Mercurial > hg > truffle
annotate src/share/vm/opto/loopTransform.cpp @ 3456:782e2bb60c41
7052494: Eclipse test fails on JDK 7 b142
Summary: Keep 'ne' test in Counted loop when we can't guarantee during compilation that init < limit.
Reviewed-by: never
author | kvn |
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date | Mon, 20 Jun 2011 16:45:35 -0700 |
parents | 789d04408ca3 |
children | e3cbc9ddd434 |
rev | line source |
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0 | 1 /* |
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2 * Copyright (c) 2000, 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 "compiler/compileLog.hpp" | |
27 #include "memory/allocation.inline.hpp" | |
28 #include "opto/addnode.hpp" | |
29 #include "opto/callnode.hpp" | |
30 #include "opto/connode.hpp" | |
31 #include "opto/divnode.hpp" | |
32 #include "opto/loopnode.hpp" | |
33 #include "opto/mulnode.hpp" | |
34 #include "opto/rootnode.hpp" | |
35 #include "opto/runtime.hpp" | |
36 #include "opto/subnode.hpp" | |
0 | 37 |
38 //------------------------------is_loop_exit----------------------------------- | |
39 // Given an IfNode, return the loop-exiting projection or NULL if both | |
40 // arms remain in the loop. | |
41 Node *IdealLoopTree::is_loop_exit(Node *iff) const { | |
42 if( iff->outcnt() != 2 ) return NULL; // Ignore partially dead tests | |
43 PhaseIdealLoop *phase = _phase; | |
44 // Test is an IfNode, has 2 projections. If BOTH are in the loop | |
45 // we need loop unswitching instead of peeling. | |
46 if( !is_member(phase->get_loop( iff->raw_out(0) )) ) | |
47 return iff->raw_out(0); | |
48 if( !is_member(phase->get_loop( iff->raw_out(1) )) ) | |
49 return iff->raw_out(1); | |
50 return NULL; | |
51 } | |
52 | |
53 | |
54 //============================================================================= | |
55 | |
56 | |
57 //------------------------------record_for_igvn---------------------------- | |
58 // Put loop body on igvn work list | |
59 void IdealLoopTree::record_for_igvn() { | |
60 for( uint i = 0; i < _body.size(); i++ ) { | |
61 Node *n = _body.at(i); | |
62 _phase->_igvn._worklist.push(n); | |
63 } | |
64 } | |
65 | |
2465 | 66 //------------------------------compute_exact_trip_count----------------------- |
67 // Compute loop exact trip count if possible. Do not recalculate trip count for | |
68 // split loops (pre-main-post) which have their limits and inits behind Opaque node. | |
69 void IdealLoopTree::compute_exact_trip_count( PhaseIdealLoop *phase ) { | |
70 if (!_head->as_Loop()->is_valid_counted_loop()) { | |
71 return; | |
72 } | |
73 CountedLoopNode* cl = _head->as_CountedLoop(); | |
74 // Trip count may become nonexact for iteration split loops since | |
75 // RCE modifies limits. Note, _trip_count value is not reset since | |
76 // it is used to limit unrolling of main loop. | |
77 cl->set_nonexact_trip_count(); | |
78 | |
79 // Loop's test should be part of loop. | |
80 if (!phase->is_member(this, phase->get_ctrl(cl->loopexit()->in(CountedLoopEndNode::TestValue)))) | |
81 return; // Infinite loop | |
82 | |
83 #ifdef ASSERT | |
84 BoolTest::mask bt = cl->loopexit()->test_trip(); | |
85 assert(bt == BoolTest::lt || bt == BoolTest::gt || | |
3456 | 86 bt == BoolTest::ne, "canonical test is expected"); |
2465 | 87 #endif |
88 | |
89 Node* init_n = cl->init_trip(); | |
90 Node* limit_n = cl->limit(); | |
91 if (init_n != NULL && init_n->is_Con() && | |
92 limit_n != NULL && limit_n->is_Con()) { | |
93 // Use longs to avoid integer overflow. | |
94 int stride_con = cl->stride_con(); | |
95 long init_con = cl->init_trip()->get_int(); | |
96 long limit_con = cl->limit()->get_int(); | |
97 int stride_m = stride_con - (stride_con > 0 ? 1 : -1); | |
98 long trip_count = (limit_con - init_con + stride_m)/stride_con; | |
99 if (trip_count > 0 && (julong)trip_count < (julong)max_juint) { | |
100 // Set exact trip count. | |
101 cl->set_exact_trip_count((uint)trip_count); | |
102 } | |
103 } | |
104 } | |
105 | |
0 | 106 //------------------------------compute_profile_trip_cnt---------------------------- |
107 // Compute loop trip count from profile data as | |
108 // (backedge_count + loop_exit_count) / loop_exit_count | |
109 void IdealLoopTree::compute_profile_trip_cnt( PhaseIdealLoop *phase ) { | |
110 if (!_head->is_CountedLoop()) { | |
111 return; | |
112 } | |
113 CountedLoopNode* head = _head->as_CountedLoop(); | |
114 if (head->profile_trip_cnt() != COUNT_UNKNOWN) { | |
115 return; // Already computed | |
116 } | |
117 float trip_cnt = (float)max_jint; // default is big | |
118 | |
119 Node* back = head->in(LoopNode::LoopBackControl); | |
120 while (back != head) { | |
121 if ((back->Opcode() == Op_IfTrue || back->Opcode() == Op_IfFalse) && | |
122 back->in(0) && | |
123 back->in(0)->is_If() && | |
124 back->in(0)->as_If()->_fcnt != COUNT_UNKNOWN && | |
125 back->in(0)->as_If()->_prob != PROB_UNKNOWN) { | |
126 break; | |
127 } | |
128 back = phase->idom(back); | |
129 } | |
130 if (back != head) { | |
131 assert((back->Opcode() == Op_IfTrue || back->Opcode() == Op_IfFalse) && | |
132 back->in(0), "if-projection exists"); | |
133 IfNode* back_if = back->in(0)->as_If(); | |
134 float loop_back_cnt = back_if->_fcnt * back_if->_prob; | |
135 | |
136 // Now compute a loop exit count | |
137 float loop_exit_cnt = 0.0f; | |
138 for( uint i = 0; i < _body.size(); i++ ) { | |
139 Node *n = _body[i]; | |
140 if( n->is_If() ) { | |
141 IfNode *iff = n->as_If(); | |
142 if( iff->_fcnt != COUNT_UNKNOWN && iff->_prob != PROB_UNKNOWN ) { | |
143 Node *exit = is_loop_exit(iff); | |
144 if( exit ) { | |
145 float exit_prob = iff->_prob; | |
146 if (exit->Opcode() == Op_IfFalse) exit_prob = 1.0 - exit_prob; | |
147 if (exit_prob > PROB_MIN) { | |
148 float exit_cnt = iff->_fcnt * exit_prob; | |
149 loop_exit_cnt += exit_cnt; | |
150 } | |
151 } | |
152 } | |
153 } | |
154 } | |
155 if (loop_exit_cnt > 0.0f) { | |
156 trip_cnt = (loop_back_cnt + loop_exit_cnt) / loop_exit_cnt; | |
157 } else { | |
158 // No exit count so use | |
159 trip_cnt = loop_back_cnt; | |
160 } | |
161 } | |
162 #ifndef PRODUCT | |
163 if (TraceProfileTripCount) { | |
164 tty->print_cr("compute_profile_trip_cnt lp: %d cnt: %f\n", head->_idx, trip_cnt); | |
165 } | |
166 #endif | |
167 head->set_profile_trip_cnt(trip_cnt); | |
168 } | |
169 | |
170 //---------------------is_invariant_addition----------------------------- | |
171 // Return nonzero index of invariant operand for an Add or Sub | |
605 | 172 // of (nonconstant) invariant and variant values. Helper for reassociate_invariants. |
0 | 173 int IdealLoopTree::is_invariant_addition(Node* n, PhaseIdealLoop *phase) { |
174 int op = n->Opcode(); | |
175 if (op == Op_AddI || op == Op_SubI) { | |
176 bool in1_invar = this->is_invariant(n->in(1)); | |
177 bool in2_invar = this->is_invariant(n->in(2)); | |
178 if (in1_invar && !in2_invar) return 1; | |
179 if (!in1_invar && in2_invar) return 2; | |
180 } | |
181 return 0; | |
182 } | |
183 | |
184 //---------------------reassociate_add_sub----------------------------- | |
185 // Reassociate invariant add and subtract expressions: | |
186 // | |
187 // inv1 + (x + inv2) => ( inv1 + inv2) + x | |
188 // (x + inv2) + inv1 => ( inv1 + inv2) + x | |
189 // inv1 + (x - inv2) => ( inv1 - inv2) + x | |
190 // inv1 - (inv2 - x) => ( inv1 - inv2) + x | |
191 // (x + inv2) - inv1 => (-inv1 + inv2) + x | |
192 // (x - inv2) + inv1 => ( inv1 - inv2) + x | |
193 // (x - inv2) - inv1 => (-inv1 - inv2) + x | |
194 // inv1 + (inv2 - x) => ( inv1 + inv2) - x | |
195 // inv1 - (x - inv2) => ( inv1 + inv2) - x | |
196 // (inv2 - x) + inv1 => ( inv1 + inv2) - x | |
197 // (inv2 - x) - inv1 => (-inv1 + inv2) - x | |
198 // inv1 - (x + inv2) => ( inv1 - inv2) - x | |
199 // | |
200 Node* IdealLoopTree::reassociate_add_sub(Node* n1, PhaseIdealLoop *phase) { | |
201 if (!n1->is_Add() && !n1->is_Sub() || n1->outcnt() == 0) return NULL; | |
202 if (is_invariant(n1)) return NULL; | |
203 int inv1_idx = is_invariant_addition(n1, phase); | |
204 if (!inv1_idx) return NULL; | |
205 // Don't mess with add of constant (igvn moves them to expression tree root.) | |
206 if (n1->is_Add() && n1->in(2)->is_Con()) return NULL; | |
207 Node* inv1 = n1->in(inv1_idx); | |
208 Node* n2 = n1->in(3 - inv1_idx); | |
209 int inv2_idx = is_invariant_addition(n2, phase); | |
210 if (!inv2_idx) return NULL; | |
211 Node* x = n2->in(3 - inv2_idx); | |
212 Node* inv2 = n2->in(inv2_idx); | |
213 | |
214 bool neg_x = n2->is_Sub() && inv2_idx == 1; | |
215 bool neg_inv2 = n2->is_Sub() && inv2_idx == 2; | |
216 bool neg_inv1 = n1->is_Sub() && inv1_idx == 2; | |
217 if (n1->is_Sub() && inv1_idx == 1) { | |
218 neg_x = !neg_x; | |
219 neg_inv2 = !neg_inv2; | |
220 } | |
221 Node* inv1_c = phase->get_ctrl(inv1); | |
222 Node* inv2_c = phase->get_ctrl(inv2); | |
223 Node* n_inv1; | |
224 if (neg_inv1) { | |
225 Node *zero = phase->_igvn.intcon(0); | |
226 phase->set_ctrl(zero, phase->C->root()); | |
227 n_inv1 = new (phase->C, 3) SubINode(zero, inv1); | |
228 phase->register_new_node(n_inv1, inv1_c); | |
229 } else { | |
230 n_inv1 = inv1; | |
231 } | |
232 Node* inv; | |
233 if (neg_inv2) { | |
234 inv = new (phase->C, 3) SubINode(n_inv1, inv2); | |
235 } else { | |
236 inv = new (phase->C, 3) AddINode(n_inv1, inv2); | |
237 } | |
238 phase->register_new_node(inv, phase->get_early_ctrl(inv)); | |
239 | |
240 Node* addx; | |
241 if (neg_x) { | |
242 addx = new (phase->C, 3) SubINode(inv, x); | |
243 } else { | |
244 addx = new (phase->C, 3) AddINode(x, inv); | |
245 } | |
246 phase->register_new_node(addx, phase->get_ctrl(x)); | |
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247 phase->_igvn.replace_node(n1, addx); |
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248 assert(phase->get_loop(phase->get_ctrl(n1)) == this, ""); |
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249 _body.yank(n1); |
0 | 250 return addx; |
251 } | |
252 | |
253 //---------------------reassociate_invariants----------------------------- | |
254 // Reassociate invariant expressions: | |
255 void IdealLoopTree::reassociate_invariants(PhaseIdealLoop *phase) { | |
256 for (int i = _body.size() - 1; i >= 0; i--) { | |
257 Node *n = _body.at(i); | |
258 for (int j = 0; j < 5; j++) { | |
259 Node* nn = reassociate_add_sub(n, phase); | |
260 if (nn == NULL) break; | |
261 n = nn; // again | |
262 }; | |
263 } | |
264 } | |
265 | |
266 //------------------------------policy_peeling--------------------------------- | |
267 // Return TRUE or FALSE if the loop should be peeled or not. Peel if we can | |
268 // make some loop-invariant test (usually a null-check) happen before the loop. | |
269 bool IdealLoopTree::policy_peeling( PhaseIdealLoop *phase ) const { | |
270 Node *test = ((IdealLoopTree*)this)->tail(); | |
271 int body_size = ((IdealLoopTree*)this)->_body.size(); | |
272 int uniq = phase->C->unique(); | |
273 // Peeling does loop cloning which can result in O(N^2) node construction | |
274 if( body_size > 255 /* Prevent overflow for large body_size */ | |
275 || (body_size * body_size + uniq > MaxNodeLimit) ) { | |
276 return false; // too large to safely clone | |
277 } | |
278 while( test != _head ) { // Scan till run off top of loop | |
279 if( test->is_If() ) { // Test? | |
280 Node *ctrl = phase->get_ctrl(test->in(1)); | |
281 if (ctrl->is_top()) | |
282 return false; // Found dead test on live IF? No peeling! | |
283 // Standard IF only has one input value to check for loop invariance | |
284 assert( test->Opcode() == Op_If || test->Opcode() == Op_CountedLoopEnd, "Check this code when new subtype is added"); | |
285 // Condition is not a member of this loop? | |
286 if( !is_member(phase->get_loop(ctrl)) && | |
287 is_loop_exit(test) ) | |
288 return true; // Found reason to peel! | |
289 } | |
290 // Walk up dominators to loop _head looking for test which is | |
291 // executed on every path thru loop. | |
292 test = phase->idom(test); | |
293 } | |
294 return false; | |
295 } | |
296 | |
297 //------------------------------peeled_dom_test_elim--------------------------- | |
298 // If we got the effect of peeling, either by actually peeling or by making | |
299 // a pre-loop which must execute at least once, we can remove all | |
300 // loop-invariant dominated tests in the main body. | |
301 void PhaseIdealLoop::peeled_dom_test_elim( IdealLoopTree *loop, Node_List &old_new ) { | |
302 bool progress = true; | |
303 while( progress ) { | |
304 progress = false; // Reset for next iteration | |
305 Node *prev = loop->_head->in(LoopNode::LoopBackControl);//loop->tail(); | |
306 Node *test = prev->in(0); | |
307 while( test != loop->_head ) { // Scan till run off top of loop | |
308 | |
309 int p_op = prev->Opcode(); | |
310 if( (p_op == Op_IfFalse || p_op == Op_IfTrue) && | |
311 test->is_If() && // Test? | |
312 !test->in(1)->is_Con() && // And not already obvious? | |
313 // Condition is not a member of this loop? | |
314 !loop->is_member(get_loop(get_ctrl(test->in(1))))){ | |
315 // Walk loop body looking for instances of this test | |
316 for( uint i = 0; i < loop->_body.size(); i++ ) { | |
317 Node *n = loop->_body.at(i); | |
318 if( n->is_If() && n->in(1) == test->in(1) /*&& n != loop->tail()->in(0)*/ ) { | |
319 // IfNode was dominated by version in peeled loop body | |
320 progress = true; | |
321 dominated_by( old_new[prev->_idx], n ); | |
322 } | |
323 } | |
324 } | |
325 prev = test; | |
326 test = idom(test); | |
327 } // End of scan tests in loop | |
328 | |
329 } // End of while( progress ) | |
330 } | |
331 | |
332 //------------------------------do_peeling------------------------------------- | |
333 // Peel the first iteration of the given loop. | |
334 // Step 1: Clone the loop body. The clone becomes the peeled iteration. | |
335 // The pre-loop illegally has 2 control users (old & new loops). | |
336 // Step 2: Make the old-loop fall-in edges point to the peeled iteration. | |
337 // Do this by making the old-loop fall-in edges act as if they came | |
338 // around the loopback from the prior iteration (follow the old-loop | |
339 // backedges) and then map to the new peeled iteration. This leaves | |
340 // the pre-loop with only 1 user (the new peeled iteration), but the | |
341 // peeled-loop backedge has 2 users. | |
342 // Step 3: Cut the backedge on the clone (so its not a loop) and remove the | |
343 // extra backedge user. | |
2445 | 344 // |
345 // orig | |
346 // | |
347 // stmt1 | |
348 // | | |
349 // v | |
350 // loop predicate | |
351 // | | |
352 // v | |
353 // loop<----+ | |
354 // | | | |
355 // stmt2 | | |
356 // | | | |
357 // v | | |
358 // if ^ | |
359 // / \ | | |
360 // / \ | | |
361 // v v | | |
362 // false true | | |
363 // / \ | | |
364 // / ----+ | |
365 // | | |
366 // v | |
367 // exit | |
368 // | |
369 // | |
370 // after clone loop | |
371 // | |
372 // stmt1 | |
373 // | | |
374 // v | |
375 // loop predicate | |
376 // / \ | |
377 // clone / \ orig | |
378 // / \ | |
379 // / \ | |
380 // v v | |
381 // +---->loop clone loop<----+ | |
382 // | | | | | |
383 // | stmt2 clone stmt2 | | |
384 // | | | | | |
385 // | v v | | |
386 // ^ if clone If ^ | |
387 // | / \ / \ | | |
388 // | / \ / \ | | |
389 // | v v v v | | |
390 // | true false false true | | |
391 // | / \ / \ | | |
392 // +---- \ / ----+ | |
393 // \ / | |
394 // 1v v2 | |
395 // region | |
396 // | | |
397 // v | |
398 // exit | |
399 // | |
400 // | |
401 // after peel and predicate move | |
402 // | |
403 // stmt1 | |
404 // / | |
405 // / | |
406 // clone / orig | |
407 // / | |
408 // / +----------+ | |
409 // / | | | |
410 // / loop predicate | | |
411 // / | | | |
412 // v v | | |
413 // TOP-->loop clone loop<----+ | | |
414 // | | | | | |
415 // stmt2 clone stmt2 | | | |
416 // | | | ^ | |
417 // v v | | | |
418 // if clone If ^ | | |
419 // / \ / \ | | | |
420 // / \ / \ | | | |
421 // v v v v | | | |
422 // true false false true | | | |
423 // | \ / \ | | | |
424 // | \ / ----+ ^ | |
425 // | \ / | | |
426 // | 1v v2 | | |
427 // v region | | |
428 // | | | | |
429 // | v | | |
430 // | exit | | |
431 // | | | |
432 // +--------------->-----------------+ | |
433 // | |
434 // | |
435 // final graph | |
436 // | |
437 // stmt1 | |
438 // | | |
439 // v | |
440 // stmt2 clone | |
441 // | | |
442 // v | |
443 // if clone | |
444 // / | | |
445 // / | | |
446 // v v | |
447 // false true | |
448 // | | | |
449 // | v | |
450 // | loop predicate | |
451 // | | | |
452 // | v | |
453 // | loop<----+ | |
454 // | | | | |
455 // | stmt2 | | |
456 // | | | | |
457 // | v | | |
458 // v if ^ | |
459 // | / \ | | |
460 // | / \ | | |
461 // | v v | | |
462 // | false true | | |
463 // | | \ | | |
464 // v v --+ | |
465 // region | |
466 // | | |
467 // v | |
468 // exit | |
469 // | |
0 | 470 void PhaseIdealLoop::do_peeling( IdealLoopTree *loop, Node_List &old_new ) { |
471 | |
472 C->set_major_progress(); | |
473 // Peeling a 'main' loop in a pre/main/post situation obfuscates the | |
474 // 'pre' loop from the main and the 'pre' can no longer have it's | |
475 // iterations adjusted. Therefore, we need to declare this loop as | |
476 // no longer a 'main' loop; it will need new pre and post loops before | |
477 // we can do further RCE. | |
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478 #ifndef PRODUCT |
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479 if (TraceLoopOpts) { |
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480 tty->print("Peel "); |
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481 loop->dump_head(); |
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482 } |
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483 #endif |
2445 | 484 Node* head = loop->_head; |
485 bool counted_loop = head->is_CountedLoop(); | |
486 if (counted_loop) { | |
487 CountedLoopNode *cl = head->as_CountedLoop(); | |
0 | 488 assert(cl->trip_count() > 0, "peeling a fully unrolled loop"); |
489 cl->set_trip_count(cl->trip_count() - 1); | |
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490 if (cl->is_main_loop()) { |
0 | 491 cl->set_normal_loop(); |
492 #ifndef PRODUCT | |
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493 if (PrintOpto && VerifyLoopOptimizations) { |
0 | 494 tty->print("Peeling a 'main' loop; resetting to 'normal' "); |
495 loop->dump_head(); | |
496 } | |
497 #endif | |
498 } | |
499 } | |
2445 | 500 Node* entry = head->in(LoopNode::EntryControl); |
0 | 501 |
502 // Step 1: Clone the loop body. The clone becomes the peeled iteration. | |
503 // The pre-loop illegally has 2 control users (old & new loops). | |
2445 | 504 clone_loop( loop, old_new, dom_depth(head) ); |
0 | 505 |
506 // Step 2: Make the old-loop fall-in edges point to the peeled iteration. | |
507 // Do this by making the old-loop fall-in edges act as if they came | |
508 // around the loopback from the prior iteration (follow the old-loop | |
509 // backedges) and then map to the new peeled iteration. This leaves | |
510 // the pre-loop with only 1 user (the new peeled iteration), but the | |
511 // peeled-loop backedge has 2 users. | |
2445 | 512 Node* new_exit_value = old_new[head->in(LoopNode::LoopBackControl)->_idx]; |
3345 | 513 new_exit_value = move_loop_predicates(entry, new_exit_value, !counted_loop); |
2445 | 514 _igvn.hash_delete(head); |
515 head->set_req(LoopNode::EntryControl, new_exit_value); | |
516 for (DUIterator_Fast jmax, j = head->fast_outs(jmax); j < jmax; j++) { | |
517 Node* old = head->fast_out(j); | |
518 if (old->in(0) == loop->_head && old->req() == 3 && old->is_Phi()) { | |
519 new_exit_value = old_new[old->in(LoopNode::LoopBackControl)->_idx]; | |
520 if (!new_exit_value ) // Backedge value is ALSO loop invariant? | |
0 | 521 // Then loop body backedge value remains the same. |
522 new_exit_value = old->in(LoopNode::LoopBackControl); | |
523 _igvn.hash_delete(old); | |
524 old->set_req(LoopNode::EntryControl, new_exit_value); | |
525 } | |
526 } | |
527 | |
528 | |
529 // Step 3: Cut the backedge on the clone (so its not a loop) and remove the | |
530 // extra backedge user. | |
2445 | 531 Node* new_head = old_new[head->_idx]; |
532 _igvn.hash_delete(new_head); | |
533 new_head->set_req(LoopNode::LoopBackControl, C->top()); | |
534 for (DUIterator_Fast j2max, j2 = new_head->fast_outs(j2max); j2 < j2max; j2++) { | |
535 Node* use = new_head->fast_out(j2); | |
536 if (use->in(0) == new_head && use->req() == 3 && use->is_Phi()) { | |
0 | 537 _igvn.hash_delete(use); |
538 use->set_req(LoopNode::LoopBackControl, C->top()); | |
539 } | |
540 } | |
541 | |
542 | |
543 // Step 4: Correct dom-depth info. Set to loop-head depth. | |
2445 | 544 int dd = dom_depth(head); |
545 set_idom(head, head->in(1), dd); | |
0 | 546 for (uint j3 = 0; j3 < loop->_body.size(); j3++) { |
547 Node *old = loop->_body.at(j3); | |
548 Node *nnn = old_new[old->_idx]; | |
549 if (!has_ctrl(nnn)) | |
550 set_idom(nnn, idom(nnn), dd-1); | |
551 // While we're at it, remove any SafePoints from the peeled code | |
2445 | 552 if (old->Opcode() == Op_SafePoint) { |
0 | 553 Node *nnn = old_new[old->_idx]; |
554 lazy_replace(nnn,nnn->in(TypeFunc::Control)); | |
555 } | |
556 } | |
557 | |
558 // Now force out all loop-invariant dominating tests. The optimizer | |
559 // finds some, but we _know_ they are all useless. | |
560 peeled_dom_test_elim(loop,old_new); | |
561 | |
562 loop->record_for_igvn(); | |
563 } | |
564 | |
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565 #define EMPTY_LOOP_SIZE 7 // number of nodes in an empty loop |
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566 |
0 | 567 //------------------------------policy_maximally_unroll------------------------ |
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568 // Calculate exact loop trip count and return true if loop can be maximally |
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569 // unrolled. |
0 | 570 bool IdealLoopTree::policy_maximally_unroll( PhaseIdealLoop *phase ) const { |
571 CountedLoopNode *cl = _head->as_CountedLoop(); | |
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572 assert(cl->is_normal_loop(), ""); |
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573 if (!cl->is_valid_counted_loop()) |
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574 return false; // Malformed counted loop |
0 | 575 |
2465 | 576 if (!cl->has_exact_trip_count()) { |
577 // Trip count is not exact. | |
0 | 578 return false; |
579 } | |
580 | |
2465 | 581 uint trip_count = cl->trip_count(); |
582 // Note, max_juint is used to indicate unknown trip count. | |
583 assert(trip_count > 1, "one iteration loop should be optimized out already"); | |
584 assert(trip_count < max_juint, "exact trip_count should be less than max_uint."); | |
0 | 585 |
586 // Real policy: if we maximally unroll, does it get too big? | |
587 // Allow the unrolled mess to get larger than standard loop | |
588 // size. After all, it will no longer be a loop. | |
589 uint body_size = _body.size(); | |
590 uint unroll_limit = (uint)LoopUnrollLimit * 4; | |
591 assert( (intx)unroll_limit == LoopUnrollLimit * 4, "LoopUnrollLimit must fit in 32bits"); | |
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592 if (trip_count > unroll_limit || body_size > unroll_limit) { |
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593 return false; |
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594 } |
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595 |
3345 | 596 // Fully unroll a loop with few iterations regardless next |
597 // conditions since following loop optimizations will split | |
598 // such loop anyway (pre-main-post). | |
599 if (trip_count <= 3) | |
600 return true; | |
601 | |
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602 // Take into account that after unroll conjoined heads and tails will fold, |
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603 // otherwise policy_unroll() may allow more unrolling than max unrolling. |
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604 uint new_body_size = EMPTY_LOOP_SIZE + (body_size - EMPTY_LOOP_SIZE) * trip_count; |
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605 uint tst_body_size = (new_body_size - EMPTY_LOOP_SIZE) / trip_count + EMPTY_LOOP_SIZE; |
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606 if (body_size != tst_body_size) // Check for int overflow |
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607 return false; |
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608 if (new_body_size > unroll_limit || |
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609 // Unrolling can result in a large amount of node construction |
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610 new_body_size >= MaxNodeLimit - phase->C->unique()) { |
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611 return false; |
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612 } |
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613 |
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614 // Do not unroll a loop with String intrinsics code. |
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615 // String intrinsics are large and have loops. |
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616 for (uint k = 0; k < _body.size(); k++) { |
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617 Node* n = _body.at(k); |
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618 switch (n->Opcode()) { |
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619 case Op_StrComp: |
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620 case Op_StrEquals: |
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621 case Op_StrIndexOf: |
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622 case Op_AryEq: { |
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623 return false; |
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624 } |
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625 } // switch |
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626 } |
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627 |
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628 return true; // Do maximally unroll |
0 | 629 } |
630 | |
631 | |
3333 | 632 #define MAX_UNROLL 16 // maximum number of unrolls for main loop |
633 | |
0 | 634 //------------------------------policy_unroll---------------------------------- |
635 // Return TRUE or FALSE if the loop should be unrolled or not. Unroll if | |
636 // the loop is a CountedLoop and the body is small enough. | |
637 bool IdealLoopTree::policy_unroll( PhaseIdealLoop *phase ) const { | |
638 | |
639 CountedLoopNode *cl = _head->as_CountedLoop(); | |
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640 assert(cl->is_normal_loop() || cl->is_main_loop(), ""); |
0 | 641 |
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642 if (!cl->is_valid_counted_loop()) |
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643 return false; // Malformed counted loop |
0 | 644 |
3345 | 645 // Protect against over-unrolling. |
646 // After split at least one iteration will be executed in pre-loop. | |
647 if (cl->trip_count() <= (uint)(cl->is_normal_loop() ? 2 : 1)) return false; | |
0 | 648 |
3333 | 649 int future_unroll_ct = cl->unrolled_count() * 2; |
650 if (future_unroll_ct > MAX_UNROLL) return false; | |
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651 |
3333 | 652 // Check for initial stride being a small enough constant |
653 if (abs(cl->stride_con()) > (1<<2)*future_unroll_ct) return false; | |
0 | 654 |
655 // Don't unroll if the next round of unrolling would push us | |
656 // over the expected trip count of the loop. One is subtracted | |
657 // from the expected trip count because the pre-loop normally | |
658 // executes 1 iteration. | |
659 if (UnrollLimitForProfileCheck > 0 && | |
660 cl->profile_trip_cnt() != COUNT_UNKNOWN && | |
661 future_unroll_ct > UnrollLimitForProfileCheck && | |
662 (float)future_unroll_ct > cl->profile_trip_cnt() - 1.0) { | |
663 return false; | |
664 } | |
665 | |
666 // When unroll count is greater than LoopUnrollMin, don't unroll if: | |
667 // the residual iterations are more than 10% of the trip count | |
668 // and rounds of "unroll,optimize" are not making significant progress | |
669 // Progress defined as current size less than 20% larger than previous size. | |
670 if (UseSuperWord && cl->node_count_before_unroll() > 0 && | |
671 future_unroll_ct > LoopUnrollMin && | |
672 (future_unroll_ct - 1) * 10.0 > cl->profile_trip_cnt() && | |
673 1.2 * cl->node_count_before_unroll() < (double)_body.size()) { | |
674 return false; | |
675 } | |
676 | |
677 Node *init_n = cl->init_trip(); | |
678 Node *limit_n = cl->limit(); | |
3345 | 679 int stride_con = cl->stride_con(); |
0 | 680 // Non-constant bounds. |
681 // Protect against over-unrolling when init or/and limit are not constant | |
682 // (so that trip_count's init value is maxint) but iv range is known. | |
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683 if (init_n == NULL || !init_n->is_Con() || |
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684 limit_n == NULL || !limit_n->is_Con()) { |
0 | 685 Node* phi = cl->phi(); |
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686 if (phi != NULL) { |
0 | 687 assert(phi->is_Phi() && phi->in(0) == _head, "Counted loop should have iv phi."); |
688 const TypeInt* iv_type = phase->_igvn.type(phi)->is_int(); | |
3345 | 689 int next_stride = stride_con * 2; // stride after this unroll |
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690 if (next_stride > 0) { |
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691 if (iv_type->_lo + next_stride <= iv_type->_lo || // overflow |
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692 iv_type->_lo + next_stride > iv_type->_hi) { |
0 | 693 return false; // over-unrolling |
694 } | |
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695 } else if (next_stride < 0) { |
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696 if (iv_type->_hi + next_stride >= iv_type->_hi || // overflow |
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697 iv_type->_hi + next_stride < iv_type->_lo) { |
0 | 698 return false; // over-unrolling |
699 } | |
700 } | |
701 } | |
702 } | |
703 | |
3345 | 704 // After unroll limit will be adjusted: new_limit = limit-stride. |
705 // Bailout if adjustment overflow. | |
706 const TypeInt* limit_type = phase->_igvn.type(limit_n)->is_int(); | |
707 if (stride_con > 0 && ((limit_type->_hi - stride_con) >= limit_type->_hi) || | |
708 stride_con < 0 && ((limit_type->_lo - stride_con) <= limit_type->_lo)) | |
709 return false; // overflow | |
710 | |
0 | 711 // Adjust body_size to determine if we unroll or not |
712 uint body_size = _body.size(); | |
713 // Also count ModL, DivL and MulL which expand mightly | |
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714 for (uint k = 0; k < _body.size(); k++) { |
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715 Node* n = _body.at(k); |
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716 switch (n->Opcode()) { |
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717 case Op_ModL: body_size += 30; break; |
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718 case Op_DivL: body_size += 30; break; |
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719 case Op_MulL: body_size += 10; break; |
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720 case Op_StrComp: |
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721 case Op_StrEquals: |
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722 case Op_StrIndexOf: |
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723 case Op_AryEq: { |
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724 // Do not unroll a loop with String intrinsics code. |
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725 // String intrinsics are large and have loops. |
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726 return false; |
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727 } |
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728 } // switch |
0 | 729 } |
730 | |
731 // Check for being too big | |
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732 if (body_size > (uint)LoopUnrollLimit) { |
3345 | 733 // Normal case: loop too big |
0 | 734 return false; |
735 } | |
736 | |
737 // Unroll once! (Each trip will soon do double iterations) | |
738 return true; | |
739 } | |
740 | |
741 //------------------------------policy_align----------------------------------- | |
742 // Return TRUE or FALSE if the loop should be cache-line aligned. Gather the | |
743 // expression that does the alignment. Note that only one array base can be | |
605 | 744 // aligned in a loop (unless the VM guarantees mutual alignment). Note that |
0 | 745 // if we vectorize short memory ops into longer memory ops, we may want to |
746 // increase alignment. | |
747 bool IdealLoopTree::policy_align( PhaseIdealLoop *phase ) const { | |
748 return false; | |
749 } | |
750 | |
751 //------------------------------policy_range_check----------------------------- | |
752 // Return TRUE or FALSE if the loop should be range-check-eliminated. | |
753 // Actually we do iteration-splitting, a more powerful form of RCE. | |
754 bool IdealLoopTree::policy_range_check( PhaseIdealLoop *phase ) const { | |
3345 | 755 if (!RangeCheckElimination) return false; |
0 | 756 |
757 CountedLoopNode *cl = _head->as_CountedLoop(); | |
758 // If we unrolled with no intention of doing RCE and we later | |
759 // changed our minds, we got no pre-loop. Either we need to | |
760 // make a new pre-loop, or we gotta disallow RCE. | |
3345 | 761 if (cl->is_main_no_pre_loop()) return false; // Disallowed for now. |
0 | 762 Node *trip_counter = cl->phi(); |
763 | |
764 // Check loop body for tests of trip-counter plus loop-invariant vs | |
765 // loop-invariant. | |
3345 | 766 for (uint i = 0; i < _body.size(); i++) { |
0 | 767 Node *iff = _body[i]; |
3345 | 768 if (iff->Opcode() == Op_If) { // Test? |
0 | 769 |
770 // Comparing trip+off vs limit | |
771 Node *bol = iff->in(1); | |
3345 | 772 if (bol->req() != 2) continue; // dead constant test |
1172 | 773 if (!bol->is_Bool()) { |
774 assert(UseLoopPredicate && bol->Opcode() == Op_Conv2B, "predicate check only"); | |
775 continue; | |
776 } | |
3345 | 777 if (bol->as_Bool()->_test._test == BoolTest::ne) |
778 continue; // not RC | |
779 | |
0 | 780 Node *cmp = bol->in(1); |
781 | |
782 Node *rc_exp = cmp->in(1); | |
783 Node *limit = cmp->in(2); | |
784 | |
785 Node *limit_c = phase->get_ctrl(limit); | |
786 if( limit_c == phase->C->top() ) | |
787 return false; // Found dead test on live IF? No RCE! | |
788 if( is_member(phase->get_loop(limit_c) ) ) { | |
789 // Compare might have operands swapped; commute them | |
790 rc_exp = cmp->in(2); | |
791 limit = cmp->in(1); | |
792 limit_c = phase->get_ctrl(limit); | |
793 if( is_member(phase->get_loop(limit_c) ) ) | |
794 continue; // Both inputs are loop varying; cannot RCE | |
795 } | |
796 | |
797 if (!phase->is_scaled_iv_plus_offset(rc_exp, trip_counter, NULL, NULL)) { | |
798 continue; | |
799 } | |
800 // Yeah! Found a test like 'trip+off vs limit' | |
801 // Test is an IfNode, has 2 projections. If BOTH are in the loop | |
802 // we need loop unswitching instead of iteration splitting. | |
803 if( is_loop_exit(iff) ) | |
804 return true; // Found reason to split iterations | |
805 } // End of is IF | |
806 } | |
807 | |
808 return false; | |
809 } | |
810 | |
811 //------------------------------policy_peel_only------------------------------- | |
812 // Return TRUE or FALSE if the loop should NEVER be RCE'd or aligned. Useful | |
813 // for unrolling loops with NO array accesses. | |
814 bool IdealLoopTree::policy_peel_only( PhaseIdealLoop *phase ) const { | |
815 | |
816 for( uint i = 0; i < _body.size(); i++ ) | |
817 if( _body[i]->is_Mem() ) | |
818 return false; | |
819 | |
820 // No memory accesses at all! | |
821 return true; | |
822 } | |
823 | |
824 //------------------------------clone_up_backedge_goo-------------------------- | |
825 // If Node n lives in the back_ctrl block and cannot float, we clone a private | |
826 // version of n in preheader_ctrl block and return that, otherwise return n. | |
827 Node *PhaseIdealLoop::clone_up_backedge_goo( Node *back_ctrl, Node *preheader_ctrl, Node *n ) { | |
828 if( get_ctrl(n) != back_ctrl ) return n; | |
829 | |
830 Node *x = NULL; // If required, a clone of 'n' | |
831 // Check for 'n' being pinned in the backedge. | |
832 if( n->in(0) && n->in(0) == back_ctrl ) { | |
833 x = n->clone(); // Clone a copy of 'n' to preheader | |
834 x->set_req( 0, preheader_ctrl ); // Fix x's control input to preheader | |
835 } | |
836 | |
837 // Recursive fixup any other input edges into x. | |
838 // If there are no changes we can just return 'n', otherwise | |
839 // we need to clone a private copy and change it. | |
840 for( uint i = 1; i < n->req(); i++ ) { | |
841 Node *g = clone_up_backedge_goo( back_ctrl, preheader_ctrl, n->in(i) ); | |
842 if( g != n->in(i) ) { | |
843 if( !x ) | |
844 x = n->clone(); | |
845 x->set_req(i, g); | |
846 } | |
847 } | |
848 if( x ) { // x can legally float to pre-header location | |
849 register_new_node( x, preheader_ctrl ); | |
850 return x; | |
851 } else { // raise n to cover LCA of uses | |
852 set_ctrl( n, find_non_split_ctrl(back_ctrl->in(0)) ); | |
853 } | |
854 return n; | |
855 } | |
856 | |
857 //------------------------------insert_pre_post_loops-------------------------- | |
858 // Insert pre and post loops. If peel_only is set, the pre-loop can not have | |
859 // more iterations added. It acts as a 'peel' only, no lower-bound RCE, no | |
860 // alignment. Useful to unroll loops that do no array accesses. | |
861 void PhaseIdealLoop::insert_pre_post_loops( IdealLoopTree *loop, Node_List &old_new, bool peel_only ) { | |
862 | |
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863 #ifndef PRODUCT |
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864 if (TraceLoopOpts) { |
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865 if (peel_only) |
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866 tty->print("PeelMainPost "); |
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867 else |
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868 tty->print("PreMainPost "); |
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869 loop->dump_head(); |
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870 } |
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871 #endif |
0 | 872 C->set_major_progress(); |
873 | |
874 // Find common pieces of the loop being guarded with pre & post loops | |
875 CountedLoopNode *main_head = loop->_head->as_CountedLoop(); | |
876 assert( main_head->is_normal_loop(), "" ); | |
877 CountedLoopEndNode *main_end = main_head->loopexit(); | |
878 assert( main_end->outcnt() == 2, "1 true, 1 false path only" ); | |
879 uint dd_main_head = dom_depth(main_head); | |
880 uint max = main_head->outcnt(); | |
881 | |
882 Node *pre_header= main_head->in(LoopNode::EntryControl); | |
883 Node *init = main_head->init_trip(); | |
884 Node *incr = main_end ->incr(); | |
885 Node *limit = main_end ->limit(); | |
886 Node *stride = main_end ->stride(); | |
887 Node *cmp = main_end ->cmp_node(); | |
888 BoolTest::mask b_test = main_end->test_trip(); | |
889 | |
890 // Need only 1 user of 'bol' because I will be hacking the loop bounds. | |
891 Node *bol = main_end->in(CountedLoopEndNode::TestValue); | |
892 if( bol->outcnt() != 1 ) { | |
893 bol = bol->clone(); | |
894 register_new_node(bol,main_end->in(CountedLoopEndNode::TestControl)); | |
895 _igvn.hash_delete(main_end); | |
896 main_end->set_req(CountedLoopEndNode::TestValue, bol); | |
897 } | |
898 // Need only 1 user of 'cmp' because I will be hacking the loop bounds. | |
899 if( cmp->outcnt() != 1 ) { | |
900 cmp = cmp->clone(); | |
901 register_new_node(cmp,main_end->in(CountedLoopEndNode::TestControl)); | |
902 _igvn.hash_delete(bol); | |
903 bol->set_req(1, cmp); | |
904 } | |
905 | |
906 //------------------------------ | |
907 // Step A: Create Post-Loop. | |
908 Node* main_exit = main_end->proj_out(false); | |
909 assert( main_exit->Opcode() == Op_IfFalse, "" ); | |
910 int dd_main_exit = dom_depth(main_exit); | |
911 | |
912 // Step A1: Clone the loop body. The clone becomes the post-loop. The main | |
913 // loop pre-header illegally has 2 control users (old & new loops). | |
914 clone_loop( loop, old_new, dd_main_exit ); | |
915 assert( old_new[main_end ->_idx]->Opcode() == Op_CountedLoopEnd, "" ); | |
916 CountedLoopNode *post_head = old_new[main_head->_idx]->as_CountedLoop(); | |
917 post_head->set_post_loop(main_head); | |
918 | |
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919 // Reduce the post-loop trip count. |
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920 CountedLoopEndNode* post_end = old_new[main_end ->_idx]->as_CountedLoopEnd(); |
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921 post_end->_prob = PROB_FAIR; |
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922 |
0 | 923 // Build the main-loop normal exit. |
924 IfFalseNode *new_main_exit = new (C, 1) IfFalseNode(main_end); | |
925 _igvn.register_new_node_with_optimizer( new_main_exit ); | |
926 set_idom(new_main_exit, main_end, dd_main_exit ); | |
927 set_loop(new_main_exit, loop->_parent); | |
928 | |
929 // Step A2: Build a zero-trip guard for the post-loop. After leaving the | |
930 // main-loop, the post-loop may not execute at all. We 'opaque' the incr | |
931 // (the main-loop trip-counter exit value) because we will be changing | |
932 // the exit value (via unrolling) so we cannot constant-fold away the zero | |
933 // trip guard until all unrolling is done. | |
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934 Node *zer_opaq = new (C, 2) Opaque1Node(C, incr); |
0 | 935 Node *zer_cmp = new (C, 3) CmpINode( zer_opaq, limit ); |
936 Node *zer_bol = new (C, 2) BoolNode( zer_cmp, b_test ); | |
937 register_new_node( zer_opaq, new_main_exit ); | |
938 register_new_node( zer_cmp , new_main_exit ); | |
939 register_new_node( zer_bol , new_main_exit ); | |
940 | |
941 // Build the IfNode | |
942 IfNode *zer_iff = new (C, 2) IfNode( new_main_exit, zer_bol, PROB_FAIR, COUNT_UNKNOWN ); | |
943 _igvn.register_new_node_with_optimizer( zer_iff ); | |
944 set_idom(zer_iff, new_main_exit, dd_main_exit); | |
945 set_loop(zer_iff, loop->_parent); | |
946 | |
947 // Plug in the false-path, taken if we need to skip post-loop | |
948 _igvn.hash_delete( main_exit ); | |
949 main_exit->set_req(0, zer_iff); | |
950 _igvn._worklist.push(main_exit); | |
951 set_idom(main_exit, zer_iff, dd_main_exit); | |
952 set_idom(main_exit->unique_out(), zer_iff, dd_main_exit); | |
953 // Make the true-path, must enter the post loop | |
954 Node *zer_taken = new (C, 1) IfTrueNode( zer_iff ); | |
955 _igvn.register_new_node_with_optimizer( zer_taken ); | |
956 set_idom(zer_taken, zer_iff, dd_main_exit); | |
957 set_loop(zer_taken, loop->_parent); | |
958 // Plug in the true path | |
959 _igvn.hash_delete( post_head ); | |
960 post_head->set_req(LoopNode::EntryControl, zer_taken); | |
961 set_idom(post_head, zer_taken, dd_main_exit); | |
962 | |
963 // Step A3: Make the fall-in values to the post-loop come from the | |
964 // fall-out values of the main-loop. | |
965 for (DUIterator_Fast imax, i = main_head->fast_outs(imax); i < imax; i++) { | |
966 Node* main_phi = main_head->fast_out(i); | |
967 if( main_phi->is_Phi() && main_phi->in(0) == main_head && main_phi->outcnt() >0 ) { | |
968 Node *post_phi = old_new[main_phi->_idx]; | |
969 Node *fallmain = clone_up_backedge_goo(main_head->back_control(), | |
970 post_head->init_control(), | |
971 main_phi->in(LoopNode::LoopBackControl)); | |
972 _igvn.hash_delete(post_phi); | |
973 post_phi->set_req( LoopNode::EntryControl, fallmain ); | |
974 } | |
975 } | |
976 | |
977 // Update local caches for next stanza | |
978 main_exit = new_main_exit; | |
979 | |
980 | |
981 //------------------------------ | |
982 // Step B: Create Pre-Loop. | |
983 | |
984 // Step B1: Clone the loop body. The clone becomes the pre-loop. The main | |
985 // loop pre-header illegally has 2 control users (old & new loops). | |
986 clone_loop( loop, old_new, dd_main_head ); | |
987 CountedLoopNode* pre_head = old_new[main_head->_idx]->as_CountedLoop(); | |
988 CountedLoopEndNode* pre_end = old_new[main_end ->_idx]->as_CountedLoopEnd(); | |
989 pre_head->set_pre_loop(main_head); | |
990 Node *pre_incr = old_new[incr->_idx]; | |
991 | |
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992 // Reduce the pre-loop trip count. |
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993 pre_end->_prob = PROB_FAIR; |
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994 |
0 | 995 // Find the pre-loop normal exit. |
996 Node* pre_exit = pre_end->proj_out(false); | |
997 assert( pre_exit->Opcode() == Op_IfFalse, "" ); | |
998 IfFalseNode *new_pre_exit = new (C, 1) IfFalseNode(pre_end); | |
999 _igvn.register_new_node_with_optimizer( new_pre_exit ); | |
1000 set_idom(new_pre_exit, pre_end, dd_main_head); | |
1001 set_loop(new_pre_exit, loop->_parent); | |
1002 | |
1003 // Step B2: Build a zero-trip guard for the main-loop. After leaving the | |
1004 // pre-loop, the main-loop may not execute at all. Later in life this | |
1005 // zero-trip guard will become the minimum-trip guard when we unroll | |
1006 // the main-loop. | |
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1007 Node *min_opaq = new (C, 2) Opaque1Node(C, limit); |
0 | 1008 Node *min_cmp = new (C, 3) CmpINode( pre_incr, min_opaq ); |
1009 Node *min_bol = new (C, 2) BoolNode( min_cmp, b_test ); | |
1010 register_new_node( min_opaq, new_pre_exit ); | |
1011 register_new_node( min_cmp , new_pre_exit ); | |
1012 register_new_node( min_bol , new_pre_exit ); | |
1013 | |
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1014 // Build the IfNode (assume the main-loop is executed always). |
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1015 IfNode *min_iff = new (C, 2) IfNode( new_pre_exit, min_bol, PROB_ALWAYS, COUNT_UNKNOWN ); |
0 | 1016 _igvn.register_new_node_with_optimizer( min_iff ); |
1017 set_idom(min_iff, new_pre_exit, dd_main_head); | |
1018 set_loop(min_iff, loop->_parent); | |
1019 | |
1020 // Plug in the false-path, taken if we need to skip main-loop | |
1021 _igvn.hash_delete( pre_exit ); | |
1022 pre_exit->set_req(0, min_iff); | |
1023 set_idom(pre_exit, min_iff, dd_main_head); | |
1024 set_idom(pre_exit->unique_out(), min_iff, dd_main_head); | |
1025 // Make the true-path, must enter the main loop | |
1026 Node *min_taken = new (C, 1) IfTrueNode( min_iff ); | |
1027 _igvn.register_new_node_with_optimizer( min_taken ); | |
1028 set_idom(min_taken, min_iff, dd_main_head); | |
1029 set_loop(min_taken, loop->_parent); | |
1030 // Plug in the true path | |
1031 _igvn.hash_delete( main_head ); | |
1032 main_head->set_req(LoopNode::EntryControl, min_taken); | |
1033 set_idom(main_head, min_taken, dd_main_head); | |
1034 | |
1035 // Step B3: Make the fall-in values to the main-loop come from the | |
1036 // fall-out values of the pre-loop. | |
1037 for (DUIterator_Fast i2max, i2 = main_head->fast_outs(i2max); i2 < i2max; i2++) { | |
1038 Node* main_phi = main_head->fast_out(i2); | |
1039 if( main_phi->is_Phi() && main_phi->in(0) == main_head && main_phi->outcnt() > 0 ) { | |
1040 Node *pre_phi = old_new[main_phi->_idx]; | |
1041 Node *fallpre = clone_up_backedge_goo(pre_head->back_control(), | |
1042 main_head->init_control(), | |
1043 pre_phi->in(LoopNode::LoopBackControl)); | |
1044 _igvn.hash_delete(main_phi); | |
1045 main_phi->set_req( LoopNode::EntryControl, fallpre ); | |
1046 } | |
1047 } | |
1048 | |
1049 // Step B4: Shorten the pre-loop to run only 1 iteration (for now). | |
1050 // RCE and alignment may change this later. | |
1051 Node *cmp_end = pre_end->cmp_node(); | |
1052 assert( cmp_end->in(2) == limit, "" ); | |
1053 Node *pre_limit = new (C, 3) AddINode( init, stride ); | |
1054 | |
1055 // Save the original loop limit in this Opaque1 node for | |
1056 // use by range check elimination. | |
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1057 Node *pre_opaq = new (C, 3) Opaque1Node(C, pre_limit, limit); |
0 | 1058 |
1059 register_new_node( pre_limit, pre_head->in(0) ); | |
1060 register_new_node( pre_opaq , pre_head->in(0) ); | |
1061 | |
1062 // Since no other users of pre-loop compare, I can hack limit directly | |
1063 assert( cmp_end->outcnt() == 1, "no other users" ); | |
1064 _igvn.hash_delete(cmp_end); | |
1065 cmp_end->set_req(2, peel_only ? pre_limit : pre_opaq); | |
1066 | |
1067 // Special case for not-equal loop bounds: | |
1068 // Change pre loop test, main loop test, and the | |
1069 // main loop guard test to use lt or gt depending on stride | |
1070 // direction: | |
1071 // positive stride use < | |
1072 // negative stride use > | |
3456 | 1073 // |
1074 // not-equal test is kept for post loop to handle case | |
1075 // when init > limit when stride > 0 (and reverse). | |
0 | 1076 |
1077 if (pre_end->in(CountedLoopEndNode::TestValue)->as_Bool()->_test._test == BoolTest::ne) { | |
1078 | |
1079 BoolTest::mask new_test = (main_end->stride_con() > 0) ? BoolTest::lt : BoolTest::gt; | |
1080 // Modify pre loop end condition | |
1081 Node* pre_bol = pre_end->in(CountedLoopEndNode::TestValue)->as_Bool(); | |
1082 BoolNode* new_bol0 = new (C, 2) BoolNode(pre_bol->in(1), new_test); | |
1083 register_new_node( new_bol0, pre_head->in(0) ); | |
1084 _igvn.hash_delete(pre_end); | |
1085 pre_end->set_req(CountedLoopEndNode::TestValue, new_bol0); | |
1086 // Modify main loop guard condition | |
1087 assert(min_iff->in(CountedLoopEndNode::TestValue) == min_bol, "guard okay"); | |
1088 BoolNode* new_bol1 = new (C, 2) BoolNode(min_bol->in(1), new_test); | |
1089 register_new_node( new_bol1, new_pre_exit ); | |
1090 _igvn.hash_delete(min_iff); | |
1091 min_iff->set_req(CountedLoopEndNode::TestValue, new_bol1); | |
1092 // Modify main loop end condition | |
1093 BoolNode* main_bol = main_end->in(CountedLoopEndNode::TestValue)->as_Bool(); | |
1094 BoolNode* new_bol2 = new (C, 2) BoolNode(main_bol->in(1), new_test); | |
1095 register_new_node( new_bol2, main_end->in(CountedLoopEndNode::TestControl) ); | |
1096 _igvn.hash_delete(main_end); | |
1097 main_end->set_req(CountedLoopEndNode::TestValue, new_bol2); | |
1098 } | |
1099 | |
1100 // Flag main loop | |
1101 main_head->set_main_loop(); | |
1102 if( peel_only ) main_head->set_main_no_pre_loop(); | |
1103 | |
3345 | 1104 // Subtract a trip count for the pre-loop. |
1105 main_head->set_trip_count(main_head->trip_count() - 1); | |
1106 | |
0 | 1107 // It's difficult to be precise about the trip-counts |
1108 // for the pre/post loops. They are usually very short, | |
1109 // so guess that 4 trips is a reasonable value. | |
1110 post_head->set_profile_trip_cnt(4.0); | |
1111 pre_head->set_profile_trip_cnt(4.0); | |
1112 | |
1113 // Now force out all loop-invariant dominating tests. The optimizer | |
1114 // finds some, but we _know_ they are all useless. | |
1115 peeled_dom_test_elim(loop,old_new); | |
1116 } | |
1117 | |
1118 //------------------------------is_invariant----------------------------- | |
1119 // Return true if n is invariant | |
1120 bool IdealLoopTree::is_invariant(Node* n) const { | |
1172 | 1121 Node *n_c = _phase->has_ctrl(n) ? _phase->get_ctrl(n) : n; |
0 | 1122 if (n_c->is_top()) return false; |
1123 return !is_member(_phase->get_loop(n_c)); | |
1124 } | |
1125 | |
1126 | |
1127 //------------------------------do_unroll-------------------------------------- | |
1128 // Unroll the loop body one step - make each trip do 2 iterations. | |
1129 void PhaseIdealLoop::do_unroll( IdealLoopTree *loop, Node_List &old_new, bool adjust_min_trip ) { | |
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1130 assert(LoopUnrollLimit, ""); |
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1131 CountedLoopNode *loop_head = loop->_head->as_CountedLoop(); |
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1132 CountedLoopEndNode *loop_end = loop_head->loopexit(); |
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1133 assert(loop_end, ""); |
0 | 1134 #ifndef PRODUCT |
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1135 if (PrintOpto && VerifyLoopOptimizations) { |
0 | 1136 tty->print("Unrolling "); |
1137 loop->dump_head(); | |
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1138 } else if (TraceLoopOpts) { |
2465 | 1139 if (loop_head->trip_count() < (uint)LoopUnrollLimit) { |
3345 | 1140 tty->print("Unroll %d(%2d) ", loop_head->unrolled_count()*2, loop_head->trip_count()); |
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1141 } else { |
3345 | 1142 tty->print("Unroll %d ", loop_head->unrolled_count()*2); |
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1143 } |
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1144 loop->dump_head(); |
0 | 1145 } |
1146 #endif | |
1147 | |
1148 // Remember loop node count before unrolling to detect | |
1149 // if rounds of unroll,optimize are making progress | |
1150 loop_head->set_node_count_before_unroll(loop->_body.size()); | |
1151 | |
1152 Node *ctrl = loop_head->in(LoopNode::EntryControl); | |
1153 Node *limit = loop_head->limit(); | |
1154 Node *init = loop_head->init_trip(); | |
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1155 Node *stride = loop_head->stride(); |
0 | 1156 |
1157 Node *opaq = NULL; | |
3345 | 1158 if (adjust_min_trip) { // If not maximally unrolling, need adjustment |
1159 // Search for zero-trip guard. | |
0 | 1160 assert( loop_head->is_main_loop(), "" ); |
1161 assert( ctrl->Opcode() == Op_IfTrue || ctrl->Opcode() == Op_IfFalse, "" ); | |
1162 Node *iff = ctrl->in(0); | |
1163 assert( iff->Opcode() == Op_If, "" ); | |
1164 Node *bol = iff->in(1); | |
1165 assert( bol->Opcode() == Op_Bool, "" ); | |
1166 Node *cmp = bol->in(1); | |
1167 assert( cmp->Opcode() == Op_CmpI, "" ); | |
1168 opaq = cmp->in(2); | |
3345 | 1169 // Occasionally it's possible for a zero-trip guard Opaque1 node to be |
0 | 1170 // optimized away and then another round of loop opts attempted. |
1171 // We can not optimize this particular loop in that case. | |
3345 | 1172 if (opaq->Opcode() != Op_Opaque1) |
1173 return; // Cannot find zero-trip guard! Bail out! | |
1174 // Zero-trip test uses an 'opaque' node which is not shared. | |
1175 assert(opaq->outcnt() == 1 && opaq->in(1) == limit, ""); | |
0 | 1176 } |
1177 | |
1178 C->set_major_progress(); | |
1179 | |
3345 | 1180 Node* new_limit = NULL; |
1181 if (UnrollLimitCheck) { | |
1182 int stride_con = stride->get_int(); | |
1183 int stride_p = (stride_con > 0) ? stride_con : -stride_con; | |
1184 uint old_trip_count = loop_head->trip_count(); | |
1185 // Verify that unroll policy result is still valid. | |
1186 assert(old_trip_count > 1 && | |
1187 (!adjust_min_trip || stride_p <= (1<<3)*loop_head->unrolled_count()), "sanity"); | |
0 | 1188 |
3345 | 1189 // Adjust loop limit to keep valid iterations number after unroll. |
1190 // Use (limit - stride) instead of (((limit - init)/stride) & (-2))*stride | |
1191 // which may overflow. | |
1192 if (!adjust_min_trip) { | |
1193 assert(old_trip_count > 1 && (old_trip_count & 1) == 0, | |
1194 "odd trip count for maximally unroll"); | |
1195 // Don't need to adjust limit for maximally unroll since trip count is even. | |
1196 } else if (loop_head->has_exact_trip_count() && init->is_Con()) { | |
1197 // Loop's limit is constant. Loop's init could be constant when pre-loop | |
1198 // become peeled iteration. | |
1199 long init_con = init->get_int(); | |
1200 // We can keep old loop limit if iterations count stays the same: | |
1201 // old_trip_count == new_trip_count * 2 | |
1202 // Note: since old_trip_count >= 2 then new_trip_count >= 1 | |
1203 // so we also don't need to adjust zero trip test. | |
1204 long limit_con = limit->get_int(); | |
1205 // (stride_con*2) not overflow since stride_con <= 8. | |
1206 int new_stride_con = stride_con * 2; | |
1207 int stride_m = new_stride_con - (stride_con > 0 ? 1 : -1); | |
1208 long trip_count = (limit_con - init_con + stride_m)/new_stride_con; | |
1209 // New trip count should satisfy next conditions. | |
1210 assert(trip_count > 0 && (julong)trip_count < (julong)max_juint/2, "sanity"); | |
1211 uint new_trip_count = (uint)trip_count; | |
1212 adjust_min_trip = (old_trip_count != new_trip_count*2); | |
1213 } | |
1214 | |
1215 if (adjust_min_trip) { | |
1216 // Step 2: Adjust the trip limit if it is called for. | |
1217 // The adjustment amount is -stride. Need to make sure if the | |
1218 // adjustment underflows or overflows, then the main loop is skipped. | |
1219 Node* cmp = loop_end->cmp_node(); | |
1220 assert(cmp->in(2) == limit, "sanity"); | |
1221 assert(opaq != NULL && opaq->in(1) == limit, "sanity"); | |
1222 | |
1223 // Verify that policy_unroll result is still valid. | |
1224 const TypeInt* limit_type = _igvn.type(limit)->is_int(); | |
1225 assert(stride_con > 0 && ((limit_type->_hi - stride_con) < limit_type->_hi) || | |
1226 stride_con < 0 && ((limit_type->_lo - stride_con) > limit_type->_lo), "sanity"); | |
0 | 1227 |
3345 | 1228 if (limit->is_Con()) { |
1229 // The check in policy_unroll and the assert above guarantee | |
1230 // no underflow if limit is constant. | |
1231 new_limit = _igvn.intcon(limit->get_int() - stride_con); | |
1232 set_ctrl(new_limit, C->root()); | |
1233 } else { | |
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1234 // Limit is not constant. |
3367 | 1235 if (loop_head->unrolled_count() == 1) { // only for first unroll |
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1236 // Separate limit by Opaque node in case it is an incremented |
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1237 // variable from previous loop to avoid using pre-incremented |
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1238 // value which could increase register pressure. |
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1239 // Otherwise reorg_offsets() optimization will create a separate |
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1240 // Opaque node for each use of trip-counter and as result |
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1241 // zero trip guard limit will be different from loop limit. |
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1242 assert(has_ctrl(opaq), "should have it"); |
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1243 Node* opaq_ctrl = get_ctrl(opaq); |
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1244 limit = new (C, 2) Opaque2Node( C, limit ); |
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1245 register_new_node( limit, opaq_ctrl ); |
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1246 } |
3345 | 1247 if (stride_con > 0 && ((limit_type->_lo - stride_con) < limit_type->_lo) || |
1248 stride_con < 0 && ((limit_type->_hi - stride_con) > limit_type->_hi)) { | |
1249 // No underflow. | |
1250 new_limit = new (C, 3) SubINode(limit, stride); | |
1251 } else { | |
1252 // (limit - stride) may underflow. | |
1253 // Clamp the adjustment value with MININT or MAXINT: | |
1254 // | |
1255 // new_limit = limit-stride | |
1256 // if (stride > 0) | |
1257 // new_limit = (limit < new_limit) ? MININT : new_limit; | |
1258 // else | |
1259 // new_limit = (limit > new_limit) ? MAXINT : new_limit; | |
1260 // | |
1261 BoolTest::mask bt = loop_end->test_trip(); | |
1262 assert(bt == BoolTest::lt || bt == BoolTest::gt, "canonical test is expected"); | |
1263 Node* adj_max = _igvn.intcon((stride_con > 0) ? min_jint : max_jint); | |
1264 set_ctrl(adj_max, C->root()); | |
1265 Node* old_limit = NULL; | |
1266 Node* adj_limit = NULL; | |
1267 Node* bol = limit->is_CMove() ? limit->in(CMoveNode::Condition) : NULL; | |
1268 if (loop_head->unrolled_count() > 1 && | |
1269 limit->is_CMove() && limit->Opcode() == Op_CMoveI && | |
1270 limit->in(CMoveNode::IfTrue) == adj_max && | |
1271 bol->as_Bool()->_test._test == bt && | |
1272 bol->in(1)->Opcode() == Op_CmpI && | |
1273 bol->in(1)->in(2) == limit->in(CMoveNode::IfFalse)) { | |
1274 // Loop was unrolled before. | |
1275 // Optimize the limit to avoid nested CMove: | |
1276 // use original limit as old limit. | |
1277 old_limit = bol->in(1)->in(1); | |
1278 // Adjust previous adjusted limit. | |
1279 adj_limit = limit->in(CMoveNode::IfFalse); | |
1280 adj_limit = new (C, 3) SubINode(adj_limit, stride); | |
1281 } else { | |
1282 old_limit = limit; | |
1283 adj_limit = new (C, 3) SubINode(limit, stride); | |
1284 } | |
1285 assert(old_limit != NULL && adj_limit != NULL, ""); | |
1286 register_new_node( adj_limit, ctrl ); // adjust amount | |
1287 Node* adj_cmp = new (C, 3) CmpINode(old_limit, adj_limit); | |
1288 register_new_node( adj_cmp, ctrl ); | |
1289 Node* adj_bool = new (C, 2) BoolNode(adj_cmp, bt); | |
1290 register_new_node( adj_bool, ctrl ); | |
1291 new_limit = new (C, 4) CMoveINode(adj_bool, adj_limit, adj_max, TypeInt::INT); | |
1292 } | |
1293 register_new_node(new_limit, ctrl); | |
1294 } | |
1295 assert(new_limit != NULL, ""); | |
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1296 // Replace in loop test. |
3398
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1297 assert(loop_end->in(1)->in(1) == cmp, "sanity"); |
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1298 if (cmp->outcnt() == 1 && loop_end->in(1)->outcnt() == 1) { |
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1299 // Don't need to create new test since only one user. |
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1300 _igvn.hash_delete(cmp); |
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1301 cmp->set_req(2, new_limit); |
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1302 } else { |
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1303 // Create new test since it is shared. |
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1304 Node* ctrl2 = loop_end->in(0); |
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1305 Node* cmp2 = cmp->clone(); |
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1306 cmp2->set_req(2, new_limit); |
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1307 register_new_node(cmp2, ctrl2); |
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1308 Node* bol2 = loop_end->in(1)->clone(); |
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1309 bol2->set_req(1, cmp2); |
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1310 register_new_node(bol2, ctrl2); |
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1311 _igvn.hash_delete(loop_end); |
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1312 loop_end->set_req(1, bol2); |
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1313 } |
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1314 // Step 3: Find the min-trip test guaranteed before a 'main' loop. |
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1315 // Make it a 1-trip test (means at least 2 trips). |
3345 | 1316 |
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1317 // Guard test uses an 'opaque' node which is not shared. Hence I |
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1318 // can edit it's inputs directly. Hammer in the new limit for the |
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1319 // minimum-trip guard. |
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1320 assert(opaq->outcnt() == 1, ""); |
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1321 _igvn.hash_delete(opaq); |
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1322 opaq->set_req(1, new_limit); |
3345 | 1323 } |
1324 | |
1325 // Adjust max trip count. The trip count is intentionally rounded | |
1326 // down here (e.g. 15-> 7-> 3-> 1) because if we unwittingly over-unroll, | |
1327 // the main, unrolled, part of the loop will never execute as it is protected | |
1328 // by the min-trip test. See bug 4834191 for a case where we over-unrolled | |
1329 // and later determined that part of the unrolled loop was dead. | |
1330 loop_head->set_trip_count(old_trip_count / 2); | |
1331 | |
1332 // Double the count of original iterations in the unrolled loop body. | |
1333 loop_head->double_unrolled_count(); | |
1334 | |
1335 } else { // LoopLimitCheck | |
1336 | |
1337 // Adjust max trip count. The trip count is intentionally rounded | |
1338 // down here (e.g. 15-> 7-> 3-> 1) because if we unwittingly over-unroll, | |
1339 // the main, unrolled, part of the loop will never execute as it is protected | |
1340 // by the min-trip test. See bug 4834191 for a case where we over-unrolled | |
1341 // and later determined that part of the unrolled loop was dead. | |
1342 loop_head->set_trip_count(loop_head->trip_count() / 2); | |
1343 | |
1344 // Double the count of original iterations in the unrolled loop body. | |
1345 loop_head->double_unrolled_count(); | |
0 | 1346 |
3345 | 1347 // ----------- |
1348 // Step 2: Cut back the trip counter for an unroll amount of 2. | |
1349 // Loop will normally trip (limit - init)/stride_con. Since it's a | |
1350 // CountedLoop this is exact (stride divides limit-init exactly). | |
1351 // We are going to double the loop body, so we want to knock off any | |
1352 // odd iteration: (trip_cnt & ~1). Then back compute a new limit. | |
1353 Node *span = new (C, 3) SubINode( limit, init ); | |
1354 register_new_node( span, ctrl ); | |
1355 Node *trip = new (C, 3) DivINode( 0, span, stride ); | |
1356 register_new_node( trip, ctrl ); | |
1357 Node *mtwo = _igvn.intcon(-2); | |
1358 set_ctrl(mtwo, C->root()); | |
1359 Node *rond = new (C, 3) AndINode( trip, mtwo ); | |
1360 register_new_node( rond, ctrl ); | |
1361 Node *spn2 = new (C, 3) MulINode( rond, stride ); | |
1362 register_new_node( spn2, ctrl ); | |
1363 new_limit = new (C, 3) AddINode( spn2, init ); | |
1364 register_new_node( new_limit, ctrl ); | |
1365 | |
1366 // Hammer in the new limit | |
1367 Node *ctrl2 = loop_end->in(0); | |
1368 Node *cmp2 = new (C, 3) CmpINode( loop_head->incr(), new_limit ); | |
1369 register_new_node( cmp2, ctrl2 ); | |
1370 Node *bol2 = new (C, 2) BoolNode( cmp2, loop_end->test_trip() ); | |
1371 register_new_node( bol2, ctrl2 ); | |
1372 _igvn.hash_delete(loop_end); | |
1373 loop_end->set_req(CountedLoopEndNode::TestValue, bol2); | |
1374 | |
1375 // Step 3: Find the min-trip test guaranteed before a 'main' loop. | |
1376 // Make it a 1-trip test (means at least 2 trips). | |
1377 if( adjust_min_trip ) { | |
1378 assert( new_limit != NULL, "" ); | |
1379 // Guard test uses an 'opaque' node which is not shared. Hence I | |
1380 // can edit it's inputs directly. Hammer in the new limit for the | |
1381 // minimum-trip guard. | |
1382 assert( opaq->outcnt() == 1, "" ); | |
1383 _igvn.hash_delete(opaq); | |
1384 opaq->set_req(1, new_limit); | |
1385 } | |
1386 } // LoopLimitCheck | |
0 | 1387 |
1388 // --------- | |
1389 // Step 4: Clone the loop body. Move it inside the loop. This loop body | |
1390 // represents the odd iterations; since the loop trips an even number of | |
1391 // times its backedge is never taken. Kill the backedge. | |
1392 uint dd = dom_depth(loop_head); | |
1393 clone_loop( loop, old_new, dd ); | |
1394 | |
1395 // Make backedges of the clone equal to backedges of the original. | |
1396 // Make the fall-in from the original come from the fall-out of the clone. | |
1397 for (DUIterator_Fast jmax, j = loop_head->fast_outs(jmax); j < jmax; j++) { | |
1398 Node* phi = loop_head->fast_out(j); | |
1399 if( phi->is_Phi() && phi->in(0) == loop_head && phi->outcnt() > 0 ) { | |
1400 Node *newphi = old_new[phi->_idx]; | |
1401 _igvn.hash_delete( phi ); | |
1402 _igvn.hash_delete( newphi ); | |
1403 | |
1404 phi ->set_req(LoopNode:: EntryControl, newphi->in(LoopNode::LoopBackControl)); | |
1405 newphi->set_req(LoopNode::LoopBackControl, phi ->in(LoopNode::LoopBackControl)); | |
1406 phi ->set_req(LoopNode::LoopBackControl, C->top()); | |
1407 } | |
1408 } | |
1409 Node *clone_head = old_new[loop_head->_idx]; | |
1410 _igvn.hash_delete( clone_head ); | |
1411 loop_head ->set_req(LoopNode:: EntryControl, clone_head->in(LoopNode::LoopBackControl)); | |
1412 clone_head->set_req(LoopNode::LoopBackControl, loop_head ->in(LoopNode::LoopBackControl)); | |
1413 loop_head ->set_req(LoopNode::LoopBackControl, C->top()); | |
1414 loop->_head = clone_head; // New loop header | |
1415 | |
1416 set_idom(loop_head, loop_head ->in(LoopNode::EntryControl), dd); | |
1417 set_idom(clone_head, clone_head->in(LoopNode::EntryControl), dd); | |
1418 | |
1419 // Kill the clone's backedge | |
1420 Node *newcle = old_new[loop_end->_idx]; | |
1421 _igvn.hash_delete( newcle ); | |
1422 Node *one = _igvn.intcon(1); | |
1423 set_ctrl(one, C->root()); | |
1424 newcle->set_req(1, one); | |
1425 // Force clone into same loop body | |
1426 uint max = loop->_body.size(); | |
1427 for( uint k = 0; k < max; k++ ) { | |
1428 Node *old = loop->_body.at(k); | |
1429 Node *nnn = old_new[old->_idx]; | |
1430 loop->_body.push(nnn); | |
1431 if (!has_ctrl(old)) | |
1432 set_loop(nnn, loop); | |
1433 } | |
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1434 |
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1435 loop->record_for_igvn(); |
0 | 1436 } |
1437 | |
1438 //------------------------------do_maximally_unroll---------------------------- | |
1439 | |
1440 void PhaseIdealLoop::do_maximally_unroll( IdealLoopTree *loop, Node_List &old_new ) { | |
1441 CountedLoopNode *cl = loop->_head->as_CountedLoop(); | |
3345 | 1442 assert(cl->has_exact_trip_count(), "trip count is not exact"); |
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1443 assert(cl->trip_count() > 0, ""); |
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1444 #ifndef PRODUCT |
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1445 if (TraceLoopOpts) { |
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1446 tty->print("MaxUnroll %d ", cl->trip_count()); |
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1447 loop->dump_head(); |
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1448 } |
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1449 #endif |
0 | 1450 |
1451 // If loop is tripping an odd number of times, peel odd iteration | |
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1452 if ((cl->trip_count() & 1) == 1) { |
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1453 do_peeling(loop, old_new); |
0 | 1454 } |
1455 | |
1456 // Now its tripping an even number of times remaining. Double loop body. | |
1457 // Do not adjust pre-guards; they are not needed and do not exist. | |
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1458 if (cl->trip_count() > 0) { |
3345 | 1459 assert((cl->trip_count() & 1) == 0, "missed peeling"); |
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1460 do_unroll(loop, old_new, false); |
0 | 1461 } |
1462 } | |
1463 | |
1464 //------------------------------dominates_backedge--------------------------------- | |
1465 // Returns true if ctrl is executed on every complete iteration | |
1466 bool IdealLoopTree::dominates_backedge(Node* ctrl) { | |
1467 assert(ctrl->is_CFG(), "must be control"); | |
1468 Node* backedge = _head->as_Loop()->in(LoopNode::LoopBackControl); | |
1469 return _phase->dom_lca_internal(ctrl, backedge) == ctrl; | |
1470 } | |
1471 | |
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1472 //------------------------------adjust_limit----------------------------------- |
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1473 // Helper function for add_constraint(). |
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1474 Node* PhaseIdealLoop::adjust_limit(int stride_con, Node * scale, Node *offset, Node *rc_limit, Node *loop_limit, Node *pre_ctrl) { |
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1475 // Compute "I :: (limit-offset)/scale" |
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1476 Node *con = new (C, 3) SubINode(rc_limit, offset); |
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1477 register_new_node(con, pre_ctrl); |
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1478 Node *X = new (C, 3) DivINode(0, con, scale); |
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1479 register_new_node(X, pre_ctrl); |
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1480 |
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1481 // Adjust loop limit |
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1482 loop_limit = (stride_con > 0) |
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1483 ? (Node*)(new (C, 3) MinINode(loop_limit, X)) |
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1484 : (Node*)(new (C, 3) MaxINode(loop_limit, X)); |
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1485 register_new_node(loop_limit, pre_ctrl); |
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1486 return loop_limit; |
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1487 } |
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1488 |
0 | 1489 //------------------------------add_constraint--------------------------------- |
3345 | 1490 // Constrain the main loop iterations so the conditions: |
1491 // low_limit <= scale_con * I + offset < upper_limit | |
0 | 1492 // always holds true. That is, either increase the number of iterations in |
1493 // the pre-loop or the post-loop until the condition holds true in the main | |
1494 // loop. Stride, scale, offset and limit are all loop invariant. Further, | |
1495 // stride and scale are constants (offset and limit often are). | |
3345 | 1496 void PhaseIdealLoop::add_constraint( int stride_con, int scale_con, Node *offset, Node *low_limit, Node *upper_limit, Node *pre_ctrl, Node **pre_limit, Node **main_limit ) { |
0 | 1497 // For positive stride, the pre-loop limit always uses a MAX function |
1498 // and the main loop a MIN function. For negative stride these are | |
1499 // reversed. | |
1500 | |
1501 // Also for positive stride*scale the affine function is increasing, so the | |
1502 // pre-loop must check for underflow and the post-loop for overflow. | |
1503 // Negative stride*scale reverses this; pre-loop checks for overflow and | |
1504 // post-loop for underflow. | |
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1505 |
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1506 Node *scale = _igvn.intcon(scale_con); |
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1507 set_ctrl(scale, C->root()); |
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1508 |
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1509 if ((stride_con^scale_con) >= 0) { // Use XOR to avoid overflow |
3345 | 1510 // The overflow limit: scale*I+offset < upper_limit |
1511 // For main-loop compute | |
1512 // ( if (scale > 0) /* and stride > 0 */ | |
1513 // I < (upper_limit-offset)/scale | |
1514 // else /* scale < 0 and stride < 0 */ | |
1515 // I > (upper_limit-offset)/scale | |
1516 // ) | |
1517 // | |
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1518 // (upper_limit-offset) may overflow or underflow. |
3345 | 1519 // But it is fine since main loop will either have |
1520 // less iterations or will be skipped in such case. | |
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1521 *main_limit = adjust_limit(stride_con, scale, offset, upper_limit, *main_limit, pre_ctrl); |
0 | 1522 |
3345 | 1523 // The underflow limit: low_limit <= scale*I+offset. |
1524 // For pre-loop compute | |
1525 // NOT(scale*I+offset >= low_limit) | |
1526 // scale*I+offset < low_limit | |
1527 // ( if (scale > 0) /* and stride > 0 */ | |
1528 // I < (low_limit-offset)/scale | |
1529 // else /* scale < 0 and stride < 0 */ | |
1530 // I > (low_limit-offset)/scale | |
1531 // ) | |
1532 | |
1533 if (low_limit->get_int() == -max_jint) { | |
1534 if (!RangeLimitCheck) return; | |
1535 // We need this guard when scale*pre_limit+offset >= limit | |
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1536 // due to underflow. So we need execute pre-loop until |
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1537 // scale*I+offset >= min_int. But (min_int-offset) will |
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1538 // underflow when offset > 0 and X will be > original_limit |
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1539 // when stride > 0. To avoid it we replace positive offset with 0. |
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1540 // |
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1541 // Also (min_int+1 == -max_int) is used instead of min_int here |
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1542 // to avoid problem with scale == -1 (min_int/(-1) == min_int). |
3345 | 1543 Node* shift = _igvn.intcon(31); |
1544 set_ctrl(shift, C->root()); | |
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1545 Node* sign = new (C, 3) RShiftINode(offset, shift); |
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1546 register_new_node(sign, pre_ctrl); |
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1547 offset = new (C, 3) AndINode(offset, sign); |
3345 | 1548 register_new_node(offset, pre_ctrl); |
1549 } else { | |
1550 assert(low_limit->get_int() == 0, "wrong low limit for range check"); | |
1551 // The only problem we have here when offset == min_int | |
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1552 // since (0-min_int) == min_int. It may be fine for stride > 0 |
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1553 // but for stride < 0 X will be < original_limit. To avoid it |
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1554 // max(pre_limit, original_limit) is used in do_range_check(). |
3345 | 1555 } |
3383
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1556 // Pass (-stride) to indicate pre_loop_cond = NOT(main_loop_cond); |
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1557 *pre_limit = adjust_limit((-stride_con), scale, offset, low_limit, *pre_limit, pre_ctrl); |
3345 | 1558 |
1559 } else { // stride_con*scale_con < 0 | |
1560 // For negative stride*scale pre-loop checks for overflow and | |
1561 // post-loop for underflow. | |
1562 // | |
1563 // The overflow limit: scale*I+offset < upper_limit | |
1564 // For pre-loop compute | |
1565 // NOT(scale*I+offset < upper_limit) | |
1566 // scale*I+offset >= upper_limit | |
1567 // scale*I+offset+1 > upper_limit | |
1568 // ( if (scale < 0) /* and stride > 0 */ | |
1569 // I < (upper_limit-(offset+1))/scale | |
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1570 // else /* scale > 0 and stride < 0 */ |
3345 | 1571 // I > (upper_limit-(offset+1))/scale |
1572 // ) | |
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1573 // |
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1574 // (upper_limit-offset-1) may underflow or overflow. |
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1575 // To avoid it min(pre_limit, original_limit) is used |
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1576 // in do_range_check() for stride > 0 and max() for < 0. |
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1577 Node *one = _igvn.intcon(1); |
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1578 set_ctrl(one, C->root()); |
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1579 |
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1580 Node *plus_one = new (C, 3) AddINode(offset, one); |
3345 | 1581 register_new_node( plus_one, pre_ctrl ); |
3383
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1582 // Pass (-stride) to indicate pre_loop_cond = NOT(main_loop_cond); |
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1583 *pre_limit = adjust_limit((-stride_con), scale, plus_one, upper_limit, *pre_limit, pre_ctrl); |
3345 | 1584 |
3383
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1585 if (low_limit->get_int() == -max_jint) { |
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1586 if (!RangeLimitCheck) return; |
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1587 // We need this guard when scale*main_limit+offset >= limit |
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1588 // due to underflow. So we need execute main-loop while |
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1589 // scale*I+offset+1 > min_int. But (min_int-offset-1) will |
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1590 // underflow when (offset+1) > 0 and X will be < main_limit |
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1591 // when scale < 0 (and stride > 0). To avoid it we replace |
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1592 // positive (offset+1) with 0. |
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1593 // |
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1594 // Also (min_int+1 == -max_int) is used instead of min_int here |
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1595 // to avoid problem with scale == -1 (min_int/(-1) == min_int). |
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1596 Node* shift = _igvn.intcon(31); |
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1597 set_ctrl(shift, C->root()); |
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1598 Node* sign = new (C, 3) RShiftINode(plus_one, shift); |
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1599 register_new_node(sign, pre_ctrl); |
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1600 plus_one = new (C, 3) AndINode(plus_one, sign); |
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1601 register_new_node(plus_one, pre_ctrl); |
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1602 } else { |
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1603 assert(low_limit->get_int() == 0, "wrong low limit for range check"); |
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1604 // The only problem we have here when offset == max_int |
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1605 // since (max_int+1) == min_int and (0-min_int) == min_int. |
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1606 // But it is fine since main loop will either have |
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1607 // less iterations or will be skipped in such case. |
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1608 } |
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1609 // The underflow limit: low_limit <= scale*I+offset. |
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1610 // For main-loop compute |
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1611 // scale*I+offset+1 > low_limit |
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1612 // ( if (scale < 0) /* and stride > 0 */ |
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1613 // I < (low_limit-(offset+1))/scale |
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1614 // else /* scale > 0 and stride < 0 */ |
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1615 // I > (low_limit-(offset+1))/scale |
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1616 // ) |
3345 | 1617 |
3383
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1618 *main_limit = adjust_limit(stride_con, scale, plus_one, low_limit, *main_limit, pre_ctrl); |
0 | 1619 } |
1620 } | |
1621 | |
1622 | |
1623 //------------------------------is_scaled_iv--------------------------------- | |
1624 // Return true if exp is a constant times an induction var | |
1625 bool PhaseIdealLoop::is_scaled_iv(Node* exp, Node* iv, int* p_scale) { | |
1626 if (exp == iv) { | |
1627 if (p_scale != NULL) { | |
1628 *p_scale = 1; | |
1629 } | |
1630 return true; | |
1631 } | |
1632 int opc = exp->Opcode(); | |
1633 if (opc == Op_MulI) { | |
1634 if (exp->in(1) == iv && exp->in(2)->is_Con()) { | |
1635 if (p_scale != NULL) { | |
1636 *p_scale = exp->in(2)->get_int(); | |
1637 } | |
1638 return true; | |
1639 } | |
1640 if (exp->in(2) == iv && exp->in(1)->is_Con()) { | |
1641 if (p_scale != NULL) { | |
1642 *p_scale = exp->in(1)->get_int(); | |
1643 } | |
1644 return true; | |
1645 } | |
1646 } else if (opc == Op_LShiftI) { | |
1647 if (exp->in(1) == iv && exp->in(2)->is_Con()) { | |
1648 if (p_scale != NULL) { | |
1649 *p_scale = 1 << exp->in(2)->get_int(); | |
1650 } | |
1651 return true; | |
1652 } | |
1653 } | |
1654 return false; | |
1655 } | |
1656 | |
1657 //-----------------------------is_scaled_iv_plus_offset------------------------------ | |
1658 // Return true if exp is a simple induction variable expression: k1*iv + (invar + k2) | |
1659 bool PhaseIdealLoop::is_scaled_iv_plus_offset(Node* exp, Node* iv, int* p_scale, Node** p_offset, int depth) { | |
1660 if (is_scaled_iv(exp, iv, p_scale)) { | |
1661 if (p_offset != NULL) { | |
1662 Node *zero = _igvn.intcon(0); | |
1663 set_ctrl(zero, C->root()); | |
1664 *p_offset = zero; | |
1665 } | |
1666 return true; | |
1667 } | |
1668 int opc = exp->Opcode(); | |
1669 if (opc == Op_AddI) { | |
1670 if (is_scaled_iv(exp->in(1), iv, p_scale)) { | |
1671 if (p_offset != NULL) { | |
1672 *p_offset = exp->in(2); | |
1673 } | |
1674 return true; | |
1675 } | |
1676 if (exp->in(2)->is_Con()) { | |
1677 Node* offset2 = NULL; | |
1678 if (depth < 2 && | |
1679 is_scaled_iv_plus_offset(exp->in(1), iv, p_scale, | |
1680 p_offset != NULL ? &offset2 : NULL, depth+1)) { | |
1681 if (p_offset != NULL) { | |
1682 Node *ctrl_off2 = get_ctrl(offset2); | |
1683 Node* offset = new (C, 3) AddINode(offset2, exp->in(2)); | |
1684 register_new_node(offset, ctrl_off2); | |
1685 *p_offset = offset; | |
1686 } | |
1687 return true; | |
1688 } | |
1689 } | |
1690 } else if (opc == Op_SubI) { | |
1691 if (is_scaled_iv(exp->in(1), iv, p_scale)) { | |
1692 if (p_offset != NULL) { | |
1693 Node *zero = _igvn.intcon(0); | |
1694 set_ctrl(zero, C->root()); | |
1695 Node *ctrl_off = get_ctrl(exp->in(2)); | |
1696 Node* offset = new (C, 3) SubINode(zero, exp->in(2)); | |
1697 register_new_node(offset, ctrl_off); | |
1698 *p_offset = offset; | |
1699 } | |
1700 return true; | |
1701 } | |
1702 if (is_scaled_iv(exp->in(2), iv, p_scale)) { | |
1703 if (p_offset != NULL) { | |
1704 *p_scale *= -1; | |
1705 *p_offset = exp->in(1); | |
1706 } | |
1707 return true; | |
1708 } | |
1709 } | |
1710 return false; | |
1711 } | |
1712 | |
1713 //------------------------------do_range_check--------------------------------- | |
1714 // Eliminate range-checks and other trip-counter vs loop-invariant tests. | |
1715 void PhaseIdealLoop::do_range_check( IdealLoopTree *loop, Node_List &old_new ) { | |
1716 #ifndef PRODUCT | |
2383
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1717 if (PrintOpto && VerifyLoopOptimizations) { |
0 | 1718 tty->print("Range Check Elimination "); |
1719 loop->dump_head(); | |
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1720 } else if (TraceLoopOpts) { |
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1721 tty->print("RangeCheck "); |
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1722 loop->dump_head(); |
0 | 1723 } |
1724 #endif | |
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1725 assert(RangeCheckElimination, ""); |
0 | 1726 CountedLoopNode *cl = loop->_head->as_CountedLoop(); |
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1727 assert(cl->is_main_loop(), ""); |
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1728 |
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1729 // protect against stride not being a constant |
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1730 if (!cl->stride_is_con()) |
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1731 return; |
0 | 1732 |
1733 // Find the trip counter; we are iteration splitting based on it | |
1734 Node *trip_counter = cl->phi(); | |
1735 // Find the main loop limit; we will trim it's iterations | |
1736 // to not ever trip end tests | |
1737 Node *main_limit = cl->limit(); | |
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1738 |
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1739 // Need to find the main-loop zero-trip guard |
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1740 Node *ctrl = cl->in(LoopNode::EntryControl); |
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1741 assert(ctrl->Opcode() == Op_IfTrue || ctrl->Opcode() == Op_IfFalse, ""); |
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1742 Node *iffm = ctrl->in(0); |
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1743 assert(iffm->Opcode() == Op_If, ""); |
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1744 Node *bolzm = iffm->in(1); |
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1745 assert(bolzm->Opcode() == Op_Bool, ""); |
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1746 Node *cmpzm = bolzm->in(1); |
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1747 assert(cmpzm->is_Cmp(), ""); |
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1748 Node *opqzm = cmpzm->in(2); |
3345 | 1749 // Can not optimize a loop if zero-trip Opaque1 node is optimized |
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1750 // away and then another round of loop opts attempted. |
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1751 if (opqzm->Opcode() != Op_Opaque1) |
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1752 return; |
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1753 assert(opqzm->in(1) == main_limit, "do not understand situation"); |
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1754 |
0 | 1755 // Find the pre-loop limit; we will expand it's iterations to |
1756 // not ever trip low tests. | |
1757 Node *p_f = iffm->in(0); | |
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1758 assert(p_f->Opcode() == Op_IfFalse, ""); |
0 | 1759 CountedLoopEndNode *pre_end = p_f->in(0)->as_CountedLoopEnd(); |
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1760 assert(pre_end->loopnode()->is_pre_loop(), ""); |
0 | 1761 Node *pre_opaq1 = pre_end->limit(); |
1762 // Occasionally it's possible for a pre-loop Opaque1 node to be | |
1763 // optimized away and then another round of loop opts attempted. | |
1764 // We can not optimize this particular loop in that case. | |
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1765 if (pre_opaq1->Opcode() != Op_Opaque1) |
0 | 1766 return; |
1767 Opaque1Node *pre_opaq = (Opaque1Node*)pre_opaq1; | |
1768 Node *pre_limit = pre_opaq->in(1); | |
1769 | |
1770 // Where do we put new limit calculations | |
1771 Node *pre_ctrl = pre_end->loopnode()->in(LoopNode::EntryControl); | |
1772 | |
1773 // Ensure the original loop limit is available from the | |
1774 // pre-loop Opaque1 node. | |
1775 Node *orig_limit = pre_opaq->original_loop_limit(); | |
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1776 if (orig_limit == NULL || _igvn.type(orig_limit) == Type::TOP) |
0 | 1777 return; |
1778 | |
1779 // Must know if its a count-up or count-down loop | |
1780 | |
1781 int stride_con = cl->stride_con(); | |
1782 Node *zero = _igvn.intcon(0); | |
1783 Node *one = _igvn.intcon(1); | |
3345 | 1784 // Use symmetrical int range [-max_jint,max_jint] |
1785 Node *mini = _igvn.intcon(-max_jint); | |
0 | 1786 set_ctrl(zero, C->root()); |
1787 set_ctrl(one, C->root()); | |
3345 | 1788 set_ctrl(mini, C->root()); |
0 | 1789 |
1790 // Range checks that do not dominate the loop backedge (ie. | |
1791 // conditionally executed) can lengthen the pre loop limit beyond | |
1792 // the original loop limit. To prevent this, the pre limit is | |
1793 // (for stride > 0) MINed with the original loop limit (MAXed | |
1794 // stride < 0) when some range_check (rc) is conditionally | |
1795 // executed. | |
1796 bool conditional_rc = false; | |
1797 | |
1798 // Check loop body for tests of trip-counter plus loop-invariant vs | |
1799 // loop-invariant. | |
1800 for( uint i = 0; i < loop->_body.size(); i++ ) { | |
1801 Node *iff = loop->_body[i]; | |
1802 if( iff->Opcode() == Op_If ) { // Test? | |
1803 | |
1804 // Test is an IfNode, has 2 projections. If BOTH are in the loop | |
1805 // we need loop unswitching instead of iteration splitting. | |
1806 Node *exit = loop->is_loop_exit(iff); | |
1807 if( !exit ) continue; | |
1808 int flip = (exit->Opcode() == Op_IfTrue) ? 1 : 0; | |
1809 | |
1810 // Get boolean condition to test | |
1811 Node *i1 = iff->in(1); | |
1812 if( !i1->is_Bool() ) continue; | |
1813 BoolNode *bol = i1->as_Bool(); | |
1814 BoolTest b_test = bol->_test; | |
1815 // Flip sense of test if exit condition is flipped | |
1816 if( flip ) | |
1817 b_test = b_test.negate(); | |
1818 | |
1819 // Get compare | |
1820 Node *cmp = bol->in(1); | |
1821 | |
1822 // Look for trip_counter + offset vs limit | |
1823 Node *rc_exp = cmp->in(1); | |
1824 Node *limit = cmp->in(2); | |
1825 jint scale_con= 1; // Assume trip counter not scaled | |
1826 | |
1827 Node *limit_c = get_ctrl(limit); | |
1828 if( loop->is_member(get_loop(limit_c) ) ) { | |
1829 // Compare might have operands swapped; commute them | |
1830 b_test = b_test.commute(); | |
1831 rc_exp = cmp->in(2); | |
1832 limit = cmp->in(1); | |
1833 limit_c = get_ctrl(limit); | |
1834 if( loop->is_member(get_loop(limit_c) ) ) | |
1835 continue; // Both inputs are loop varying; cannot RCE | |
1836 } | |
1837 // Here we know 'limit' is loop invariant | |
1838 | |
1839 // 'limit' maybe pinned below the zero trip test (probably from a | |
1840 // previous round of rce), in which case, it can't be used in the | |
1841 // zero trip test expression which must occur before the zero test's if. | |
1842 if( limit_c == ctrl ) { | |
1843 continue; // Don't rce this check but continue looking for other candidates. | |
1844 } | |
1845 | |
1846 // Check for scaled induction variable plus an offset | |
1847 Node *offset = NULL; | |
1848 | |
1849 if (!is_scaled_iv_plus_offset(rc_exp, trip_counter, &scale_con, &offset)) { | |
1850 continue; | |
1851 } | |
1852 | |
1853 Node *offset_c = get_ctrl(offset); | |
1854 if( loop->is_member( get_loop(offset_c) ) ) | |
1855 continue; // Offset is not really loop invariant | |
1856 // Here we know 'offset' is loop invariant. | |
1857 | |
1858 // As above for the 'limit', the 'offset' maybe pinned below the | |
1859 // zero trip test. | |
1860 if( offset_c == ctrl ) { | |
1861 continue; // Don't rce this check but continue looking for other candidates. | |
1862 } | |
3345 | 1863 #ifdef ASSERT |
1864 if (TraceRangeLimitCheck) { | |
1865 tty->print_cr("RC bool node%s", flip ? " flipped:" : ":"); | |
1866 bol->dump(2); | |
1867 } | |
1868 #endif | |
0 | 1869 // At this point we have the expression as: |
1870 // scale_con * trip_counter + offset :: limit | |
1871 // where scale_con, offset and limit are loop invariant. Trip_counter | |
1872 // monotonically increases by stride_con, a constant. Both (or either) | |
1873 // stride_con and scale_con can be negative which will flip about the | |
1874 // sense of the test. | |
1875 | |
1876 // Adjust pre and main loop limits to guard the correct iteration set | |
1877 if( cmp->Opcode() == Op_CmpU ) {// Unsigned compare is really 2 tests | |
1878 if( b_test._test == BoolTest::lt ) { // Range checks always use lt | |
3345 | 1879 // The underflow and overflow limits: 0 <= scale*I+offset < limit |
1880 add_constraint( stride_con, scale_con, offset, zero, limit, pre_ctrl, &pre_limit, &main_limit ); | |
0 | 1881 if (!conditional_rc) { |
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1882 // (0-offset)/scale could be outside of loop iterations range. |
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1883 conditional_rc = !loop->dominates_backedge(iff) || RangeLimitCheck; |
0 | 1884 } |
1885 } else { | |
1886 #ifndef PRODUCT | |
1887 if( PrintOpto ) | |
1888 tty->print_cr("missed RCE opportunity"); | |
1889 #endif | |
1890 continue; // In release mode, ignore it | |
1891 } | |
1892 } else { // Otherwise work on normal compares | |
1893 switch( b_test._test ) { | |
3345 | 1894 case BoolTest::gt: |
1895 // Fall into GE case | |
1896 case BoolTest::ge: | |
1897 // Convert (I*scale+offset) >= Limit to (I*(-scale)+(-offset)) <= -Limit | |
0 | 1898 scale_con = -scale_con; |
1899 offset = new (C, 3) SubINode( zero, offset ); | |
1900 register_new_node( offset, pre_ctrl ); | |
1901 limit = new (C, 3) SubINode( zero, limit ); | |
1902 register_new_node( limit, pre_ctrl ); | |
1903 // Fall into LE case | |
3345 | 1904 case BoolTest::le: |
1905 if (b_test._test != BoolTest::gt) { | |
1906 // Convert X <= Y to X < Y+1 | |
1907 limit = new (C, 3) AddINode( limit, one ); | |
1908 register_new_node( limit, pre_ctrl ); | |
1909 } | |
0 | 1910 // Fall into LT case |
1911 case BoolTest::lt: | |
3345 | 1912 // The underflow and overflow limits: MIN_INT <= scale*I+offset < limit |
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1913 // Note: (MIN_INT+1 == -MAX_INT) is used instead of MIN_INT here |
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1914 // to avoid problem with scale == -1: MIN_INT/(-1) == MIN_INT. |
3345 | 1915 add_constraint( stride_con, scale_con, offset, mini, limit, pre_ctrl, &pre_limit, &main_limit ); |
0 | 1916 if (!conditional_rc) { |
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1917 // ((MIN_INT+1)-offset)/scale could be outside of loop iterations range. |
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1918 // Note: negative offset is replaced with 0 but (MIN_INT+1)/scale could |
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1919 // still be outside of loop range. |
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1920 conditional_rc = !loop->dominates_backedge(iff) || RangeLimitCheck; |
0 | 1921 } |
1922 break; | |
1923 default: | |
1924 #ifndef PRODUCT | |
1925 if( PrintOpto ) | |
1926 tty->print_cr("missed RCE opportunity"); | |
1927 #endif | |
1928 continue; // Unhandled case | |
1929 } | |
1930 } | |
1931 | |
1932 // Kill the eliminated test | |
1933 C->set_major_progress(); | |
1934 Node *kill_con = _igvn.intcon( 1-flip ); | |
1935 set_ctrl(kill_con, C->root()); | |
1936 _igvn.hash_delete(iff); | |
1937 iff->set_req(1, kill_con); | |
1938 _igvn._worklist.push(iff); | |
1939 // Find surviving projection | |
1940 assert(iff->is_If(), ""); | |
1941 ProjNode* dp = ((IfNode*)iff)->proj_out(1-flip); | |
1942 // Find loads off the surviving projection; remove their control edge | |
1943 for (DUIterator_Fast imax, i = dp->fast_outs(imax); i < imax; i++) { | |
1944 Node* cd = dp->fast_out(i); // Control-dependent node | |
1945 if( cd->is_Load() ) { // Loads can now float around in the loop | |
1946 _igvn.hash_delete(cd); | |
1947 // Allow the load to float around in the loop, or before it | |
1948 // but NOT before the pre-loop. | |
1949 cd->set_req(0, ctrl); // ctrl, not NULL | |
1950 _igvn._worklist.push(cd); | |
1951 --i; | |
1952 --imax; | |
1953 } | |
1954 } | |
1955 | |
1956 } // End of is IF | |
1957 | |
1958 } | |
1959 | |
1960 // Update loop limits | |
1961 if (conditional_rc) { | |
1962 pre_limit = (stride_con > 0) ? (Node*)new (C,3) MinINode(pre_limit, orig_limit) | |
1963 : (Node*)new (C,3) MaxINode(pre_limit, orig_limit); | |
1964 register_new_node(pre_limit, pre_ctrl); | |
1965 } | |
1966 _igvn.hash_delete(pre_opaq); | |
1967 pre_opaq->set_req(1, pre_limit); | |
1968 | |
1969 // Note:: we are making the main loop limit no longer precise; | |
1970 // need to round up based on stride. | |
3345 | 1971 cl->set_nonexact_trip_count(); |
1972 if (!LoopLimitCheck && stride_con != 1 && stride_con != -1) { // Cutout for common case | |
0 | 1973 // "Standard" round-up logic: ([main_limit-init+(y-1)]/y)*y+init |
1974 // Hopefully, compiler will optimize for powers of 2. | |
1975 Node *ctrl = get_ctrl(main_limit); | |
1976 Node *stride = cl->stride(); | |
1977 Node *init = cl->init_trip(); | |
1978 Node *span = new (C, 3) SubINode(main_limit,init); | |
1979 register_new_node(span,ctrl); | |
1980 Node *rndup = _igvn.intcon(stride_con + ((stride_con>0)?-1:1)); | |
1981 Node *add = new (C, 3) AddINode(span,rndup); | |
1982 register_new_node(add,ctrl); | |
1983 Node *div = new (C, 3) DivINode(0,add,stride); | |
1984 register_new_node(div,ctrl); | |
1985 Node *mul = new (C, 3) MulINode(div,stride); | |
1986 register_new_node(mul,ctrl); | |
1987 Node *newlim = new (C, 3) AddINode(mul,init); | |
1988 register_new_node(newlim,ctrl); | |
1989 main_limit = newlim; | |
1990 } | |
1991 | |
1992 Node *main_cle = cl->loopexit(); | |
1993 Node *main_bol = main_cle->in(1); | |
1994 // Hacking loop bounds; need private copies of exit test | |
1995 if( main_bol->outcnt() > 1 ) {// BoolNode shared? | |
1996 _igvn.hash_delete(main_cle); | |
1997 main_bol = main_bol->clone();// Clone a private BoolNode | |
1998 register_new_node( main_bol, main_cle->in(0) ); | |
1999 main_cle->set_req(1,main_bol); | |
2000 } | |
2001 Node *main_cmp = main_bol->in(1); | |
2002 if( main_cmp->outcnt() > 1 ) { // CmpNode shared? | |
2003 _igvn.hash_delete(main_bol); | |
2004 main_cmp = main_cmp->clone();// Clone a private CmpNode | |
2005 register_new_node( main_cmp, main_cle->in(0) ); | |
2006 main_bol->set_req(1,main_cmp); | |
2007 } | |
2008 // Hack the now-private loop bounds | |
2009 _igvn.hash_delete(main_cmp); | |
2010 main_cmp->set_req(2, main_limit); | |
2011 _igvn._worklist.push(main_cmp); | |
2012 // The OpaqueNode is unshared by design | |
2013 _igvn.hash_delete(opqzm); | |
2014 assert( opqzm->outcnt() == 1, "cannot hack shared node" ); | |
2015 opqzm->set_req(1,main_limit); | |
2016 _igvn._worklist.push(opqzm); | |
2017 } | |
2018 | |
2019 //------------------------------DCE_loop_body---------------------------------- | |
2020 // Remove simplistic dead code from loop body | |
2021 void IdealLoopTree::DCE_loop_body() { | |
2022 for( uint i = 0; i < _body.size(); i++ ) | |
2023 if( _body.at(i)->outcnt() == 0 ) | |
2024 _body.map( i--, _body.pop() ); | |
2025 } | |
2026 | |
2027 | |
2028 //------------------------------adjust_loop_exit_prob-------------------------- | |
2029 // Look for loop-exit tests with the 50/50 (or worse) guesses from the parsing stage. | |
2030 // Replace with a 1-in-10 exit guess. | |
2031 void IdealLoopTree::adjust_loop_exit_prob( PhaseIdealLoop *phase ) { | |
2032 Node *test = tail(); | |
2033 while( test != _head ) { | |
2034 uint top = test->Opcode(); | |
2035 if( top == Op_IfTrue || top == Op_IfFalse ) { | |
2036 int test_con = ((ProjNode*)test)->_con; | |
2037 assert(top == (uint)(test_con? Op_IfTrue: Op_IfFalse), "sanity"); | |
2038 IfNode *iff = test->in(0)->as_If(); | |
2039 if( iff->outcnt() == 2 ) { // Ignore dead tests | |
2040 Node *bol = iff->in(1); | |
2041 if( bol && bol->req() > 1 && bol->in(1) && | |
2042 ((bol->in(1)->Opcode() == Op_StorePConditional ) || | |
420
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2043 (bol->in(1)->Opcode() == Op_StoreIConditional ) || |
0 | 2044 (bol->in(1)->Opcode() == Op_StoreLConditional ) || |
2045 (bol->in(1)->Opcode() == Op_CompareAndSwapI ) || | |
2046 (bol->in(1)->Opcode() == Op_CompareAndSwapL ) || | |
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2047 (bol->in(1)->Opcode() == Op_CompareAndSwapP ) || |
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2048 (bol->in(1)->Opcode() == Op_CompareAndSwapN ))) |
0 | 2049 return; // Allocation loops RARELY take backedge |
2050 // Find the OTHER exit path from the IF | |
2051 Node* ex = iff->proj_out(1-test_con); | |
2052 float p = iff->_prob; | |
2053 if( !phase->is_member( this, ex ) && iff->_fcnt == COUNT_UNKNOWN ) { | |
2054 if( top == Op_IfTrue ) { | |
2055 if( p < (PROB_FAIR + PROB_UNLIKELY_MAG(3))) { | |
2056 iff->_prob = PROB_STATIC_FREQUENT; | |
2057 } | |
2058 } else { | |
2059 if( p > (PROB_FAIR - PROB_UNLIKELY_MAG(3))) { | |
2060 iff->_prob = PROB_STATIC_INFREQUENT; | |
2061 } | |
2062 } | |
2063 } | |
2064 } | |
2065 } | |
2066 test = phase->idom(test); | |
2067 } | |
2068 } | |
2069 | |
2070 | |
2071 //------------------------------policy_do_remove_empty_loop-------------------- | |
2072 // Micro-benchmark spamming. Policy is to always remove empty loops. | |
2073 // The 'DO' part is to replace the trip counter with the value it will | |
2074 // have on the last iteration. This will break the loop. | |
2075 bool IdealLoopTree::policy_do_remove_empty_loop( PhaseIdealLoop *phase ) { | |
2076 // Minimum size must be empty loop | |
2453
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2077 if (_body.size() > EMPTY_LOOP_SIZE) |
2383
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2078 return false; |
0 | 2079 |
2383
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2080 if (!_head->is_CountedLoop()) |
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2081 return false; // Dead loop |
0 | 2082 CountedLoopNode *cl = _head->as_CountedLoop(); |
2383
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2083 if (!cl->loopexit()) |
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2084 return false; // Malformed loop |
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2085 if (!phase->is_member(this, phase->get_ctrl(cl->loopexit()->in(CountedLoopEndNode::TestValue)))) |
0 | 2086 return false; // Infinite loop |
2403 | 2087 |
0 | 2088 #ifdef ASSERT |
2089 // Ensure only one phi which is the iv. | |
2090 Node* iv = NULL; | |
2091 for (DUIterator_Fast imax, i = cl->fast_outs(imax); i < imax; i++) { | |
2092 Node* n = cl->fast_out(i); | |
2093 if (n->Opcode() == Op_Phi) { | |
2094 assert(iv == NULL, "Too many phis" ); | |
2095 iv = n; | |
2096 } | |
2097 } | |
2098 assert(iv == cl->phi(), "Wrong phi" ); | |
2099 #endif | |
2403 | 2100 |
2101 // main and post loops have explicitly created zero trip guard | |
2102 bool needs_guard = !cl->is_main_loop() && !cl->is_post_loop(); | |
2103 if (needs_guard) { | |
2465 | 2104 // Skip guard if values not overlap. |
2105 const TypeInt* init_t = phase->_igvn.type(cl->init_trip())->is_int(); | |
2106 const TypeInt* limit_t = phase->_igvn.type(cl->limit())->is_int(); | |
2107 int stride_con = cl->stride_con(); | |
2108 if (stride_con > 0) { | |
2109 needs_guard = (init_t->_hi >= limit_t->_lo); | |
2110 } else { | |
2111 needs_guard = (init_t->_lo <= limit_t->_hi); | |
2112 } | |
2113 } | |
2114 if (needs_guard) { | |
2403 | 2115 // Check for an obvious zero trip guard. |
2445 | 2116 Node* inctrl = PhaseIdealLoop::skip_loop_predicates(cl->in(LoopNode::EntryControl)); |
2403 | 2117 if (inctrl->Opcode() == Op_IfTrue) { |
2118 // The test should look like just the backedge of a CountedLoop | |
2119 Node* iff = inctrl->in(0); | |
2120 if (iff->is_If()) { | |
2121 Node* bol = iff->in(1); | |
2122 if (bol->is_Bool() && bol->as_Bool()->_test._test == cl->loopexit()->test_trip()) { | |
2123 Node* cmp = bol->in(1); | |
2124 if (cmp->is_Cmp() && cmp->in(1) == cl->init_trip() && cmp->in(2) == cl->limit()) { | |
2125 needs_guard = false; | |
2126 } | |
2127 } | |
2128 } | |
2129 } | |
2130 } | |
2131 | |
2132 #ifndef PRODUCT | |
2133 if (PrintOpto) { | |
2134 tty->print("Removing empty loop with%s zero trip guard", needs_guard ? "out" : ""); | |
2135 this->dump_head(); | |
2136 } else if (TraceLoopOpts) { | |
2137 tty->print("Empty with%s zero trip guard ", needs_guard ? "out" : ""); | |
2138 this->dump_head(); | |
2139 } | |
2140 #endif | |
2141 | |
2142 if (needs_guard) { | |
2143 // Peel the loop to ensure there's a zero trip guard | |
2144 Node_List old_new; | |
2145 phase->do_peeling(this, old_new); | |
2146 } | |
2147 | |
0 | 2148 // Replace the phi at loop head with the final value of the last |
2149 // iteration. Then the CountedLoopEnd will collapse (backedge never | |
2150 // taken) and all loop-invariant uses of the exit values will be correct. | |
2151 Node *phi = cl->phi(); | |
3345 | 2152 Node *exact_limit = phase->exact_limit(this); |
2153 if (exact_limit != cl->limit()) { | |
2154 // We also need to replace the original limit to collapse loop exit. | |
2155 Node* cmp = cl->loopexit()->cmp_node(); | |
2156 assert(cl->limit() == cmp->in(2), "sanity"); | |
2157 phase->_igvn._worklist.push(cmp->in(2)); // put limit on worklist | |
2158 phase->_igvn.hash_delete(cmp); | |
2159 cmp->set_req(2, exact_limit); | |
2160 phase->_igvn._worklist.push(cmp); // put cmp on worklist | |
2161 } | |
2162 // Note: the final value after increment should not overflow since | |
2163 // counted loop has limit check predicate. | |
2164 Node *final = new (phase->C, 3) SubINode( exact_limit, cl->stride() ); | |
0 | 2165 phase->register_new_node(final,cl->in(LoopNode::EntryControl)); |
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2166 phase->_igvn.replace_node(phi,final); |
0 | 2167 phase->C->set_major_progress(); |
2168 return true; | |
2169 } | |
2170 | |
2465 | 2171 //------------------------------policy_do_one_iteration_loop------------------- |
2172 // Convert one iteration loop into normal code. | |
2173 bool IdealLoopTree::policy_do_one_iteration_loop( PhaseIdealLoop *phase ) { | |
2174 if (!_head->as_Loop()->is_valid_counted_loop()) | |
2175 return false; // Only for counted loop | |
2176 | |
2177 CountedLoopNode *cl = _head->as_CountedLoop(); | |
2178 if (!cl->has_exact_trip_count() || cl->trip_count() != 1) { | |
2179 return false; | |
2180 } | |
2181 | |
2182 #ifndef PRODUCT | |
2183 if(TraceLoopOpts) { | |
2184 tty->print("OneIteration "); | |
2185 this->dump_head(); | |
2186 } | |
2187 #endif | |
2188 | |
2189 Node *init_n = cl->init_trip(); | |
2190 #ifdef ASSERT | |
2191 // Loop boundaries should be constant since trip count is exact. | |
2192 assert(init_n->get_int() + cl->stride_con() >= cl->limit()->get_int(), "should be one iteration"); | |
2193 #endif | |
2194 // Replace the phi at loop head with the value of the init_trip. | |
2195 // Then the CountedLoopEnd will collapse (backedge will not be taken) | |
2196 // and all loop-invariant uses of the exit values will be correct. | |
2197 phase->_igvn.replace_node(cl->phi(), cl->init_trip()); | |
2198 phase->C->set_major_progress(); | |
2199 return true; | |
2200 } | |
0 | 2201 |
2202 //============================================================================= | |
2203 //------------------------------iteration_split_impl--------------------------- | |
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2204 bool IdealLoopTree::iteration_split_impl( PhaseIdealLoop *phase, Node_List &old_new ) { |
2465 | 2205 // Compute exact loop trip count if possible. |
2206 compute_exact_trip_count(phase); | |
2207 | |
2208 // Convert one iteration loop into normal code. | |
2209 if (policy_do_one_iteration_loop(phase)) | |
2210 return true; | |
2211 | |
0 | 2212 // Check and remove empty loops (spam micro-benchmarks) |
2465 | 2213 if (policy_do_remove_empty_loop(phase)) |
1172 | 2214 return true; // Here we removed an empty loop |
0 | 2215 |
2216 bool should_peel = policy_peeling(phase); // Should we peel? | |
2217 | |
2218 bool should_unswitch = policy_unswitching(phase); | |
2219 | |
2220 // Non-counted loops may be peeled; exactly 1 iteration is peeled. | |
2221 // This removes loop-invariant tests (usually null checks). | |
2465 | 2222 if (!_head->is_CountedLoop()) { // Non-counted loop |
0 | 2223 if (PartialPeelLoop && phase->partial_peel(this, old_new)) { |
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2224 // Partial peel succeeded so terminate this round of loop opts |
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2225 return false; |
0 | 2226 } |
2465 | 2227 if (should_peel) { // Should we peel? |
0 | 2228 #ifndef PRODUCT |
2229 if (PrintOpto) tty->print_cr("should_peel"); | |
2230 #endif | |
2231 phase->do_peeling(this,old_new); | |
2465 | 2232 } else if (should_unswitch) { |
0 | 2233 phase->do_unswitching(this, old_new); |
2234 } | |
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2235 return true; |
0 | 2236 } |
2237 CountedLoopNode *cl = _head->as_CountedLoop(); | |
2238 | |
2465 | 2239 if (!cl->loopexit()) return true; // Ignore various kinds of broken loops |
0 | 2240 |
2241 // Do nothing special to pre- and post- loops | |
2465 | 2242 if (cl->is_pre_loop() || cl->is_post_loop()) return true; |
0 | 2243 |
2244 // Compute loop trip count from profile data | |
2245 compute_profile_trip_cnt(phase); | |
2246 | |
2247 // Before attempting fancy unrolling, RCE or alignment, see if we want | |
2248 // to completely unroll this loop or do loop unswitching. | |
2465 | 2249 if (cl->is_normal_loop()) { |
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2250 if (should_unswitch) { |
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2251 phase->do_unswitching(this, old_new); |
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2252 return true; |
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2253 } |
0 | 2254 bool should_maximally_unroll = policy_maximally_unroll(phase); |
2465 | 2255 if (should_maximally_unroll) { |
0 | 2256 // Here we did some unrolling and peeling. Eventually we will |
2257 // completely unroll this loop and it will no longer be a loop. | |
2258 phase->do_maximally_unroll(this,old_new); | |
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2259 return true; |
0 | 2260 } |
2261 } | |
2262 | |
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2263 // Skip next optimizations if running low on nodes. Note that |
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2264 // policy_unswitching and policy_maximally_unroll have this check. |
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2265 uint nodes_left = MaxNodeLimit - phase->C->unique(); |
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2266 if ((2 * _body.size()) > nodes_left) { |
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2267 return true; |
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2268 } |
0 | 2269 |
2270 // Counted loops may be peeled, may need some iterations run up | |
2271 // front for RCE, and may want to align loop refs to a cache | |
2272 // line. Thus we clone a full loop up front whose trip count is | |
2273 // at least 1 (if peeling), but may be several more. | |
2274 | |
2275 // The main loop will start cache-line aligned with at least 1 | |
2276 // iteration of the unrolled body (zero-trip test required) and | |
2277 // will have some range checks removed. | |
2278 | |
2279 // A post-loop will finish any odd iterations (leftover after | |
2280 // unrolling), plus any needed for RCE purposes. | |
2281 | |
2282 bool should_unroll = policy_unroll(phase); | |
2283 | |
2284 bool should_rce = policy_range_check(phase); | |
2285 | |
2286 bool should_align = policy_align(phase); | |
2287 | |
2288 // If not RCE'ing (iteration splitting) or Aligning, then we do not | |
2289 // need a pre-loop. We may still need to peel an initial iteration but | |
2290 // we will not be needing an unknown number of pre-iterations. | |
2291 // | |
2292 // Basically, if may_rce_align reports FALSE first time through, | |
2293 // we will not be able to later do RCE or Aligning on this loop. | |
2294 bool may_rce_align = !policy_peel_only(phase) || should_rce || should_align; | |
2295 | |
2296 // If we have any of these conditions (RCE, alignment, unrolling) met, then | |
2297 // we switch to the pre-/main-/post-loop model. This model also covers | |
2298 // peeling. | |
2465 | 2299 if (should_rce || should_align || should_unroll) { |
2300 if (cl->is_normal_loop()) // Convert to 'pre/main/post' loops | |
0 | 2301 phase->insert_pre_post_loops(this,old_new, !may_rce_align); |
2302 | |
2303 // Adjust the pre- and main-loop limits to let the pre and post loops run | |
2304 // with full checks, but the main-loop with no checks. Remove said | |
2305 // checks from the main body. | |
2465 | 2306 if (should_rce) |
0 | 2307 phase->do_range_check(this,old_new); |
2308 | |
2309 // Double loop body for unrolling. Adjust the minimum-trip test (will do | |
2310 // twice as many iterations as before) and the main body limit (only do | |
2311 // an even number of trips). If we are peeling, we might enable some RCE | |
2312 // and we'd rather unroll the post-RCE'd loop SO... do not unroll if | |
2313 // peeling. | |
2465 | 2314 if (should_unroll && !should_peel) |
2315 phase->do_unroll(this,old_new, true); | |
0 | 2316 |
2317 // Adjust the pre-loop limits to align the main body | |
2318 // iterations. | |
2465 | 2319 if (should_align) |
0 | 2320 Unimplemented(); |
2321 | |
2322 } else { // Else we have an unchanged counted loop | |
2465 | 2323 if (should_peel) // Might want to peel but do nothing else |
0 | 2324 phase->do_peeling(this,old_new); |
2325 } | |
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2326 return true; |
0 | 2327 } |
2328 | |
2329 | |
2330 //============================================================================= | |
2331 //------------------------------iteration_split-------------------------------- | |
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2332 bool IdealLoopTree::iteration_split( PhaseIdealLoop *phase, Node_List &old_new ) { |
0 | 2333 // Recursively iteration split nested loops |
2383
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2334 if (_child && !_child->iteration_split(phase, old_new)) |
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2335 return false; |
0 | 2336 |
2337 // Clean out prior deadwood | |
2338 DCE_loop_body(); | |
2339 | |
2340 | |
2341 // Look for loop-exit tests with my 50/50 guesses from the Parsing stage. | |
2342 // Replace with a 1-in-10 exit guess. | |
2383
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2343 if (_parent /*not the root loop*/ && |
0 | 2344 !_irreducible && |
2345 // Also ignore the occasional dead backedge | |
2383
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2346 !tail()->is_top()) { |
0 | 2347 adjust_loop_exit_prob(phase); |
2348 } | |
2349 | |
2350 // Gate unrolling, RCE and peeling efforts. | |
2383
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2351 if (!_child && // If not an inner loop, do not split |
0 | 2352 !_irreducible && |
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2353 _allow_optimizations && |
2383
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2354 !tail()->is_top()) { // Also ignore the occasional dead backedge |
0 | 2355 if (!_has_call) { |
2383
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2356 if (!iteration_split_impl(phase, old_new)) { |
1172 | 2357 return false; |
2358 } | |
0 | 2359 } else if (policy_unswitching(phase)) { |
2360 phase->do_unswitching(this, old_new); | |
2361 } | |
2362 } | |
2363 | |
2364 // Minor offset re-organization to remove loop-fallout uses of | |
2383
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2365 // trip counter when there was no major reshaping. |
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2366 phase->reorg_offsets(this); |
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2367 |
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2368 if (_next && !_next->iteration_split(phase, old_new)) |
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2369 return false; |
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2370 return true; |
0 | 2371 } |
1172 | 2372 |
2373 | |
2445 | 2374 //============================================================================= |
1763 | 2375 // Process all the loops in the loop tree and replace any fill |
2376 // patterns with an intrisc version. | |
2377 bool PhaseIdealLoop::do_intrinsify_fill() { | |
2378 bool changed = false; | |
2379 for (LoopTreeIterator iter(_ltree_root); !iter.done(); iter.next()) { | |
2380 IdealLoopTree* lpt = iter.current(); | |
2381 changed |= intrinsify_fill(lpt); | |
2382 } | |
2383 return changed; | |
2384 } | |
2385 | |
2386 | |
2387 // Examine an inner loop looking for a a single store of an invariant | |
2388 // value in a unit stride loop, | |
2389 bool PhaseIdealLoop::match_fill_loop(IdealLoopTree* lpt, Node*& store, Node*& store_value, | |
2390 Node*& shift, Node*& con) { | |
2391 const char* msg = NULL; | |
2392 Node* msg_node = NULL; | |
2393 | |
2394 store_value = NULL; | |
2395 con = NULL; | |
2396 shift = NULL; | |
2397 | |
2398 // Process the loop looking for stores. If there are multiple | |
2399 // stores or extra control flow give at this point. | |
2400 CountedLoopNode* head = lpt->_head->as_CountedLoop(); | |
2401 for (uint i = 0; msg == NULL && i < lpt->_body.size(); i++) { | |
2402 Node* n = lpt->_body.at(i); | |
2403 if (n->outcnt() == 0) continue; // Ignore dead | |
2404 if (n->is_Store()) { | |
2405 if (store != NULL) { | |
2406 msg = "multiple stores"; | |
2407 break; | |
2408 } | |
2409 int opc = n->Opcode(); | |
2410 if (opc == Op_StoreP || opc == Op_StoreN || opc == Op_StoreCM) { | |
2411 msg = "oop fills not handled"; | |
2412 break; | |
2413 } | |
2414 Node* value = n->in(MemNode::ValueIn); | |
2415 if (!lpt->is_invariant(value)) { | |
2416 msg = "variant store value"; | |
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|
2417 } else if (!_igvn.type(n->in(MemNode::Address))->isa_aryptr()) { |
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|
2418 msg = "not array address"; |
1763 | 2419 } |
2420 store = n; | |
2421 store_value = value; | |
2422 } else if (n->is_If() && n != head->loopexit()) { | |
2423 msg = "extra control flow"; | |
2424 msg_node = n; | |
2425 } | |
2426 } | |
2427 | |
2428 if (store == NULL) { | |
2429 // No store in loop | |
2430 return false; | |
2431 } | |
2432 | |
2433 if (msg == NULL && head->stride_con() != 1) { | |
2434 // could handle negative strides too | |
2435 if (head->stride_con() < 0) { | |
2436 msg = "negative stride"; | |
2437 } else { | |
2438 msg = "non-unit stride"; | |
2439 } | |
2440 } | |
2441 | |
2442 if (msg == NULL && !store->in(MemNode::Address)->is_AddP()) { | |
2443 msg = "can't handle store address"; | |
2444 msg_node = store->in(MemNode::Address); | |
2445 } | |
2446 | |
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|
2447 if (msg == NULL && |
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|
2448 (!store->in(MemNode::Memory)->is_Phi() || |
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2449 store->in(MemNode::Memory)->in(LoopNode::LoopBackControl) != store)) { |
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2450 msg = "store memory isn't proper phi"; |
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|
2451 msg_node = store->in(MemNode::Memory); |
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|
2452 } |
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|
2453 |
1763 | 2454 // Make sure there is an appropriate fill routine |
2455 BasicType t = store->as_Mem()->memory_type(); | |
2456 const char* fill_name; | |
2457 if (msg == NULL && | |
2458 StubRoutines::select_fill_function(t, false, fill_name) == NULL) { | |
2459 msg = "unsupported store"; | |
2460 msg_node = store; | |
2461 } | |
2462 | |
2463 if (msg != NULL) { | |
2464 #ifndef PRODUCT | |
2465 if (TraceOptimizeFill) { | |
2466 tty->print_cr("not fill intrinsic candidate: %s", msg); | |
2467 if (msg_node != NULL) msg_node->dump(); | |
2468 } | |
2469 #endif | |
2470 return false; | |
2471 } | |
2472 | |
2473 // Make sure the address expression can be handled. It should be | |
2474 // head->phi * elsize + con. head->phi might have a ConvI2L. | |
2475 Node* elements[4]; | |
2476 Node* conv = NULL; | |
1785
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|
2477 bool found_index = false; |
1763 | 2478 int count = store->in(MemNode::Address)->as_AddP()->unpack_offsets(elements, ARRAY_SIZE(elements)); |
2479 for (int e = 0; e < count; e++) { | |
2480 Node* n = elements[e]; | |
2481 if (n->is_Con() && con == NULL) { | |
2482 con = n; | |
2483 } else if (n->Opcode() == Op_LShiftX && shift == NULL) { | |
2484 Node* value = n->in(1); | |
2485 #ifdef _LP64 | |
2486 if (value->Opcode() == Op_ConvI2L) { | |
2487 conv = value; | |
2488 value = value->in(1); | |
2489 } | |
2490 #endif | |
2491 if (value != head->phi()) { | |
2492 msg = "unhandled shift in address"; | |
2493 } else { | |
2448
8b2317d732ec
7026957: assert(type2aelembytes(store->as_Mem()->memory_type(), true) == 1 << shift->in(2)->get_int()) failed
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diff
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|
2494 if (type2aelembytes(store->as_Mem()->memory_type(), true) != (1 << n->in(2)->get_int())) { |
8b2317d732ec
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diff
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|
2495 msg = "scale doesn't match"; |
8b2317d732ec
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diff
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|
2496 } else { |
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diff
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|
2497 found_index = true; |
8b2317d732ec
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parents:
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diff
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|
2498 shift = n; |
8b2317d732ec
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diff
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|
2499 } |
1763 | 2500 } |
2501 } else if (n->Opcode() == Op_ConvI2L && conv == NULL) { | |
2502 if (n->in(1) == head->phi()) { | |
1785
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|
2503 found_index = true; |
1763 | 2504 conv = n; |
2505 } else { | |
2506 msg = "unhandled input to ConvI2L"; | |
2507 } | |
2508 } else if (n == head->phi()) { | |
2509 // no shift, check below for allowed cases | |
1785
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|
2510 found_index = true; |
1763 | 2511 } else { |
2512 msg = "unhandled node in address"; | |
2513 msg_node = n; | |
2514 } | |
2515 } | |
2516 | |
2517 if (count == -1) { | |
2518 msg = "malformed address expression"; | |
2519 msg_node = store; | |
2520 } | |
2521 | |
1785
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|
2522 if (!found_index) { |
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|
2523 msg = "missing use of index"; |
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|
2524 } |
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|
2525 |
1763 | 2526 // byte sized items won't have a shift |
2527 if (msg == NULL && shift == NULL && t != T_BYTE && t != T_BOOLEAN) { | |
2528 msg = "can't find shift"; | |
2529 msg_node = store; | |
2530 } | |
2531 | |
2532 if (msg != NULL) { | |
2533 #ifndef PRODUCT | |
2534 if (TraceOptimizeFill) { | |
2535 tty->print_cr("not fill intrinsic: %s", msg); | |
2536 if (msg_node != NULL) msg_node->dump(); | |
2537 } | |
2538 #endif | |
2539 return false; | |
2540 } | |
2541 | |
2542 // No make sure all the other nodes in the loop can be handled | |
2543 VectorSet ok(Thread::current()->resource_area()); | |
2544 | |
2545 // store related values are ok | |
2546 ok.set(store->_idx); | |
2547 ok.set(store->in(MemNode::Memory)->_idx); | |
2548 | |
2549 // Loop structure is ok | |
2550 ok.set(head->_idx); | |
2551 ok.set(head->loopexit()->_idx); | |
2552 ok.set(head->phi()->_idx); | |
2553 ok.set(head->incr()->_idx); | |
2554 ok.set(head->loopexit()->cmp_node()->_idx); | |
2555 ok.set(head->loopexit()->in(1)->_idx); | |
2556 | |
2557 // Address elements are ok | |
2558 if (con) ok.set(con->_idx); | |
2559 if (shift) ok.set(shift->_idx); | |
2560 if (conv) ok.set(conv->_idx); | |
2561 | |
2562 for (uint i = 0; msg == NULL && i < lpt->_body.size(); i++) { | |
2563 Node* n = lpt->_body.at(i); | |
2564 if (n->outcnt() == 0) continue; // Ignore dead | |
2565 if (ok.test(n->_idx)) continue; | |
2566 // Backedge projection is ok | |
2567 if (n->is_IfTrue() && n->in(0) == head->loopexit()) continue; | |
2568 if (!n->is_AddP()) { | |
2569 msg = "unhandled node"; | |
2570 msg_node = n; | |
2571 break; | |
2572 } | |
2573 } | |
2574 | |
2575 // Make sure no unexpected values are used outside the loop | |
2576 for (uint i = 0; msg == NULL && i < lpt->_body.size(); i++) { | |
2577 Node* n = lpt->_body.at(i); | |
2578 // These values can be replaced with other nodes if they are used | |
2579 // outside the loop. | |
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2580 if (n == store || n == head->loopexit() || n == head->incr() || n == store->in(MemNode::Memory)) continue; |
1763 | 2581 for (SimpleDUIterator iter(n); iter.has_next(); iter.next()) { |
2582 Node* use = iter.get(); | |
2583 if (!lpt->_body.contains(use)) { | |
2584 msg = "node is used outside loop"; | |
2585 // lpt->_body.dump(); | |
2586 msg_node = n; | |
2587 break; | |
2588 } | |
2589 } | |
2590 } | |
2591 | |
2592 #ifdef ASSERT | |
2593 if (TraceOptimizeFill) { | |
2594 if (msg != NULL) { | |
2595 tty->print_cr("no fill intrinsic: %s", msg); | |
2596 if (msg_node != NULL) msg_node->dump(); | |
2597 } else { | |
2598 tty->print_cr("fill intrinsic for:"); | |
2599 } | |
2600 store->dump(); | |
2601 if (Verbose) { | |
2602 lpt->_body.dump(); | |
2603 } | |
2604 } | |
2605 #endif | |
2606 | |
2607 return msg == NULL; | |
2608 } | |
2609 | |
2610 | |
2611 | |
2612 bool PhaseIdealLoop::intrinsify_fill(IdealLoopTree* lpt) { | |
2613 // Only for counted inner loops | |
2614 if (!lpt->is_counted() || !lpt->is_inner()) { | |
2615 return false; | |
2616 } | |
2617 | |
2618 // Must have constant stride | |
2619 CountedLoopNode* head = lpt->_head->as_CountedLoop(); | |
2620 if (!head->stride_is_con() || !head->is_normal_loop()) { | |
2621 return false; | |
2622 } | |
2623 | |
2624 // Check that the body only contains a store of a loop invariant | |
2625 // value that is indexed by the loop phi. | |
2626 Node* store = NULL; | |
2627 Node* store_value = NULL; | |
2628 Node* shift = NULL; | |
2629 Node* offset = NULL; | |
2630 if (!match_fill_loop(lpt, store, store_value, shift, offset)) { | |
2631 return false; | |
2632 } | |
2633 | |
2445 | 2634 #ifndef PRODUCT |
2635 if (TraceLoopOpts) { | |
2636 tty->print("ArrayFill "); | |
2637 lpt->dump_head(); | |
2638 } | |
2639 #endif | |
2640 | |
1763 | 2641 // Now replace the whole loop body by a call to a fill routine that |
2642 // covers the same region as the loop. | |
2643 Node* base = store->in(MemNode::Address)->as_AddP()->in(AddPNode::Base); | |
2644 | |
2645 // Build an expression for the beginning of the copy region | |
2646 Node* index = head->init_trip(); | |
2647 #ifdef _LP64 | |
2648 index = new (C, 2) ConvI2LNode(index); | |
2649 _igvn.register_new_node_with_optimizer(index); | |
2650 #endif | |
2651 if (shift != NULL) { | |
2652 // byte arrays don't require a shift but others do. | |
2653 index = new (C, 3) LShiftXNode(index, shift->in(2)); | |
2654 _igvn.register_new_node_with_optimizer(index); | |
2655 } | |
2656 index = new (C, 4) AddPNode(base, base, index); | |
2657 _igvn.register_new_node_with_optimizer(index); | |
2658 Node* from = new (C, 4) AddPNode(base, index, offset); | |
2659 _igvn.register_new_node_with_optimizer(from); | |
2660 // Compute the number of elements to copy | |
2661 Node* len = new (C, 3) SubINode(head->limit(), head->init_trip()); | |
2662 _igvn.register_new_node_with_optimizer(len); | |
2663 | |
2664 BasicType t = store->as_Mem()->memory_type(); | |
2665 bool aligned = false; | |
2666 if (offset != NULL && head->init_trip()->is_Con()) { | |
2667 int element_size = type2aelembytes(t); | |
2668 aligned = (offset->find_intptr_t_type()->get_con() + head->init_trip()->get_int() * element_size) % HeapWordSize == 0; | |
2669 } | |
2670 | |
2671 // Build a call to the fill routine | |
2672 const char* fill_name; | |
2673 address fill = StubRoutines::select_fill_function(t, aligned, fill_name); | |
2674 assert(fill != NULL, "what?"); | |
2675 | |
2676 // Convert float/double to int/long for fill routines | |
2677 if (t == T_FLOAT) { | |
2678 store_value = new (C, 2) MoveF2INode(store_value); | |
2679 _igvn.register_new_node_with_optimizer(store_value); | |
2680 } else if (t == T_DOUBLE) { | |
2681 store_value = new (C, 2) MoveD2LNode(store_value); | |
2682 _igvn.register_new_node_with_optimizer(store_value); | |
2683 } | |
2684 | |
2685 Node* mem_phi = store->in(MemNode::Memory); | |
2686 Node* result_ctrl; | |
2687 Node* result_mem; | |
2688 const TypeFunc* call_type = OptoRuntime::array_fill_Type(); | |
2689 int size = call_type->domain()->cnt(); | |
2690 CallLeafNode *call = new (C, size) CallLeafNoFPNode(call_type, fill, | |
2691 fill_name, TypeAryPtr::get_array_body_type(t)); | |
2692 call->init_req(TypeFunc::Parms+0, from); | |
2693 call->init_req(TypeFunc::Parms+1, store_value); | |
1844
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1813
diff
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|
2694 #ifdef _LP64 |
75588558f1bf
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1813
diff
changeset
|
2695 len = new (C, 2) ConvI2LNode(len); |
75588558f1bf
6980792: Crash "exception happened outside interpreter, nmethods and vtable stubs (1)"
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1813
diff
changeset
|
2696 _igvn.register_new_node_with_optimizer(len); |
75588558f1bf
6980792: Crash "exception happened outside interpreter, nmethods and vtable stubs (1)"
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1813
diff
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|
2697 #endif |
1763 | 2698 call->init_req(TypeFunc::Parms+2, len); |
1844
75588558f1bf
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1813
diff
changeset
|
2699 #ifdef _LP64 |
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diff
changeset
|
2700 call->init_req(TypeFunc::Parms+3, C->top()); |
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1813
diff
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|
2701 #endif |
1763 | 2702 call->init_req( TypeFunc::Control, head->init_control()); |
2703 call->init_req( TypeFunc::I_O , C->top() ) ; // does no i/o | |
2704 call->init_req( TypeFunc::Memory , mem_phi->in(LoopNode::EntryControl) ); | |
2705 call->init_req( TypeFunc::ReturnAdr, C->start()->proj_out(TypeFunc::ReturnAdr) ); | |
2706 call->init_req( TypeFunc::FramePtr, C->start()->proj_out(TypeFunc::FramePtr) ); | |
2707 _igvn.register_new_node_with_optimizer(call); | |
2708 result_ctrl = new (C, 1) ProjNode(call,TypeFunc::Control); | |
2709 _igvn.register_new_node_with_optimizer(result_ctrl); | |
2710 result_mem = new (C, 1) ProjNode(call,TypeFunc::Memory); | |
2711 _igvn.register_new_node_with_optimizer(result_mem); | |
2712 | |
2713 // If this fill is tightly coupled to an allocation and overwrites | |
2714 // the whole body, allow it to take over the zeroing. | |
2715 AllocateNode* alloc = AllocateNode::Ideal_allocation(base, this); | |
2716 if (alloc != NULL && alloc->is_AllocateArray()) { | |
2717 Node* length = alloc->as_AllocateArray()->Ideal_length(); | |
2718 if (head->limit() == length && | |
2719 head->init_trip() == _igvn.intcon(0)) { | |
2720 if (TraceOptimizeFill) { | |
2721 tty->print_cr("Eliminated zeroing in allocation"); | |
2722 } | |
2723 alloc->maybe_set_complete(&_igvn); | |
2724 } else { | |
2725 #ifdef ASSERT | |
2726 if (TraceOptimizeFill) { | |
2727 tty->print_cr("filling array but bounds don't match"); | |
2728 alloc->dump(); | |
2729 head->init_trip()->dump(); | |
2730 head->limit()->dump(); | |
2731 length->dump(); | |
2732 } | |
2733 #endif | |
2734 } | |
2735 } | |
2736 | |
2737 // Redirect the old control and memory edges that are outside the loop. | |
2738 Node* exit = head->loopexit()->proj_out(0); | |
1813
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|
2739 // Sometimes the memory phi of the head is used as the outgoing |
c77e8f982901
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diff
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|
2740 // state of the loop. It's safe in this case to replace it with the |
c77e8f982901
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never
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|
2741 // result_mem. |
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|
2742 _igvn.replace_node(store->in(MemNode::Memory), result_mem); |
1763 | 2743 _igvn.replace_node(exit, result_ctrl); |
2744 _igvn.replace_node(store, result_mem); | |
2745 // Any uses the increment outside of the loop become the loop limit. | |
2746 _igvn.replace_node(head->incr(), head->limit()); | |
2747 | |
2748 // Disconnect the head from the loop. | |
2749 for (uint i = 0; i < lpt->_body.size(); i++) { | |
2750 Node* n = lpt->_body.at(i); | |
2751 _igvn.replace_node(n, C->top()); | |
2752 } | |
2753 | |
2754 return true; | |
2755 } |