185 case Op_ConvI2D: | |
2186 case Op_ConvD2I: | |
2187 // case Op_ConvL2D: // handled by leaf call | |
2188 // case Op_ConvD2L: // handled by leaf call | |
2189 case Op_ConD: | |
2190 case Op_CmpD: | |
2191 case Op_CmpD3: | |
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2192 frc.inc_double_count(); |
0 | 2193 break; |
2194 case Op_Opaque1: // Remove Opaque Nodes before matching | |
2195 case Op_Opaque2: // Remove Opaque Nodes before matching | |
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2196 n->subsume_by(n->in(1)); |
0 | 2197 break; |
2198 case Op_CallStaticJava: | |
2199 case Op_CallJava: | |
2200 case Op_CallDynamicJava: | |
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2201 frc.inc_java_call_count(); // Count java call site; |
0 | 2202 case Op_CallRuntime: |
2203 case Op_CallLeaf: | |
2204 case Op_CallLeafNoFP: { | |
2205 assert( n->is_Call(), "" ); | |
2206 CallNode *call = n->as_Call(); | |
2207 // Count call sites where the FP mode bit would have to be flipped. | |
2208 // Do not count uncommon runtime calls: | |
2209 // uncommon_trap, _complete_monitor_locking, _complete_monitor_unlocking, | |
2210 // _new_Java, _new_typeArray, _new_objArray, _rethrow_Java, ... | |
2211 if( !call->is_CallStaticJava() || !call->as_CallStaticJava()->_name ) { | |
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2212 frc.inc_call_count(); // Count the call site |
0 | 2213 } else { // See if uncommon argument is shared |
2214 Node *n = call->in(TypeFunc::Parms); | |
2215 int nop = n->Opcode(); | |
2216 // Clone shared simple arguments to uncommon calls, item (1). | |
2217 if( n->outcnt() > 1 && | |
2218 !n->is_Proj() && | |
2219 nop != Op_CreateEx && | |
2220 nop != Op_CheckCastPP && | |
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2221 nop != Op_DecodeN && |
0 | 2222 !n->is_Mem() ) { |
2223 Node *x = n->clone(); | |
2224 call->set_req( TypeFunc::Parms, x ); | |
2225 } | |
2226 } | |
2227 break; | |
2228 } | |
2229 | |
2230 case Op_StoreD: | |
2231 case Op_LoadD: | |
2232 case Op_LoadD_unaligned: | |
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2233 frc.inc_double_count(); |
0 | 2234 goto handle_mem; |
2235 case Op_StoreF: | |
2236 case Op_LoadF: | |
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2237 frc.inc_float_count(); |
0 | 2238 goto handle_mem; |
2239 | |
3248
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2240 case Op_StoreCM: |
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2241 { |
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2242 // Convert OopStore dependence into precedence edge |
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2243 Node* prec = n->in(MemNode::OopStore); |
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2244 n->del_req(MemNode::OopStore); |
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2245 n->add_prec(prec); |
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2246 eliminate_redundant_card_marks(n); |
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2247 } |
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2248 |
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|
2249 // fall through |
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|
2250 |
0 | 2251 case Op_StoreB: |
2252 case Op_StoreC: | |
2253 case Op_StorePConditional: | |
2254 case Op_StoreI: | |
2255 case Op_StoreL: | |
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|
2256 case Op_StoreIConditional: |
0 | 2257 case Op_StoreLConditional: |
2258 case Op_CompareAndSwapI: | |
2259 case Op_CompareAndSwapL: | |
2260 case Op_CompareAndSwapP: | |
113
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2261 case Op_CompareAndSwapN: |
0 | 2262 case Op_StoreP: |
113
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2263 case Op_StoreN: |
0 | 2264 case Op_LoadB: |
624 | 2265 case Op_LoadUB: |
558
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2266 case Op_LoadUS: |
0 | 2267 case Op_LoadI: |
624 | 2268 case Op_LoadUI2L: |
0 | 2269 case Op_LoadKlass: |
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2270 case Op_LoadNKlass: |
0 | 2271 case Op_LoadL: |
2272 case Op_LoadL_unaligned: | |
2273 case Op_LoadPLocked: | |
2274 case Op_LoadLLocked: | |
2275 case Op_LoadP: | |
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2276 case Op_LoadN: |
0 | 2277 case Op_LoadRange: |
2278 case Op_LoadS: { | |
2279 handle_mem: | |
2280 #ifdef ASSERT | |
2281 if( VerifyOptoOopOffsets ) { | |
2282 assert( n->is_Mem(), "" ); | |
2283 MemNode *mem = (MemNode*)n; | |
2284 // Check to see if address types have grounded out somehow. | |
2285 const TypeInstPtr *tp = mem->in(MemNode::Address)->bottom_type()->isa_instptr(); | |
2286 assert( !tp || oop_offset_is_sane(tp), "" ); | |
2287 } | |
2288 #endif | |
2289 break; | |
2290 } | |
2291 | |
2292 case Op_AddP: { // Assert sane base pointers | |
182
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2293 Node *addp = n->in(AddPNode::Address); |
0 | 2294 assert( !addp->is_AddP() || |
2295 addp->in(AddPNode::Base)->is_top() || // Top OK for allocation | |
2296 addp->in(AddPNode::Base) == n->in(AddPNode::Base), | |
2297 "Base pointers must match" ); | |
182
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2298 #ifdef _LP64 |
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2299 if (UseCompressedOops && |
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2300 addp->Opcode() == Op_ConP && |
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2301 addp == n->in(AddPNode::Base) && |
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2302 n->in(AddPNode::Offset)->is_Con()) { |
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2303 // Use addressing with narrow klass to load with offset on x86. |
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2304 // On sparc loading 32-bits constant and decoding it have less |
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2305 // instructions (4) then load 64-bits constant (7). |
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2306 // Do this transformation here since IGVN will convert ConN back to ConP. |
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2307 const Type* t = addp->bottom_type(); |
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2308 if (t->isa_oopptr()) { |
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|
2309 Node* nn = NULL; |
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|
2310 |
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2311 // Look for existing ConN node of the same exact type. |
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2312 Compile* C = Compile::current(); |
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2313 Node* r = C->root(); |
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|
2314 uint cnt = r->outcnt(); |
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2315 for (uint i = 0; i < cnt; i++) { |
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2316 Node* m = r->raw_out(i); |
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2317 if (m!= NULL && m->Opcode() == Op_ConN && |
221
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2318 m->bottom_type()->make_ptr() == t) { |
182
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|
2319 nn = m; |
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|
2320 break; |
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diff
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|
2321 } |
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|
2322 } |
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|
2323 if (nn != NULL) { |
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diff
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|
2324 // Decode a narrow oop to match address |
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|
2325 // [R12 + narrow_oop_reg<<3 + offset] |
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2326 nn = new (C, 2) DecodeNNode(nn, t); |
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2327 n->set_req(AddPNode::Base, nn); |
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2328 n->set_req(AddPNode::Address, nn); |
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|
2329 if (addp->outcnt() == 0) { |
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|
2330 addp->disconnect_inputs(NULL); |
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|
2331 } |
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|
2332 } |
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|
2333 } |
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|
2334 } |
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|
2335 #endif |
0 | 2336 break; |
2337 } | |
2338 | |
164
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|
2339 #ifdef _LP64 |
368
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diff
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|
2340 case Op_CastPP: |
1575
3657cb01ffc5
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diff
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|
2341 if (n->in(1)->is_DecodeN() && Matcher::gen_narrow_oop_implicit_null_checks()) { |
368
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|
2342 Compile* C = Compile::current(); |
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|
2343 Node* in1 = n->in(1); |
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|
2344 const Type* t = n->bottom_type(); |
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|
2345 Node* new_in1 = in1->clone(); |
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|
2346 new_in1->as_DecodeN()->set_type(t); |
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|
2347 |
1575
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2348 if (!Matcher::narrow_oop_use_complex_address()) { |
368
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diff
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|
2349 // |
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|
2350 // x86, ARM and friends can handle 2 adds in addressing mode |
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diff
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|
2351 // and Matcher can fold a DecodeN node into address by using |
36ccc817fca4
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diff
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|
2352 // a narrow oop directly and do implicit NULL check in address: |
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diff
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|
2353 // |
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|
2354 // [R12 + narrow_oop_reg<<3 + offset] |
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diff
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|
2355 // NullCheck narrow_oop_reg |
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diff
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|
2356 // |
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diff
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|
2357 // On other platforms (Sparc) we have to keep new DecodeN node and |
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diff
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|
2358 // use it to do implicit NULL check in address: |
36ccc817fca4
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diff
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|
2359 // |
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diff
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|
2360 // decode_not_null narrow_oop_reg, base_reg |
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diff
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|
2361 // [base_reg + offset] |
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diff
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|
2362 // NullCheck base_reg |
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diff
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|
2363 // |
605 | 2364 // Pin the new DecodeN node to non-null path on these platform (Sparc) |
368
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diff
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|
2365 // to keep the information to which NULL check the new DecodeN node |
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|
2366 // corresponds to use it as value in implicit_null_check(). |
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|
2367 // |
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|
2368 new_in1->set_req(0, n->in(0)); |
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|
2369 } |
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|
2370 |
36ccc817fca4
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diff
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|
2371 n->subsume_by(new_in1); |
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diff
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|
2372 if (in1->outcnt() == 0) { |
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diff
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|
2373 in1->disconnect_inputs(NULL); |
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|
2374 } |
36ccc817fca4
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|
2375 } |
36ccc817fca4
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diff
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|
2376 break; |
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|
2377 |
164
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|
2378 case Op_CmpP: |
168
7793bd37a336
6705887: Compressed Oops: generate x64 addressing and implicit null checks with narrow oops
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diff
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|
2379 // Do this transformation here to preserve CmpPNode::sub() and |
7793bd37a336
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diff
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|
2380 // other TypePtr related Ideal optimizations (for example, ptr nullness). |
331
cecd8eb4e0ca
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2381 if (n->in(1)->is_DecodeN() || n->in(2)->is_DecodeN()) { |
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2382 Node* in1 = n->in(1); |
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2383 Node* in2 = n->in(2); |
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2384 if (!in1->is_DecodeN()) { |
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|
2385 in2 = in1; |
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|
2386 in1 = n->in(2); |
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|
2387 } |
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2388 assert(in1->is_DecodeN(), "sanity"); |
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2389 |
164
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2390 Compile* C = Compile::current(); |
331
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2391 Node* new_in2 = NULL; |
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|
2392 if (in2->is_DecodeN()) { |
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2393 new_in2 = in2->in(1); |
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2394 } else if (in2->Opcode() == Op_ConP) { |
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2395 const Type* t = in2->bottom_type(); |
1575
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|
2396 if (t == TypePtr::NULL_PTR) { |
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|
2397 // Don't convert CmpP null check into CmpN if compressed |
3657cb01ffc5
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|
2398 // oops implicit null check is not generated. |
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|
2399 // This will allow to generate normal oop implicit null check. |
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|
2400 if (Matcher::gen_narrow_oop_implicit_null_checks()) |
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2401 new_in2 = ConNode::make(C, TypeNarrowOop::NULL_PTR); |
368
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|
2402 // |
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|
2403 // This transformation together with CastPP transformation above |
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|
2404 // will generated code for implicit NULL checks for compressed oops. |
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|
2405 // |
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|
2406 // The original code after Optimize() |
36ccc817fca4
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|
2407 // |
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|
2408 // LoadN memory, narrow_oop_reg |
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|
2409 // decode narrow_oop_reg, base_reg |
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|
2410 // CmpP base_reg, NULL |
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|
2411 // CastPP base_reg // NotNull |
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|
2412 // Load [base_reg + offset], val_reg |
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|
2413 // |
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|
2414 // after these transformations will be |
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|
2415 // |
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|
2416 // LoadN memory, narrow_oop_reg |
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parents:
367
diff
changeset
|
2417 // CmpN narrow_oop_reg, NULL |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2418 // decode_not_null narrow_oop_reg, base_reg |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2419 // Load [base_reg + offset], val_reg |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2420 // |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2421 // and the uncommon path (== NULL) will use narrow_oop_reg directly |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2422 // since narrow oops can be used in debug info now (see the code in |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2423 // final_graph_reshaping_walk()). |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2424 // |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2425 // At the end the code will be matched to |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2426 // on x86: |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2427 // |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2428 // Load_narrow_oop memory, narrow_oop_reg |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2429 // Load [R12 + narrow_oop_reg<<3 + offset], val_reg |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2430 // NullCheck narrow_oop_reg |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2431 // |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2432 // and on sparc: |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2433 // |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2434 // Load_narrow_oop memory, narrow_oop_reg |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2435 // decode_not_null narrow_oop_reg, base_reg |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2436 // Load [base_reg + offset], val_reg |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2437 // NullCheck base_reg |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2438 // |
164
c436414a719e
6703890: Compressed Oops: add LoadNKlass node to generate narrow oops (32-bits) compare instructions
kvn
parents:
163
diff
changeset
|
2439 } else if (t->isa_oopptr()) { |
331
cecd8eb4e0ca
6706829: Compressed Oops: add debug info for narrow oops
kvn
parents:
293
diff
changeset
|
2440 new_in2 = ConNode::make(C, t->make_narrowoop()); |
164
c436414a719e
6703890: Compressed Oops: add LoadNKlass node to generate narrow oops (32-bits) compare instructions
kvn
parents:
163
diff
changeset
|
2441 } |
c436414a719e
6703890: Compressed Oops: add LoadNKlass node to generate narrow oops (32-bits) compare instructions
kvn
parents:
163
diff
changeset
|
2442 } |
331
cecd8eb4e0ca
6706829: Compressed Oops: add debug info for narrow oops
kvn
parents:
293
diff
changeset
|
2443 if (new_in2 != NULL) { |
cecd8eb4e0ca
6706829: Compressed Oops: add debug info for narrow oops
kvn
parents:
293
diff
changeset
|
2444 Node* cmpN = new (C, 3) CmpNNode(in1->in(1), new_in2); |
168
7793bd37a336
6705887: Compressed Oops: generate x64 addressing and implicit null checks with narrow oops
kvn
parents:
164
diff
changeset
|
2445 n->subsume_by( cmpN ); |
331
cecd8eb4e0ca
6706829: Compressed Oops: add debug info for narrow oops
kvn
parents:
293
diff
changeset
|
2446 if (in1->outcnt() == 0) { |
cecd8eb4e0ca
6706829: Compressed Oops: add debug info for narrow oops
kvn
parents:
293
diff
changeset
|
2447 in1->disconnect_inputs(NULL); |
cecd8eb4e0ca
6706829: Compressed Oops: add debug info for narrow oops
kvn
parents:
293
diff
changeset
|
2448 } |
cecd8eb4e0ca
6706829: Compressed Oops: add debug info for narrow oops
kvn
parents:
293
diff
changeset
|
2449 if (in2->outcnt() == 0) { |
cecd8eb4e0ca
6706829: Compressed Oops: add debug info for narrow oops
kvn
parents:
293
diff
changeset
|
2450 in2->disconnect_inputs(NULL); |
cecd8eb4e0ca
6706829: Compressed Oops: add debug info for narrow oops
kvn
parents:
293
diff
changeset
|
2451 } |
164
c436414a719e
6703890: Compressed Oops: add LoadNKlass node to generate narrow oops (32-bits) compare instructions
kvn
parents:
163
diff
changeset
|
2452 } |
c436414a719e
6703890: Compressed Oops: add LoadNKlass node to generate narrow oops (32-bits) compare instructions
kvn
parents:
163
diff
changeset
|
2453 } |
293
c3e045194476
6731641: assert(m->adr_type() == mach->adr_type(),"matcher should not change adr type")
kvn
parents:
253
diff
changeset
|
2454 break; |
368
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2455 |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2456 case Op_DecodeN: |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2457 assert(!n->in(1)->is_EncodeP(), "should be optimized out"); |
1575
3657cb01ffc5
6954029: Improve implicit null check generation with compressed oops
kvn
parents:
1397
diff
changeset
|
2458 // DecodeN could be pinned when it can't be fold into |
492
5496e074077f
6787050: assert(n->in(0) == 0L,"no control") with UseCompressedOops on sparcv9
kvn
parents:
490
diff
changeset
|
2459 // an address expression, see the code for Op_CastPP above. |
1575
3657cb01ffc5
6954029: Improve implicit null check generation with compressed oops
kvn
parents:
1397
diff
changeset
|
2460 assert(n->in(0) == NULL || !Matcher::narrow_oop_use_complex_address(), "no control"); |
368
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2461 break; |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2462 |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2463 case Op_EncodeP: { |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2464 Node* in1 = n->in(1); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2465 if (in1->is_DecodeN()) { |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2466 n->subsume_by(in1->in(1)); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2467 } else if (in1->Opcode() == Op_ConP) { |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2468 Compile* C = Compile::current(); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2469 const Type* t = in1->bottom_type(); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2470 if (t == TypePtr::NULL_PTR) { |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2471 n->subsume_by(ConNode::make(C, TypeNarrowOop::NULL_PTR)); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2472 } else if (t->isa_oopptr()) { |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2473 n->subsume_by(ConNode::make(C, t->make_narrowoop())); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2474 } |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2475 } |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2476 if (in1->outcnt() == 0) { |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2477 in1->disconnect_inputs(NULL); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2478 } |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2479 break; |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2480 } |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2481 |
1080
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2482 case Op_Proj: { |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2483 if (OptimizeStringConcat) { |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2484 ProjNode* p = n->as_Proj(); |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2485 if (p->_is_io_use) { |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2486 // Separate projections were used for the exception path which |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2487 // are normally removed by a late inline. If it wasn't inlined |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2488 // then they will hang around and should just be replaced with |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2489 // the original one. |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2490 Node* proj = NULL; |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2491 // Replace with just one |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2492 for (SimpleDUIterator i(p->in(0)); i.has_next(); i.next()) { |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2493 Node *use = i.get(); |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2494 if (use->is_Proj() && p != use && use->as_Proj()->_con == p->_con) { |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2495 proj = use; |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2496 break; |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2497 } |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2498 } |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2499 assert(p != NULL, "must be found"); |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2500 p->subsume_by(proj); |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2501 } |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2502 } |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2503 break; |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2504 } |
7c57aead6d3e
6892658: C2 should optimize some stringbuilder patterns
never
parents:
929
diff
changeset
|
2505 |
368
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2506 case Op_Phi: |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2507 if (n->as_Phi()->bottom_type()->isa_narrowoop()) { |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2508 // The EncodeP optimization may create Phi with the same edges |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2509 // for all paths. It is not handled well by Register Allocator. |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2510 Node* unique_in = n->in(1); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2511 assert(unique_in != NULL, ""); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2512 uint cnt = n->req(); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2513 for (uint i = 2; i < cnt; i++) { |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2514 Node* m = n->in(i); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2515 assert(m != NULL, ""); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2516 if (unique_in != m) |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2517 unique_in = NULL; |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2518 } |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2519 if (unique_in != NULL) { |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2520 n->subsume_by(unique_in); |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2521 } |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2522 } |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2523 break; |
36ccc817fca4
6747051: Improve code and implicit null check generation for compressed oops
kvn
parents:
367
diff
changeset
|
2524 |
164
c436414a719e
6703890: Compressed Oops: add LoadNKlass node to generate narrow oops (32-bits) compare instructions
kvn
parents:
163
diff
changeset
|
2525 #endif |
c436414a719e
6703890: Compressed Oops: add LoadNKlass node to generate narrow oops (32-bits) compare instructions
kvn
parents:
163
diff
changeset
|
2526 |
0 | 2527 case Op_ModI: |
2528 if (UseDivMod) { | |
2529 // Check if a%b and a/b both exist | |
2530 Node* d = n->find_similar(Op_DivI); | |
2531 if (d) { | |
2532 // Replace them with a fused divmod if supported | |
2533 Compile* C = Compile::current(); | |
2534 if (Matcher::has_match_rule(Op_DivModI)) { | |
2535 DivModINode* divmod = DivModINode::make(C, n); | |
168
7793bd37a336
6705887: Compressed Oops: generate x64 addressing and implicit null checks with narrow oops
kvn
parents:
164
diff
changeset
|
2536 d->subsume_by(divmod->div_proj()); |
7793bd37a336
6705887: Compressed Oops: generate x64 addressing and implicit null checks with narrow oops
kvn
parents:
164
diff
changeset
|
2537 n->subsume_by(divmod->mod_proj()); |
0 | 2538 } else { |
2539 // replace a%b with a-((a/b)*b) | |
2540 Node* mult = new (C, 3) MulINode(d, d->in(2)); | |
2541 Node* sub = new (C, 3) SubINode(d->in(1), mult); | |
168
7793bd37a336
6705887: Compressed Oops: generate x64 addressing and implicit null checks with narrow oops
kvn
parents:
164
diff
changeset
|
2542 n->subsume_by( sub ); |
0 | 2543 } |
2544 } | |
2545 } | |
2546 break; | |
2547 | |
2548 case Op_ModL: | |
2549 if (UseDivMod) { | |
2550 // Check if a%b and a/b both exist | |
2551 Node* d = n->find_similar(Op_DivL); | |
2552 if (d) { | |
2553 // Replace them with a fused divmod if supported | |
2554 Compile* C = Compile::current(); | |
2555 if (Matcher::has_match_rule(Op_DivModL)) { | |
2556 DivModLNode* divmod = DivModLNode::make(C, n); | |
168
7793bd37a336
6705887: Compressed Oops: generate x64 addressing and implicit null checks with narrow oops
kvn
parents:
164
diff
changeset
|
2557 d->subsume_by(divmod->div_proj()); |
7793bd37a336
6705887: Compressed Oops: generate x64 addressing and implicit null checks with narrow oops
kvn
parents:
164
diff
changeset
|
2558 n->subsume_by(divmod->mod_proj()); |
0 | 2559 } else { |
2560 // replace a%b with a-((a/b)*b) | |
2561 Node* mult = new (C, 3) MulLNode(d, d->in(2)); | |
2562 Node* sub = new (C, 3) SubLNode(d->in(1), mult); | |
168
7793bd37a336
6705887: Compressed Oops: generate x64 addressing and implicit null checks with narrow oops
kvn
parents:
164
diff
changeset
|
2563 n->subsume_by( sub ); |
0 | 2564 } |
2565 } | |
2566 } | |
2567 break; | |
2568 | |
2569 case Op_Load16B: | |
2570 case Op_Load8B: | |
2571 case Op_Load4B: | |
2572 case Op_Load8S: | |
2573 case Op_Load4S: | |
2574 case Op_Load2S: | |
2575 case Op_Load8C: | |
2576 case Op_Load4C: | |
2577 case Op_Load2C: | |
2578 case Op_Load4I: | |
2579 case Op_Load2I: | |
2580 case Op_Load2L: | |
2581 case Op_Load4F: | |
2582 case Op_Load2F: | |
2583 case Op_Load2D: | |
2584 case Op_Store16B: | |
2585 case Op_Store8B: | |
2586 case Op_Store4B: | |
2587 case Op_Store8C: | |
2588 case Op_Store4C: | |
2589 case Op_Store2C: | |
2590 case Op_Store4I: | |
2591 case Op_Store2I: | |
2592 case Op_Store2L: | |
2593 case Op_Store4F: | |
2594 case Op_Store2F: | |
2595 case Op_Store2D: | |
2596 break; | |
2597 | |
2598 case Op_PackB: | |
2599 case Op_PackS: | |
2600 case Op_PackC: | |
2601 case Op_PackI: | |
2602 case Op_PackF: | |
2603 case Op_PackL: | |
2604 case Op_PackD: | |
2605 if (n->req()-1 > 2) { | |
2606 // Replace many operand PackNodes with a binary tree for matching | |
2607 PackNode* p = (PackNode*) n; | |
2608 Node* btp = p->binaryTreePack(Compile::current(), 1, n->req()); | |
168
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2609 n->subsume_by(btp); |
0 | 2610 } |
2611 break; | |
859
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|
2612 case Op_Loop: |
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|
2613 case Op_CountedLoop: |
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2614 if (n->as_Loop()->is_inner_loop()) { |
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|
2615 frc.inc_inner_loop_count(); |
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|
2616 } |
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|
2617 break; |
2401
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|
2618 case Op_LShiftI: |
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|
2619 case Op_RShiftI: |
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|
2620 case Op_URShiftI: |
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|
2621 case Op_LShiftL: |
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|
2622 case Op_RShiftL: |
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|
2623 case Op_URShiftL: |
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|
2624 if (Matcher::need_masked_shift_count) { |
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|
2625 // The cpu's shift instructions don't restrict the count to the |
7e88bdae86ec
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|
2626 // lower 5/6 bits. We need to do the masking ourselves. |
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|
2627 Node* in2 = n->in(2); |
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|
2628 juint mask = (n->bottom_type() == TypeInt::INT) ? (BitsPerInt - 1) : (BitsPerLong - 1); |
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|
2629 const TypeInt* t = in2->find_int_type(); |
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|
2630 if (t != NULL && t->is_con()) { |
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|
2631 juint shift = t->get_con(); |
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|
2632 if (shift > mask) { // Unsigned cmp |
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|
2633 Compile* C = Compile::current(); |
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|
2634 n->set_req(2, ConNode::make(C, TypeInt::make(shift & mask))); |
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|
2635 } |
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|
2636 } else { |
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diff
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|
2637 if (t == NULL || t->_lo < 0 || t->_hi > (int)mask) { |
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|
2638 Compile* C = Compile::current(); |
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diff
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|
2639 Node* shift = new (C, 3) AndINode(in2, ConNode::make(C, TypeInt::make(mask))); |
7e88bdae86ec
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|
2640 n->set_req(2, shift); |
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diff
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|
2641 } |
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diff
changeset
|
2642 } |
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diff
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|
2643 if (in2->outcnt() == 0) { // Remove dead node |
7e88bdae86ec
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diff
changeset
|
2644 in2->disconnect_inputs(NULL); |
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diff
changeset
|
2645 } |
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diff
changeset
|
2646 } |
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7029017: Additional architecture support for c2 compiler
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diff
changeset
|
2647 break; |
0 | 2648 default: |
2649 assert( !n->is_Call(), "" ); | |
2650 assert( !n->is_Mem(), "" ); | |
2651 break; | |
2652 } | |
127 | 2653 |
2654 // Collect CFG split points | |
2655 if (n->is_MultiBranch()) | |
859
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diff
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|
2656 frc._tests.push(n); |
0 | 2657 } |
2658 | |
2659 //------------------------------final_graph_reshaping_walk--------------------- | |
2660 // Replacing Opaque nodes with their input in final_graph_reshaping_impl(), | |
2661 // requires that the walk visits a node's inputs before visiting the node. | |
859
ea3f9723b5cf
6860599: nodes limit could be reached during Output phase
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diff
changeset
|
2662 static void final_graph_reshaping_walk( Node_Stack &nstack, Node *root, Final_Reshape_Counts &frc ) { |
331
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2663 ResourceArea *area = Thread::current()->resource_area(); |
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|
2664 Unique_Node_List sfpt(area); |
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|
2665 |
859
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|
2666 frc._visited.set(root->_idx); // first, mark node as visited |
0 | 2667 uint cnt = root->req(); |
2668 Node *n = root; | |
2669 uint i = 0; | |
2670 while (true) { | |
2671 if (i < cnt) { | |
2672 // Place all non-visited non-null inputs onto stack | |
2673 Node* m = n->in(i); | |
2674 ++i; | |
859
ea3f9723b5cf
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|
2675 if (m != NULL && !frc._visited.test_set(m->_idx)) { |
331
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2676 if (m->is_SafePoint() && m->as_SafePoint()->jvms() != NULL) |
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|
2677 sfpt.push(m); |
0 | 2678 cnt = m->req(); |
2679 nstack.push(n, i); // put on stack parent and next input's index | |
2680 n = m; | |
2681 i = 0; | |
2682 } | |
2683 } else { | |
2684 // Now do post-visit work | |
859
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diff
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|
2685 final_graph_reshaping_impl( n, frc ); |
0 | 2686 if (nstack.is_empty()) |
2687 break; // finished | |
2688 n = nstack.node(); // Get node from stack | |
2689 cnt = n->req(); | |
2690 i = nstack.index(); | |
2691 nstack.pop(); // Shift to the next node on stack | |
2692 } | |
2693 } | |
331
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|
2694 |
1575
3657cb01ffc5
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1397
diff
changeset
|
2695 // Skip next transformation if compressed oops are not used. |
3657cb01ffc5
6954029: Improve implicit null check generation with compressed oops
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parents:
1397
diff
changeset
|
2696 if (!UseCompressedOops || !Matcher::gen_narrow_oop_implicit_null_checks()) |
3657cb01ffc5
6954029: Improve implicit null check generation with compressed oops
kvn
parents:
1397
diff
changeset
|
2697 return; |
3657cb01ffc5
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diff
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|
2698 |
331
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|
2699 // Go over safepoints nodes to skip DecodeN nodes for debug edges. |
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|
2700 // It could be done for an uncommon traps or any safepoints/calls |
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2701 // if the DecodeN node is referenced only in a debug info. |
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2702 while (sfpt.size() > 0) { |
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diff
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|
2703 n = sfpt.pop(); |
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|
2704 JVMState *jvms = n->as_SafePoint()->jvms(); |
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|
2705 assert(jvms != NULL, "sanity"); |
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|
2706 int start = jvms->debug_start(); |
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|
2707 int end = n->req(); |
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|
2708 bool is_uncommon = (n->is_CallStaticJava() && |
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|
2709 n->as_CallStaticJava()->uncommon_trap_request() != 0); |
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2710 for (int j = start; j < end; j++) { |
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diff
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|
2711 Node* in = n->in(j); |
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diff
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|
2712 if (in->is_DecodeN()) { |
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diff
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|
2713 bool safe_to_skip = true; |
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|
2714 if (!is_uncommon ) { |
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diff
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|
2715 // Is it safe to skip? |
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|
2716 for (uint i = 0; i < in->outcnt(); i++) { |
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|
2717 Node* u = in->raw_out(i); |
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diff
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|
2718 if (!u->is_SafePoint() || |
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|
2719 u->is_Call() && u->as_Call()->has_non_debug_use(n)) { |
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|
2720 safe_to_skip = false; |
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|
2721 } |
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diff
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|
2722 } |
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diff
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|
2723 } |
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diff
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|
2724 if (safe_to_skip) { |
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|
2725 n->set_req(j, in->in(1)); |
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|
2726 } |
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diff
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|
2727 if (in->outcnt() == 0) { |
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diff
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|
2728 in->disconnect_inputs(NULL); |
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|
2729 } |
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|
2730 } |
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|
2731 } |
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|
2732 } |
0 | 2733 } |
2734 | |
2735 //------------------------------final_graph_reshaping-------------------------- | |
2736 // Final Graph Reshaping. | |
2737 // | |
2738 // (1) Clone simple inputs to uncommon calls, so they can be scheduled late | |
2739 // and not commoned up and forced early. Must come after regular | |
2740 // optimizations to avoid GVN undoing the cloning. Clone constant | |
2741 // inputs to Loop Phis; these will be split by the allocator anyways. | |
2742 // Remove Opaque nodes. | |
2743 // (2) Move last-uses by commutative operations to the left input to encourage | |
2744 // Intel update-in-place two-address operations and better register usage | |
2745 // on RISCs. Must come after regular optimizations to avoid GVN Ideal | |
2746 // calls canonicalizing them back. | |
2747 // (3) Count the number of double-precision FP ops, single-precision FP ops | |
2748 // and call sites. On Intel, we can get correct rounding either by | |
2749 // forcing singles to memory (requires extra stores and loads after each | |
2750 // FP bytecode) or we can set a rounding mode bit (requires setting and | |
2751 // clearing the mode bit around call sites). The mode bit is only used | |
2752 // if the relative frequency of single FP ops to calls is low enough. | |
2753 // This is a key transform for SPEC mpeg_audio. | |
2754 // (4) Detect infinite loops; blobs of code reachable from above but not | |
2755 // below. Several of the Code_Gen algorithms fail on such code shapes, | |
2756 // so we simply bail out. Happens a lot in ZKM.jar, but also happens | |
2757 // from time to time in other codes (such as -Xcomp finalizer loops, etc). | |
2758 // Detection is by looking for IfNodes where only 1 projection is | |
2759 // reachable from below or CatchNodes missing some targets. | |
2760 // (5) Assert for insane oop offsets in debug mode. | |
2761 | |
2762 bool Compile::final_graph_reshaping() { | |
2763 // an infinite loop may have been eliminated by the optimizer, | |
2764 // in which case the graph will be empty. | |
2765 if (root()->req() == 1) { | |
2766 record_method_not_compilable("trivial infinite loop"); | |
2767 return true; | |
2768 } | |
2769 | |
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|
2770 Final_Reshape_Counts frc; |
0 | 2771 |
2772 // Visit everybody reachable! | |
2773 // Allocate stack of size C->unique()/2 to avoid frequent realloc | |
2774 Node_Stack nstack(unique() >> 1); | |
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|
2775 final_graph_reshaping_walk(nstack, root(), frc); |
0 | 2776 |
2777 // Check for unreachable (from below) code (i.e., infinite loops). | |
859
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|
2778 for( uint i = 0; i < frc._tests.size(); i++ ) { |
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|
2779 MultiBranchNode *n = frc._tests[i]->as_MultiBranch(); |
127 | 2780 // Get number of CFG targets. |
0 | 2781 // Note that PCTables include exception targets after calls. |
127 | 2782 uint required_outcnt = n->required_outcnt(); |
2783 if (n->outcnt() != required_outcnt) { | |
0 | 2784 // Check for a few special cases. Rethrow Nodes never take the |
2785 // 'fall-thru' path, so expected kids is 1 less. | |
2786 if (n->is_PCTable() && n->in(0) && n->in(0)->in(0)) { | |
2787 if (n->in(0)->in(0)->is_Call()) { | |
2788 CallNode *call = n->in(0)->in(0)->as_Call(); | |
2789 if (call->entry_point() == OptoRuntime::rethrow_stub()) { | |
127 | 2790 required_outcnt--; // Rethrow always has 1 less kid |
0 | 2791 } else if (call->req() > TypeFunc::Parms && |
2792 call->is_CallDynamicJava()) { | |
2793 // Check for null receiver. In such case, the optimizer has | |
2794 // detected that the virtual call will always result in a null | |
2795 // pointer exception. The fall-through projection of this CatchNode | |
2796 // will not be populated. | |
2797 Node *arg0 = call->in(TypeFunc::Parms); | |
2798 if (arg0->is_Type() && | |
2799 arg0->as_Type()->type()->higher_equal(TypePtr::NULL_PTR)) { | |
127 | 2800 required_outcnt--; |
0 | 2801 } |
2802 } else if (call->entry_point() == OptoRuntime::new_array_Java() && | |
2803 call->req() > TypeFunc::Parms+1 && | |
2804 call->is_CallStaticJava()) { | |
2805 // Check for negative array length. In such case, the optimizer has | |
2806 // detected that the allocation attempt will always result in an | |
2807 // exception. There is no fall-through projection of this CatchNode . | |
2808 Node *arg1 = call->in(TypeFunc::Parms+1); | |
2809 if (arg1->is_Type() && | |
2810 arg1->as_Type()->type()->join(TypeInt::POS)->empty()) { | |
127 | 2811 required_outcnt--; |
0 | 2812 } |
2813 } | |
2814 } | |
2815 } | |
127 | 2816 // Recheck with a better notion of 'required_outcnt' |
2817 if (n->outcnt() != required_outcnt) { | |
0 | 2818 record_method_not_compilable("malformed control flow"); |
2819 return true; // Not all targets reachable! | |
2820 } | |
2821 } | |
2822 // Check that I actually visited all kids. Unreached kids | |
2823 // must be infinite loops. | |
2824 for (DUIterator_Fast jmax, j = n->fast_outs(jmax); j < jmax; j++) | |
859
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kvn
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|
2825 if (!frc._visited.test(n->fast_out(j)->_idx)) { |
0 | 2826 record_method_not_compilable("infinite loop"); |
2827 return true; // Found unvisited kid; must be unreach | |
2828 } | |
2829 } | |
2830 | |
2831 // If original bytecodes contained a mixture of floats and doubles | |
2832 // check if the optimizer has made it homogenous, item (3). | |
929
cd18bd5e667c
6873777: FPU control word optimization still performed with SSE
never
parents:
921
diff
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|
2833 if( Use24BitFPMode && Use24BitFP && UseSSE == 0 && |
859
ea3f9723b5cf
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kvn
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diff
changeset
|
2834 frc.get_float_count() > 32 && |
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2835 frc.get_double_count() == 0 && |
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2836 (10 * frc.get_call_count() < frc.get_float_count()) ) { |
0 | 2837 set_24_bit_selection_and_mode( false, true ); |
2838 } | |
2839 | |
859
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2840 set_java_calls(frc.get_java_call_count()); |
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2841 set_inner_loops(frc.get_inner_loop_count()); |
0 | 2842 |
2843 // No infinite loops, no reason to bail out. | |
2844 return false; | |
2845 } | |
2846 | |
2847 //-----------------------------too_many_traps---------------------------------- | |
2848 // Report if there are too many traps at the current method and bci. | |
2849 // Return true if there was a trap, and/or PerMethodTrapLimit is exceeded. | |
2850 bool Compile::too_many_traps(ciMethod* method, | |
2851 int bci, | |
2852 Deoptimization::DeoptReason reason) { | |
2853 ciMethodData* md = method->method_data(); | |
2854 if (md->is_empty()) { | |
2855 // Assume the trap has not occurred, or that it occurred only | |
2856 // because of a transient condition during start-up in the interpreter. | |
2857 return false; | |
2858 } | |
2859 if (md->has_trap_at(bci, reason) != 0) { | |
2860 // Assume PerBytecodeTrapLimit==0, for a more conservative heuristic. | |
2861 // Also, if there are multiple reasons, or if there is no per-BCI record, | |
2862 // assume the worst. | |
2863 if (log()) | |
2864 log()->elem("observe trap='%s' count='%d'", | |
2865 Deoptimization::trap_reason_name(reason), | |
2866 md->trap_count(reason)); | |
2867 return true; | |
2868 } else { | |
2869 // Ignore method/bci and see if there have been too many globally. | |
2870 return too_many_traps(reason, md); | |
2871 } | |
2872 } | |
2873 | |
2874 // Less-accurate variant which does not require a method and bci. | |
2875 bool Compile::too_many_traps(Deoptimization::DeoptReason reason, | |
2876 ciMethodData* logmd) { | |
2877 if (trap_count(reason) >= (uint)PerMethodTrapLimit) { | |
2878 // Too many traps globally. | |
2879 // Note that we use cumulative trap_count, not just md->trap_count. | |
2880 if (log()) { | |
2881 int mcount = (logmd == NULL)? -1: (int)logmd->trap_count(reason); | |
2882 log()->elem("observe trap='%s' count='0' mcount='%d' ccount='%d'", | |
2883 Deoptimization::trap_reason_name(reason), | |
2884 mcount, trap_count(reason)); | |
2885 } | |
2886 return true; | |
2887 } else { | |
2888 // The coast is clear. | |
2889 return false; | |
2890 } | |
2891 } | |
2892 | |
2893 //--------------------------too_many_recompiles-------------------------------- | |
2894 // Report if there are too many recompiles at the current method and bci. | |
2895 // Consults PerBytecodeRecompilationCutoff and PerMethodRecompilationCutoff. | |
2896 // Is not eager to return true, since this will cause the compiler to use | |
2897 // Action_none for a trap point, to avoid too many recompilations. | |
2898 bool Compile::too_many_recompiles(ciMethod* method, | |
2899 int bci, | |
2900 Deoptimization::DeoptReason reason) { | |
2901 ciMethodData* md = method->method_data(); | |
2902 if (md->is_empty()) { | |
2903 // Assume the trap has not occurred, or that it occurred only | |
2904 // because of a transient condition during start-up in the interpreter. | |
2905 return false; | |
2906 } | |
2907 // Pick a cutoff point well within PerBytecodeRecompilationCutoff. | |
2908 uint bc_cutoff = (uint) PerBytecodeRecompilationCutoff / 8; | |
2909 uint m_cutoff = (uint) PerMethodRecompilationCutoff / 2 + 1; // not zero | |
2910 Deoptimization::DeoptReason per_bc_reason | |
2911 = Deoptimization::reason_recorded_per_bytecode_if_any(reason); | |
2912 if ((per_bc_reason == Deoptimization::Reason_none | |
2913 || md->has_trap_at(bci, reason) != 0) | |
2914 // The trap frequency measure we care about is the recompile count: | |
2915 && md->trap_recompiled_at(bci) | |
2916 && md->overflow_recompile_count() >= bc_cutoff) { | |
2917 // Do not emit a trap here if it has already caused recompilations. | |
2918 // Also, if there are multiple reasons, or if there is no per-BCI record, | |
2919 // assume the worst. | |
2920 if (log()) | |
2921 log()->elem("observe trap='%s recompiled' count='%d' recompiles2='%d'", | |
2922 Deoptimization::trap_reason_name(reason), | |
2923 md->trap_count(reason), | |
2924 md->overflow_recompile_count()); | |
2925 return true; | |
2926 } else if (trap_count(reason) != 0 | |
2927 && decompile_count() >= m_cutoff) { | |
2928 // Too many recompiles globally, and we have seen this sort of trap. | |
2929 // Use cumulative decompile_count, not just md->decompile_count. | |
2930 if (log()) | |
2931 log()->elem("observe trap='%s' count='%d' mcount='%d' decompiles='%d' mdecompiles='%d'", | |
2932 Deoptimization::trap_reason_name(reason), | |
2933 md->trap_count(reason), trap_count(reason), | |
2934 md->decompile_count(), decompile_count()); | |
2935 return true; | |
2936 } else { | |
2937 // The coast is clear. | |
2938 return false; | |
2939 } | |
2940 } | |
2941 | |
2942 | |
2943 #ifndef PRODUCT | |
2944 //------------------------------verify_graph_edges--------------------------- | |
2945 // Walk the Graph and verify that there is a one-to-one correspondence | |
2946 // between Use-Def edges and Def-Use edges in the graph. | |
2947 void Compile::verify_graph_edges(bool no_dead_code) { | |
2948 if (VerifyGraphEdges) { | |
2949 ResourceArea *area = Thread::current()->resource_area(); | |
2950 Unique_Node_List visited(area); | |
2951 // Call recursive graph walk to check edges | |
2952 _root->verify_edges(visited); | |
2953 if (no_dead_code) { | |
2954 // Now make sure that no visited node is used by an unvisited node. | |
2955 bool dead_nodes = 0; | |
2956 Unique_Node_List checked(area); | |
2957 while (visited.size() > 0) { | |
2958 Node* n = visited.pop(); | |
2959 checked.push(n); | |
2960 for (uint i = 0; i < n->outcnt(); i++) { | |
2961 Node* use = n->raw_out(i); | |
2962 if (checked.member(use)) continue; // already checked | |
2963 if (visited.member(use)) continue; // already in the graph | |
2964 if (use->is_Con()) continue; // a dead ConNode is OK | |
2965 // At this point, we have found a dead node which is DU-reachable. | |
2966 if (dead_nodes++ == 0) | |
2967 tty->print_cr("*** Dead nodes reachable via DU edges:"); | |
2968 use->dump(2); | |
2969 tty->print_cr("---"); | |
2970 checked.push(use); // No repeats; pretend it is now checked. | |
2971 } | |
2972 } | |
2973 assert(dead_nodes == 0, "using nodes must be reachable from root"); | |
2974 } | |
2975 } | |
2976 } | |
2977 #endif | |
2978 | |
2979 // The Compile object keeps track of failure reasons separately from the ciEnv. | |
2980 // This is required because there is not quite a 1-1 relation between the | |
2981 // ciEnv and its compilation task and the Compile object. Note that one | |
2982 // ciEnv might use two Compile objects, if C2Compiler::compile_method decides | |
2983 // to backtrack and retry without subsuming loads. Other than this backtracking | |
2984 // behavior, the Compile's failure reason is quietly copied up to the ciEnv | |
2985 // by the logic in C2Compiler. | |
2986 void Compile::record_failure(const char* reason) { | |
2987 if (log() != NULL) { | |
2988 log()->elem("failure reason='%s' phase='compile'", reason); | |
2989 } | |
2990 if (_failure_reason == NULL) { | |
2991 // Record the first failure reason. | |
2992 _failure_reason = reason; | |
2993 } | |
222 | 2994 if (!C->failure_reason_is(C2Compiler::retry_no_subsuming_loads())) { |
2995 C->print_method(_failure_reason); | |
2996 } | |
0 | 2997 _root = NULL; // flush the graph, too |
2998 } | |
2999 | |
3000 Compile::TracePhase::TracePhase(const char* name, elapsedTimer* accumulator, bool dolog) | |
3001 : TraceTime(NULL, accumulator, false NOT_PRODUCT( || TimeCompiler ), false) | |
3002 { | |
3003 if (dolog) { | |
3004 C = Compile::current(); | |
3005 _log = C->log(); | |
3006 } else { | |
3007 C = NULL; | |
3008 _log = NULL; | |
3009 } | |
3010 if (_log != NULL) { | |
3011 _log->begin_head("phase name='%s' nodes='%d'", name, C->unique()); | |
3012 _log->stamp(); | |
3013 _log->end_head(); | |
3014 } | |
3015 } | |
3016 | |
3017 Compile::TracePhase::~TracePhase() { | |
3018 if (_log != NULL) { | |
3019 _log->done("phase nodes='%d'", C->unique()); | |
3020 } | |
3021 } | |
2008 | 3022 |
3023 //============================================================================= | |
3024 // Two Constant's are equal when the type and the value are equal. | |
3025 bool Compile::Constant::operator==(const Constant& other) { | |
3026 if (type() != other.type() ) return false; | |
3027 if (can_be_reused() != other.can_be_reused()) return false; | |
3028 // For floating point values we compare the bit pattern. | |
3029 switch (type()) { | |
3030 case T_FLOAT: return (_value.i == other._value.i); | |
3031 case T_LONG: | |
3032 case T_DOUBLE: return (_value.j == other._value.j); | |
3033 case T_OBJECT: | |
3034 case T_ADDRESS: return (_value.l == other._value.l); | |
3035 case T_VOID: return (_value.l == other._value.l); // jump-table entries | |
3036 default: ShouldNotReachHere(); | |
3037 } | |
3038 return false; | |
3039 } | |
3040 | |
3041 // Emit constants grouped in the following order: | |
3042 static BasicType type_order[] = { | |
3043 T_FLOAT, // 32-bit | |
3044 T_OBJECT, // 32 or 64-bit | |
3045 T_ADDRESS, // 32 or 64-bit | |
3046 T_DOUBLE, // 64-bit | |
3047 T_LONG, // 64-bit | |
3048 T_VOID, // 32 or 64-bit (jump-tables are at the end of the constant table for code emission reasons) | |
3049 T_ILLEGAL | |
3050 }; | |
3051 | |
3052 static int type_to_size_in_bytes(BasicType t) { | |
3053 switch (t) { | |
3054 case T_LONG: return sizeof(jlong ); | |
3055 case T_FLOAT: return sizeof(jfloat ); | |
3056 case T_DOUBLE: return sizeof(jdouble); | |
3057 // We use T_VOID as marker for jump-table entries (labels) which | |
3058 // need an interal word relocation. | |
3059 case T_VOID: | |
3060 case T_ADDRESS: | |
3061 case T_OBJECT: return sizeof(jobject); | |
3062 } | |
3063 | |
3064 ShouldNotReachHere(); | |
3065 return -1; | |
3066 } | |
3067 | |
3068 void Compile::ConstantTable::calculate_offsets_and_size() { | |
3069 int size = 0; | |
3070 for (int t = 0; type_order[t] != T_ILLEGAL; t++) { | |
3071 BasicType type = type_order[t]; | |
3072 | |
3073 for (int i = 0; i < _constants.length(); i++) { | |
3074 Constant con = _constants.at(i); | |
3075 if (con.type() != type) continue; // Skip other types. | |
3076 | |
3077 // Align size for type. | |
3078 int typesize = type_to_size_in_bytes(con.type()); | |
3079 size = align_size_up(size, typesize); | |
3080 | |
3081 // Set offset. | |
3082 con.set_offset(size); | |
3083 _constants.at_put(i, con); | |
3084 | |
3085 // Add type size. | |
3086 size = size + typesize; | |
3087 } | |
3088 } | |
3089 | |
3090 // Align size up to the next section start (which is insts; see | |
3091 // CodeBuffer::align_at_start). | |
3092 assert(_size == -1, "already set?"); | |
3093 _size = align_size_up(size, CodeEntryAlignment); | |
3094 | |
3095 if (Matcher::constant_table_absolute_addressing) { | |
3096 set_table_base_offset(0); // No table base offset required | |
3097 } else { | |
3098 if (UseRDPCForConstantTableBase) { | |
3099 // table base offset is set in MachConstantBaseNode::emit | |
3100 } else { | |
3101 // When RDPC is not used, the table base is set into the middle of | |
3102 // the constant table. | |
3103 int half_size = _size / 2; | |
3104 assert(half_size * 2 == _size, "sanity"); | |
3105 set_table_base_offset(-half_size); | |
3106 } | |
3107 } | |
3108 } | |
3109 | |
3110 void Compile::ConstantTable::emit(CodeBuffer& cb) { | |
3111 MacroAssembler _masm(&cb); | |
3112 for (int t = 0; type_order[t] != T_ILLEGAL; t++) { | |
3113 BasicType type = type_order[t]; | |
3114 | |
3115 for (int i = 0; i < _constants.length(); i++) { | |
3116 Constant con = _constants.at(i); | |
3117 if (con.type() != type) continue; // Skip other types. | |
3118 | |
3119 address constant_addr; | |
3120 switch (con.type()) { | |
3121 case T_LONG: constant_addr = _masm.long_constant( con.get_jlong() ); break; | |
3122 case T_FLOAT: constant_addr = _masm.float_constant( con.get_jfloat() ); break; | |
3123 case T_DOUBLE: constant_addr = _masm.double_constant(con.get_jdouble()); break; | |
3124 case T_OBJECT: { | |
3125 jobject obj = con.get_jobject(); | |
3126 int oop_index = _masm.oop_recorder()->find_index(obj); | |
3127 constant_addr = _masm.address_constant((address) obj, oop_Relocation::spec(oop_index)); | |
3128 break; | |
3129 } | |
3130 case T_ADDRESS: { | |
3131 address addr = (address) con.get_jobject(); | |
3132 constant_addr = _masm.address_constant(addr); | |
3133 break; | |
3134 } | |
3135 // We use T_VOID as marker for jump-table entries (labels) which | |
3136 // need an interal word relocation. | |
3137 case T_VOID: { | |
3138 // Write a dummy word. The real value is filled in later | |
3139 // in fill_jump_table_in_constant_table. | |
3140 address addr = (address) con.get_jobject(); | |
3141 constant_addr = _masm.address_constant(addr); | |
3142 break; | |
3143 } | |
3144 default: ShouldNotReachHere(); | |
3145 } | |
3146 assert(constant_addr != NULL, "consts section too small"); | |
3147 assert((constant_addr - _masm.code()->consts()->start()) == con.offset(), err_msg("must be: %d == %d", constant_addr - _masm.code()->consts()->start(), con.offset())); | |
3148 } | |
3149 } | |
3150 } | |
3151 | |
3152 int Compile::ConstantTable::find_offset(Constant& con) const { | |
3153 int idx = _constants.find(con); | |
3154 assert(idx != -1, "constant must be in constant table"); | |
3155 int offset = _constants.at(idx).offset(); | |
3156 assert(offset != -1, "constant table not emitted yet?"); | |
3157 return offset; | |
3158 } | |
3159 | |
3160 void Compile::ConstantTable::add(Constant& con) { | |
3161 if (con.can_be_reused()) { | |
3162 int idx = _constants.find(con); | |
3163 if (idx != -1 && _constants.at(idx).can_be_reused()) { | |
3164 return; | |
3165 } | |
3166 } | |
3167 (void) _constants.append(con); | |
3168 } | |
3169 | |
3170 Compile::Constant Compile::ConstantTable::add(BasicType type, jvalue value) { | |
3171 Constant con(type, value); | |
3172 add(con); | |
3173 return con; | |
3174 } | |
3175 | |
3176 Compile::Constant Compile::ConstantTable::add(MachOper* oper) { | |
3177 jvalue value; | |
3178 BasicType type = oper->type()->basic_type(); | |
3179 switch (type) { | |
3180 case T_LONG: value.j = oper->constantL(); break; | |
3181 case T_FLOAT: value.f = oper->constantF(); break; | |
3182 case T_DOUBLE: value.d = oper->constantD(); break; | |
3183 case T_OBJECT: | |
3184 case T_ADDRESS: value.l = (jobject) oper->constant(); break; | |
3185 default: ShouldNotReachHere(); | |
3186 } | |
3187 return add(type, value); | |
3188 } | |
3189 | |
3190 Compile::Constant Compile::ConstantTable::allocate_jump_table(MachConstantNode* n) { | |
3191 jvalue value; | |
3192 // We can use the node pointer here to identify the right jump-table | |
3193 // as this method is called from Compile::Fill_buffer right before | |
3194 // the MachNodes are emitted and the jump-table is filled (means the | |
3195 // MachNode pointers do not change anymore). | |
3196 value.l = (jobject) n; | |
3197 Constant con(T_VOID, value, false); // Labels of a jump-table cannot be reused. | |
3198 for (uint i = 0; i < n->outcnt(); i++) { | |
3199 add(con); | |
3200 } | |
3201 return con; | |
3202 } | |
3203 | |
3204 void Compile::ConstantTable::fill_jump_table(CodeBuffer& cb, MachConstantNode* n, GrowableArray<Label*> labels) const { | |
3205 // If called from Compile::scratch_emit_size do nothing. | |
3206 if (Compile::current()->in_scratch_emit_size()) return; | |
3207 | |
3208 assert(labels.is_nonempty(), "must be"); | |
3209 assert((uint) labels.length() == n->outcnt(), err_msg("must be equal: %d == %d", labels.length(), n->outcnt())); | |
3210 | |
3211 // Since MachConstantNode::constant_offset() also contains | |
3212 // table_base_offset() we need to subtract the table_base_offset() | |
3213 // to get the plain offset into the constant table. | |
3214 int offset = n->constant_offset() - table_base_offset(); | |
3215 | |
3216 MacroAssembler _masm(&cb); | |
3217 address* jump_table_base = (address*) (_masm.code()->consts()->start() + offset); | |
3218 | |
3219 for (int i = 0; i < labels.length(); i++) { | |
3220 address* constant_addr = &jump_table_base[i]; | |
3221 assert(*constant_addr == (address) n, "all jump-table entries must contain node pointer"); | |
3222 *constant_addr = cb.consts()->target(*labels.at(i), (address) constant_addr); | |
3223 cb.consts()->relocate((address) constant_addr, relocInfo::internal_word_type); | |
3224 } | |
3225 } |