Mercurial > hg > truffle
annotate src/share/vm/opto/chaitin.cpp @ 14247:2e96b2d61686
8031530: [TESTBUG] Enable test runtime/LoadClass/LoadClassNegative.java
Summary: Re-enabled the test. The issue that prevents this test from running was fixed by 8020675
Reviewed-by: sla, ccheung
author | zgu |
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date | Mon, 13 Jan 2014 10:05:37 -0500 |
parents | 303c352ba1a8 |
children | abec000618bf |
rev | line source |
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0 | 1 /* |
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2 * Copyright (c) 2000, 2013, 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 "compiler/oopMap.hpp" | |
28 #include "memory/allocation.inline.hpp" | |
29 #include "opto/addnode.hpp" | |
30 #include "opto/block.hpp" | |
31 #include "opto/callnode.hpp" | |
32 #include "opto/cfgnode.hpp" | |
33 #include "opto/chaitin.hpp" | |
34 #include "opto/coalesce.hpp" | |
35 #include "opto/connode.hpp" | |
36 #include "opto/idealGraphPrinter.hpp" | |
37 #include "opto/indexSet.hpp" | |
38 #include "opto/machnode.hpp" | |
39 #include "opto/memnode.hpp" | |
40 #include "opto/opcodes.hpp" | |
41 #include "opto/rootnode.hpp" | |
0 | 42 |
43 #ifndef PRODUCT | |
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44 void LRG::dump() const { |
0 | 45 ttyLocker ttyl; |
46 tty->print("%d ",num_regs()); | |
47 _mask.dump(); | |
48 if( _msize_valid ) { | |
49 if( mask_size() == compute_mask_size() ) tty->print(", #%d ",_mask_size); | |
50 else tty->print(", #!!!_%d_vs_%d ",_mask_size,_mask.Size()); | |
51 } else { | |
52 tty->print(", #?(%d) ",_mask.Size()); | |
53 } | |
54 | |
55 tty->print("EffDeg: "); | |
56 if( _degree_valid ) tty->print( "%d ", _eff_degree ); | |
57 else tty->print("? "); | |
58 | |
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59 if( is_multidef() ) { |
0 | 60 tty->print("MultiDef "); |
61 if (_defs != NULL) { | |
62 tty->print("("); | |
63 for (int i = 0; i < _defs->length(); i++) { | |
64 tty->print("N%d ", _defs->at(i)->_idx); | |
65 } | |
66 tty->print(") "); | |
67 } | |
68 } | |
69 else if( _def == 0 ) tty->print("Dead "); | |
70 else tty->print("Def: N%d ",_def->_idx); | |
71 | |
72 tty->print("Cost:%4.2g Area:%4.2g Score:%4.2g ",_cost,_area, score()); | |
73 // Flags | |
74 if( _is_oop ) tty->print("Oop "); | |
75 if( _is_float ) tty->print("Float "); | |
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76 if( _is_vector ) tty->print("Vector "); |
0 | 77 if( _was_spilled1 ) tty->print("Spilled "); |
78 if( _was_spilled2 ) tty->print("Spilled2 "); | |
79 if( _direct_conflict ) tty->print("Direct_conflict "); | |
80 if( _fat_proj ) tty->print("Fat "); | |
81 if( _was_lo ) tty->print("Lo "); | |
82 if( _has_copy ) tty->print("Copy "); | |
83 if( _at_risk ) tty->print("Risk "); | |
84 | |
85 if( _must_spill ) tty->print("Must_spill "); | |
86 if( _is_bound ) tty->print("Bound "); | |
87 if( _msize_valid ) { | |
88 if( _degree_valid && lo_degree() ) tty->print("Trivial "); | |
89 } | |
90 | |
91 tty->cr(); | |
92 } | |
93 #endif | |
94 | |
95 // Compute score from cost and area. Low score is best to spill. | |
96 static double raw_score( double cost, double area ) { | |
97 return cost - (area*RegisterCostAreaRatio) * 1.52588e-5; | |
98 } | |
99 | |
100 double LRG::score() const { | |
101 // Scale _area by RegisterCostAreaRatio/64K then subtract from cost. | |
102 // Bigger area lowers score, encourages spilling this live range. | |
103 // Bigger cost raise score, prevents spilling this live range. | |
104 // (Note: 1/65536 is the magic constant below; I dont trust the C optimizer | |
105 // to turn a divide by a constant into a multiply by the reciprical). | |
106 double score = raw_score( _cost, _area); | |
107 | |
108 // Account for area. Basically, LRGs covering large areas are better | |
109 // to spill because more other LRGs get freed up. | |
110 if( _area == 0.0 ) // No area? Then no progress to spill | |
111 return 1e35; | |
112 | |
113 if( _was_spilled2 ) // If spilled once before, we are unlikely | |
114 return score + 1e30; // to make progress again. | |
115 | |
116 if( _cost >= _area*3.0 ) // Tiny area relative to cost | |
117 return score + 1e17; // Probably no progress to spill | |
118 | |
119 if( (_cost+_cost) >= _area*3.0 ) // Small area relative to cost | |
120 return score + 1e10; // Likely no progress to spill | |
121 | |
122 return score; | |
123 } | |
124 | |
125 #define NUMBUCKS 3 | |
126 | |
10111 | 127 // Straight out of Tarjan's union-find algorithm |
128 uint LiveRangeMap::find_compress(uint lrg) { | |
129 uint cur = lrg; | |
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130 uint next = _uf_map.at(cur); |
10111 | 131 while (next != cur) { // Scan chain of equivalences |
132 assert( next < cur, "always union smaller"); | |
133 cur = next; // until find a fixed-point | |
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134 next = _uf_map.at(cur); |
10111 | 135 } |
136 | |
137 // Core of union-find algorithm: update chain of | |
138 // equivalences to be equal to the root. | |
139 while (lrg != next) { | |
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140 uint tmp = _uf_map.at(lrg); |
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141 _uf_map.at_put(lrg, next); |
10111 | 142 lrg = tmp; |
143 } | |
144 return lrg; | |
145 } | |
146 | |
147 // Reset the Union-Find map to identity | |
148 void LiveRangeMap::reset_uf_map(uint max_lrg_id) { | |
149 _max_lrg_id= max_lrg_id; | |
150 // Force the Union-Find mapping to be at least this large | |
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151 _uf_map.at_put_grow(_max_lrg_id, 0); |
10111 | 152 // Initialize it to be the ID mapping. |
153 for (uint i = 0; i < _max_lrg_id; ++i) { | |
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154 _uf_map.at_put(i, i); |
10111 | 155 } |
156 } | |
157 | |
158 // Make all Nodes map directly to their final live range; no need for | |
159 // the Union-Find mapping after this call. | |
160 void LiveRangeMap::compress_uf_map_for_nodes() { | |
161 // For all Nodes, compress mapping | |
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162 uint unique = _names.length(); |
10111 | 163 for (uint i = 0; i < unique; ++i) { |
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164 uint lrg = _names.at(i); |
10111 | 165 uint compressed_lrg = find(lrg); |
166 if (lrg != compressed_lrg) { | |
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167 _names.at_put(i, compressed_lrg); |
10111 | 168 } |
169 } | |
170 } | |
171 | |
172 // Like Find above, but no path compress, so bad asymptotic behavior | |
173 uint LiveRangeMap::find_const(uint lrg) const { | |
174 if (!lrg) { | |
175 return lrg; // Ignore the zero LRG | |
176 } | |
177 | |
178 // Off the end? This happens during debugging dumps when you got | |
179 // brand new live ranges but have not told the allocator yet. | |
180 if (lrg >= _max_lrg_id) { | |
181 return lrg; | |
182 } | |
183 | |
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184 uint next = _uf_map.at(lrg); |
10111 | 185 while (next != lrg) { // Scan chain of equivalences |
186 assert(next < lrg, "always union smaller"); | |
187 lrg = next; // until find a fixed-point | |
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188 next = _uf_map.at(lrg); |
10111 | 189 } |
190 return next; | |
191 } | |
192 | |
0 | 193 PhaseChaitin::PhaseChaitin(uint unique, PhaseCFG &cfg, Matcher &matcher) |
194 : PhaseRegAlloc(unique, cfg, matcher, | |
195 #ifndef PRODUCT | |
196 print_chaitin_statistics | |
197 #else | |
198 NULL | |
199 #endif | |
10111 | 200 ) |
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201 , _lrg_map(Thread::current()->resource_area(), unique) |
10111 | 202 , _live(0) |
203 , _spilled_once(Thread::current()->resource_area()) | |
204 , _spilled_twice(Thread::current()->resource_area()) | |
205 , _lo_degree(0), _lo_stk_degree(0), _hi_degree(0), _simplified(0) | |
206 , _oldphi(unique) | |
0 | 207 #ifndef PRODUCT |
208 , _trace_spilling(TraceSpilling || C->method_has_option("TraceSpilling")) | |
209 #endif | |
210 { | |
211 NOT_PRODUCT( Compile::TracePhase t3("ctorChaitin", &_t_ctorChaitin, TimeCompiler); ) | |
673 | 212 |
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213 _high_frequency_lrg = MIN2(float(OPTO_LRG_HIGH_FREQ), _cfg.get_outer_loop_frequency()); |
673 | 214 |
0 | 215 // Build a list of basic blocks, sorted by frequency |
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216 _blks = NEW_RESOURCE_ARRAY(Block *, _cfg.number_of_blocks()); |
0 | 217 // Experiment with sorting strategies to speed compilation |
218 double cutoff = BLOCK_FREQUENCY(1.0); // Cutoff for high frequency bucket | |
219 Block **buckets[NUMBUCKS]; // Array of buckets | |
220 uint buckcnt[NUMBUCKS]; // Array of bucket counters | |
221 double buckval[NUMBUCKS]; // Array of bucket value cutoffs | |
10111 | 222 for (uint i = 0; i < NUMBUCKS; i++) { |
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223 buckets[i] = NEW_RESOURCE_ARRAY(Block *, _cfg.number_of_blocks()); |
0 | 224 buckcnt[i] = 0; |
225 // Bump by three orders of magnitude each time | |
226 cutoff *= 0.001; | |
227 buckval[i] = cutoff; | |
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228 for (uint j = 0; j < _cfg.number_of_blocks(); j++) { |
0 | 229 buckets[i][j] = NULL; |
230 } | |
231 } | |
232 // Sort blocks into buckets | |
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233 for (uint i = 0; i < _cfg.number_of_blocks(); i++) { |
10111 | 234 for (uint j = 0; j < NUMBUCKS; j++) { |
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235 if ((j == NUMBUCKS - 1) || (_cfg.get_block(i)->_freq > buckval[j])) { |
0 | 236 // Assign block to end of list for appropriate bucket |
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237 buckets[j][buckcnt[j]++] = _cfg.get_block(i); |
10111 | 238 break; // kick out of inner loop |
0 | 239 } |
240 } | |
241 } | |
242 // Dump buckets into final block array | |
243 uint blkcnt = 0; | |
10111 | 244 for (uint i = 0; i < NUMBUCKS; i++) { |
245 for (uint j = 0; j < buckcnt[i]; j++) { | |
0 | 246 _blks[blkcnt++] = buckets[i][j]; |
247 } | |
248 } | |
249 | |
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250 assert(blkcnt == _cfg.number_of_blocks(), "Block array not totally filled"); |
0 | 251 } |
252 | |
10111 | 253 // union 2 sets together. |
254 void PhaseChaitin::Union( const Node *src_n, const Node *dst_n ) { | |
255 uint src = _lrg_map.find(src_n); | |
256 uint dst = _lrg_map.find(dst_n); | |
257 assert(src, ""); | |
258 assert(dst, ""); | |
259 assert(src < _lrg_map.max_lrg_id(), "oob"); | |
260 assert(dst < _lrg_map.max_lrg_id(), "oob"); | |
261 assert(src < dst, "always union smaller"); | |
262 _lrg_map.uf_map(dst, src); | |
263 } | |
264 | |
265 void PhaseChaitin::new_lrg(const Node *x, uint lrg) { | |
266 // Make the Node->LRG mapping | |
267 _lrg_map.extend(x->_idx,lrg); | |
268 // Make the Union-Find mapping an identity function | |
269 _lrg_map.uf_extend(lrg, lrg); | |
270 } | |
271 | |
272 | |
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273 int PhaseChaitin::clone_projs(Block* b, uint idx, Node* orig, Node* copy, uint& max_lrg_id) { |
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274 assert(b->find_node(copy) == (idx - 1), "incorrect insert index for copy kill projections"); |
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275 DEBUG_ONLY( Block* borig = _cfg.get_block_for_node(orig); ) |
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276 int found_projs = 0; |
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277 uint cnt = orig->outcnt(); |
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278 for (uint i = 0; i < cnt; i++) { |
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279 Node* proj = orig->raw_out(i); |
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280 if (proj->is_MachProj()) { |
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281 assert(proj->outcnt() == 0, "only kill projections are expected here"); |
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282 assert(_cfg.get_block_for_node(proj) == borig, "incorrect block for kill projections"); |
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283 found_projs++; |
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284 // Copy kill projections after the cloned node |
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285 Node* kills = proj->clone(); |
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286 kills->set_req(0, copy); |
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287 b->insert_node(kills, idx++); |
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288 _cfg.map_node_to_block(kills, b); |
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289 new_lrg(kills, max_lrg_id++); |
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290 } |
10111 | 291 } |
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292 return found_projs; |
10111 | 293 } |
294 | |
295 // Renumber the live ranges to compact them. Makes the IFG smaller. | |
296 void PhaseChaitin::compact() { | |
297 // Current the _uf_map contains a series of short chains which are headed | |
298 // by a self-cycle. All the chains run from big numbers to little numbers. | |
299 // The Find() call chases the chains & shortens them for the next Find call. | |
300 // We are going to change this structure slightly. Numbers above a moving | |
301 // wave 'i' are unchanged. Numbers below 'j' point directly to their | |
302 // compacted live range with no further chaining. There are no chains or | |
303 // cycles below 'i', so the Find call no longer works. | |
304 uint j=1; | |
305 uint i; | |
306 for (i = 1; i < _lrg_map.max_lrg_id(); i++) { | |
307 uint lr = _lrg_map.uf_live_range_id(i); | |
308 // Ignore unallocated live ranges | |
309 if (!lr) { | |
310 continue; | |
311 } | |
312 assert(lr <= i, ""); | |
313 _lrg_map.uf_map(i, ( lr == i ) ? j++ : _lrg_map.uf_live_range_id(lr)); | |
314 } | |
315 // Now change the Node->LR mapping to reflect the compacted names | |
316 uint unique = _lrg_map.size(); | |
317 for (i = 0; i < unique; i++) { | |
318 uint lrg_id = _lrg_map.live_range_id(i); | |
319 _lrg_map.map(i, _lrg_map.uf_live_range_id(lrg_id)); | |
320 } | |
321 | |
322 // Reset the Union-Find mapping | |
323 _lrg_map.reset_uf_map(j); | |
324 } | |
325 | |
0 | 326 void PhaseChaitin::Register_Allocate() { |
327 | |
328 // Above the OLD FP (and in registers) are the incoming arguments. Stack | |
329 // slots in this area are called "arg_slots". Above the NEW FP (and in | |
330 // registers) is the outgoing argument area; above that is the spill/temp | |
331 // area. These are all "frame_slots". Arg_slots start at the zero | |
332 // stack_slots and count up to the known arg_size. Frame_slots start at | |
333 // the stack_slot #arg_size and go up. After allocation I map stack | |
334 // slots to actual offsets. Stack-slots in the arg_slot area are biased | |
335 // by the frame_size; stack-slots in the frame_slot area are biased by 0. | |
336 | |
337 _trip_cnt = 0; | |
338 _alternate = 0; | |
339 _matcher._allocation_started = true; | |
340 | |
6632 | 341 ResourceArea split_arena; // Arena for Split local resources |
0 | 342 ResourceArea live_arena; // Arena for liveness & IFG info |
343 ResourceMark rm(&live_arena); | |
344 | |
345 // Need live-ness for the IFG; need the IFG for coalescing. If the | |
346 // liveness is JUST for coalescing, then I can get some mileage by renaming | |
347 // all copy-related live ranges low and then using the max copy-related | |
348 // live range as a cut-off for LIVE and the IFG. In other words, I can | |
349 // build a subset of LIVE and IFG just for copies. | |
10111 | 350 PhaseLive live(_cfg, _lrg_map.names(), &live_arena); |
0 | 351 |
352 // Need IFG for coalescing and coloring | |
10111 | 353 PhaseIFG ifg(&live_arena); |
0 | 354 _ifg = &ifg; |
355 | |
356 // Come out of SSA world to the Named world. Assign (virtual) registers to | |
357 // Nodes. Use the same register for all inputs and the output of PhiNodes | |
358 // - effectively ending SSA form. This requires either coalescing live | |
359 // ranges or inserting copies. For the moment, we insert "virtual copies" | |
360 // - we pretend there is a copy prior to each Phi in predecessor blocks. | |
361 // We will attempt to coalesce such "virtual copies" before we manifest | |
362 // them for real. | |
363 de_ssa(); | |
364 | |
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365 #ifdef ASSERT |
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366 // Veify the graph before RA. |
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367 verify(&live_arena); |
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368 #endif |
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369 |
0 | 370 { |
371 NOT_PRODUCT( Compile::TracePhase t3("computeLive", &_t_computeLive, TimeCompiler); ) | |
372 _live = NULL; // Mark live as being not available | |
373 rm.reset_to_mark(); // Reclaim working storage | |
374 IndexSet::reset_memory(C, &live_arena); | |
10111 | 375 ifg.init(_lrg_map.max_lrg_id()); // Empty IFG |
0 | 376 gather_lrg_masks( false ); // Collect LRG masks |
10111 | 377 live.compute(_lrg_map.max_lrg_id()); // Compute liveness |
0 | 378 _live = &live; // Mark LIVE as being available |
379 } | |
380 | |
381 // Base pointers are currently "used" by instructions which define new | |
382 // derived pointers. This makes base pointers live up to the where the | |
383 // derived pointer is made, but not beyond. Really, they need to be live | |
384 // across any GC point where the derived value is live. So this code looks | |
385 // at all the GC points, and "stretches" the live range of any base pointer | |
386 // to the GC point. | |
10111 | 387 if (stretch_base_pointer_live_ranges(&live_arena)) { |
388 NOT_PRODUCT(Compile::TracePhase t3("computeLive (sbplr)", &_t_computeLive, TimeCompiler);) | |
0 | 389 // Since some live range stretched, I need to recompute live |
390 _live = NULL; | |
391 rm.reset_to_mark(); // Reclaim working storage | |
392 IndexSet::reset_memory(C, &live_arena); | |
10111 | 393 ifg.init(_lrg_map.max_lrg_id()); |
394 gather_lrg_masks(false); | |
395 live.compute(_lrg_map.max_lrg_id()); | |
0 | 396 _live = &live; |
397 } | |
398 // Create the interference graph using virtual copies | |
10111 | 399 build_ifg_virtual(); // Include stack slots this time |
0 | 400 |
401 // Aggressive (but pessimistic) copy coalescing. | |
402 // This pass works on virtual copies. Any virtual copies which are not | |
403 // coalesced get manifested as actual copies | |
404 { | |
405 // The IFG is/was triangular. I am 'squaring it up' so Union can run | |
406 // faster. Union requires a 'for all' operation which is slow on the | |
407 // triangular adjacency matrix (quick reminder: the IFG is 'sparse' - | |
408 // meaning I can visit all the Nodes neighbors less than a Node in time | |
409 // O(# of neighbors), but I have to visit all the Nodes greater than a | |
410 // given Node and search them for an instance, i.e., time O(#MaxLRG)). | |
411 _ifg->SquareUp(); | |
412 | |
10111 | 413 PhaseAggressiveCoalesce coalesce(*this); |
414 coalesce.coalesce_driver(); | |
0 | 415 // Insert un-coalesced copies. Visit all Phis. Where inputs to a Phi do |
416 // not match the Phi itself, insert a copy. | |
417 coalesce.insert_copies(_matcher); | |
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418 if (C->failing()) { |
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419 return; |
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420 } |
0 | 421 } |
422 | |
423 // After aggressive coalesce, attempt a first cut at coloring. | |
424 // To color, we need the IFG and for that we need LIVE. | |
425 { | |
426 NOT_PRODUCT( Compile::TracePhase t3("computeLive", &_t_computeLive, TimeCompiler); ) | |
427 _live = NULL; | |
428 rm.reset_to_mark(); // Reclaim working storage | |
429 IndexSet::reset_memory(C, &live_arena); | |
10111 | 430 ifg.init(_lrg_map.max_lrg_id()); |
0 | 431 gather_lrg_masks( true ); |
10111 | 432 live.compute(_lrg_map.max_lrg_id()); |
0 | 433 _live = &live; |
434 } | |
435 | |
436 // Build physical interference graph | |
437 uint must_spill = 0; | |
10111 | 438 must_spill = build_ifg_physical(&live_arena); |
0 | 439 // If we have a guaranteed spill, might as well spill now |
10111 | 440 if (must_spill) { |
441 if(!_lrg_map.max_lrg_id()) { | |
442 return; | |
443 } | |
0 | 444 // Bail out if unique gets too large (ie - unique > MaxNodeLimit) |
445 C->check_node_count(10*must_spill, "out of nodes before split"); | |
10111 | 446 if (C->failing()) { |
447 return; | |
448 } | |
449 | |
450 uint new_max_lrg_id = Split(_lrg_map.max_lrg_id(), &split_arena); // Split spilling LRG everywhere | |
451 _lrg_map.set_max_lrg_id(new_max_lrg_id); | |
0 | 452 // Bail out if unique gets too large (ie - unique > MaxNodeLimit - 2*NodeLimitFudgeFactor) |
453 // or we failed to split | |
454 C->check_node_count(2*NodeLimitFudgeFactor, "out of nodes after physical split"); | |
10111 | 455 if (C->failing()) { |
456 return; | |
457 } | |
0 | 458 |
10111 | 459 NOT_PRODUCT(C->verify_graph_edges();) |
0 | 460 |
461 compact(); // Compact LRGs; return new lower max lrg | |
462 | |
463 { | |
464 NOT_PRODUCT( Compile::TracePhase t3("computeLive", &_t_computeLive, TimeCompiler); ) | |
465 _live = NULL; | |
466 rm.reset_to_mark(); // Reclaim working storage | |
467 IndexSet::reset_memory(C, &live_arena); | |
10111 | 468 ifg.init(_lrg_map.max_lrg_id()); // Build a new interference graph |
0 | 469 gather_lrg_masks( true ); // Collect intersect mask |
10111 | 470 live.compute(_lrg_map.max_lrg_id()); // Compute LIVE |
0 | 471 _live = &live; |
472 } | |
10111 | 473 build_ifg_physical(&live_arena); |
0 | 474 _ifg->SquareUp(); |
475 _ifg->Compute_Effective_Degree(); | |
476 // Only do conservative coalescing if requested | |
10111 | 477 if (OptoCoalesce) { |
0 | 478 // Conservative (and pessimistic) copy coalescing of those spills |
10111 | 479 PhaseConservativeCoalesce coalesce(*this); |
0 | 480 // If max live ranges greater than cutoff, don't color the stack. |
481 // This cutoff can be larger than below since it is only done once. | |
10111 | 482 coalesce.coalesce_driver(); |
0 | 483 } |
10111 | 484 _lrg_map.compress_uf_map_for_nodes(); |
0 | 485 |
486 #ifdef ASSERT | |
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487 verify(&live_arena, true); |
0 | 488 #endif |
489 } else { | |
490 ifg.SquareUp(); | |
491 ifg.Compute_Effective_Degree(); | |
492 #ifdef ASSERT | |
493 set_was_low(); | |
494 #endif | |
495 } | |
496 | |
497 // Prepare for Simplify & Select | |
498 cache_lrg_info(); // Count degree of LRGs | |
499 | |
500 // Simplify the InterFerence Graph by removing LRGs of low degree. | |
501 // LRGs of low degree are trivially colorable. | |
502 Simplify(); | |
503 | |
504 // Select colors by re-inserting LRGs back into the IFG in reverse order. | |
505 // Return whether or not something spills. | |
506 uint spills = Select( ); | |
507 | |
508 // If we spill, split and recycle the entire thing | |
509 while( spills ) { | |
510 if( _trip_cnt++ > 24 ) { | |
511 DEBUG_ONLY( dump_for_spill_split_recycle(); ) | |
512 if( _trip_cnt > 27 ) { | |
513 C->record_method_not_compilable("failed spill-split-recycle sanity check"); | |
514 return; | |
515 } | |
516 } | |
517 | |
10111 | 518 if (!_lrg_map.max_lrg_id()) { |
519 return; | |
520 } | |
521 uint new_max_lrg_id = Split(_lrg_map.max_lrg_id(), &split_arena); // Split spilling LRG everywhere | |
522 _lrg_map.set_max_lrg_id(new_max_lrg_id); | |
0 | 523 // Bail out if unique gets too large (ie - unique > MaxNodeLimit - 2*NodeLimitFudgeFactor) |
10111 | 524 C->check_node_count(2 * NodeLimitFudgeFactor, "out of nodes after split"); |
525 if (C->failing()) { | |
526 return; | |
527 } | |
0 | 528 |
10111 | 529 compact(); // Compact LRGs; return new lower max lrg |
0 | 530 |
531 // Nuke the live-ness and interference graph and LiveRanGe info | |
532 { | |
533 NOT_PRODUCT( Compile::TracePhase t3("computeLive", &_t_computeLive, TimeCompiler); ) | |
534 _live = NULL; | |
535 rm.reset_to_mark(); // Reclaim working storage | |
536 IndexSet::reset_memory(C, &live_arena); | |
10111 | 537 ifg.init(_lrg_map.max_lrg_id()); |
0 | 538 |
539 // Create LiveRanGe array. | |
540 // Intersect register masks for all USEs and DEFs | |
10111 | 541 gather_lrg_masks(true); |
542 live.compute(_lrg_map.max_lrg_id()); | |
0 | 543 _live = &live; |
544 } | |
10111 | 545 must_spill = build_ifg_physical(&live_arena); |
0 | 546 _ifg->SquareUp(); |
547 _ifg->Compute_Effective_Degree(); | |
548 | |
549 // Only do conservative coalescing if requested | |
10111 | 550 if (OptoCoalesce) { |
0 | 551 // Conservative (and pessimistic) copy coalescing |
10111 | 552 PhaseConservativeCoalesce coalesce(*this); |
0 | 553 // Check for few live ranges determines how aggressive coalesce is. |
10111 | 554 coalesce.coalesce_driver(); |
0 | 555 } |
10111 | 556 _lrg_map.compress_uf_map_for_nodes(); |
0 | 557 #ifdef ASSERT |
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558 verify(&live_arena, true); |
0 | 559 #endif |
560 cache_lrg_info(); // Count degree of LRGs | |
561 | |
562 // Simplify the InterFerence Graph by removing LRGs of low degree. | |
563 // LRGs of low degree are trivially colorable. | |
564 Simplify(); | |
565 | |
566 // Select colors by re-inserting LRGs back into the IFG in reverse order. | |
567 // Return whether or not something spills. | |
10111 | 568 spills = Select(); |
0 | 569 } |
570 | |
571 // Count number of Simplify-Select trips per coloring success. | |
572 _allocator_attempts += _trip_cnt + 1; | |
573 _allocator_successes += 1; | |
574 | |
575 // Peephole remove copies | |
576 post_allocate_copy_removal(); | |
577 | |
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578 #ifdef ASSERT |
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579 // Veify the graph after RA. |
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580 verify(&live_arena); |
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581 #endif |
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582 |
0 | 583 // max_reg is past the largest *register* used. |
584 // Convert that to a frame_slot number. | |
10111 | 585 if (_max_reg <= _matcher._new_SP) { |
0 | 586 _framesize = C->out_preserve_stack_slots(); |
10111 | 587 } |
588 else { | |
589 _framesize = _max_reg -_matcher._new_SP; | |
590 } | |
0 | 591 assert((int)(_matcher._new_SP+_framesize) >= (int)_matcher._out_arg_limit, "framesize must be large enough"); |
592 | |
593 // This frame must preserve the required fp alignment | |
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594 _framesize = round_to(_framesize, Matcher::stack_alignment_in_slots()); |
0 | 595 assert( _framesize >= 0 && _framesize <= 1000000, "sanity check" ); |
596 #ifndef PRODUCT | |
597 _total_framesize += _framesize; | |
10111 | 598 if ((int)_framesize > _max_framesize) { |
0 | 599 _max_framesize = _framesize; |
10111 | 600 } |
0 | 601 #endif |
602 | |
603 // Convert CISC spills | |
604 fixup_spills(); | |
605 | |
606 // Log regalloc results | |
607 CompileLog* log = Compile::current()->log(); | |
608 if (log != NULL) { | |
609 log->elem("regalloc attempts='%d' success='%d'", _trip_cnt, !C->failing()); | |
610 } | |
611 | |
10111 | 612 if (C->failing()) { |
613 return; | |
614 } | |
0 | 615 |
10111 | 616 NOT_PRODUCT(C->verify_graph_edges();) |
0 | 617 |
618 // Move important info out of the live_arena to longer lasting storage. | |
10111 | 619 alloc_node_regs(_lrg_map.size()); |
620 for (uint i=0; i < _lrg_map.size(); i++) { | |
621 if (_lrg_map.live_range_id(i)) { // Live range associated with Node? | |
622 LRG &lrg = lrgs(_lrg_map.live_range_id(i)); | |
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623 if (!lrg.alive()) { |
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624 set_bad(i); |
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625 } else if (lrg.num_regs() == 1) { |
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626 set1(i, lrg.reg()); |
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627 } else { // Must be a register-set |
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628 if (!lrg._fat_proj) { // Must be aligned adjacent register set |
0 | 629 // Live ranges record the highest register in their mask. |
630 // We want the low register for the AD file writer's convenience. | |
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631 OptoReg::Name hi = lrg.reg(); // Get hi register |
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632 OptoReg::Name lo = OptoReg::add(hi, (1-lrg.num_regs())); // Find lo |
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633 // We have to use pair [lo,lo+1] even for wide vectors because |
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634 // the rest of code generation works only with pairs. It is safe |
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635 // since for registers encoding only 'lo' is used. |
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636 // Second reg from pair is used in ScheduleAndBundle on SPARC where |
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637 // vector max size is 8 which corresponds to registers pair. |
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638 // It is also used in BuildOopMaps but oop operations are not |
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639 // vectorized. |
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640 set2(i, lo); |
0 | 641 } else { // Misaligned; extract 2 bits |
642 OptoReg::Name hi = lrg.reg(); // Get hi register | |
643 lrg.Remove(hi); // Yank from mask | |
644 int lo = lrg.mask().find_first_elem(); // Find lo | |
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645 set_pair(i, hi, lo); |
0 | 646 } |
647 } | |
648 if( lrg._is_oop ) _node_oops.set(i); | |
649 } else { | |
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650 set_bad(i); |
0 | 651 } |
652 } | |
653 | |
654 // Done! | |
655 _live = NULL; | |
656 _ifg = NULL; | |
657 C->set_indexSet_arena(NULL); // ResourceArea is at end of scope | |
658 } | |
659 | |
660 void PhaseChaitin::de_ssa() { | |
661 // Set initial Names for all Nodes. Most Nodes get the virtual register | |
662 // number. A few get the ZERO live range number. These do not | |
663 // get allocated, but instead rely on correct scheduling to ensure that | |
664 // only one instance is simultaneously live at a time. | |
665 uint lr_counter = 1; | |
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666 for( uint i = 0; i < _cfg.number_of_blocks(); i++ ) { |
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667 Block* block = _cfg.get_block(i); |
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668 uint cnt = block->number_of_nodes(); |
0 | 669 |
670 // Handle all the normal Nodes in the block | |
671 for( uint j = 0; j < cnt; j++ ) { | |
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672 Node *n = block->get_node(j); |
0 | 673 // Pre-color to the zero live range, or pick virtual register |
674 const RegMask &rm = n->out_RegMask(); | |
10111 | 675 _lrg_map.map(n->_idx, rm.is_NotEmpty() ? lr_counter++ : 0); |
0 | 676 } |
677 } | |
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678 |
0 | 679 // Reset the Union-Find mapping to be identity |
10111 | 680 _lrg_map.reset_uf_map(lr_counter); |
0 | 681 } |
682 | |
683 | |
684 // Gather LiveRanGe information, including register masks. Modification of | |
685 // cisc spillable in_RegMasks should not be done before AggressiveCoalesce. | |
686 void PhaseChaitin::gather_lrg_masks( bool after_aggressive ) { | |
687 | |
688 // Nail down the frame pointer live range | |
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689 uint fp_lrg = _lrg_map.live_range_id(_cfg.get_root_node()->in(1)->in(TypeFunc::FramePtr)); |
0 | 690 lrgs(fp_lrg)._cost += 1e12; // Cost is infinite |
691 | |
692 // For all blocks | |
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693 for (uint i = 0; i < _cfg.number_of_blocks(); i++) { |
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694 Block* block = _cfg.get_block(i); |
0 | 695 |
696 // For all instructions | |
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697 for (uint j = 1; j < block->number_of_nodes(); j++) { |
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698 Node* n = block->get_node(j); |
0 | 699 uint input_edge_start =1; // Skip control most nodes |
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700 if (n->is_Mach()) { |
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701 input_edge_start = n->as_Mach()->oper_input_base(); |
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702 } |
0 | 703 uint idx = n->is_Copy(); |
704 | |
705 // Get virtual register number, same as LiveRanGe index | |
10111 | 706 uint vreg = _lrg_map.live_range_id(n); |
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707 LRG& lrg = lrgs(vreg); |
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708 if (vreg) { // No vreg means un-allocable (e.g. memory) |
0 | 709 |
710 // Collect has-copy bit | |
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711 if (idx) { |
0 | 712 lrg._has_copy = 1; |
10111 | 713 uint clidx = _lrg_map.live_range_id(n->in(idx)); |
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714 LRG& copy_src = lrgs(clidx); |
0 | 715 copy_src._has_copy = 1; |
716 } | |
717 | |
718 // Check for float-vs-int live range (used in register-pressure | |
719 // calculations) | |
720 const Type *n_type = n->bottom_type(); | |
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721 if (n_type->is_floatingpoint()) { |
0 | 722 lrg._is_float = 1; |
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723 } |
0 | 724 |
725 // Check for twice prior spilling. Once prior spilling might have | |
726 // spilled 'soft', 2nd prior spill should have spilled 'hard' and | |
727 // further spilling is unlikely to make progress. | |
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728 if (_spilled_once.test(n->_idx)) { |
0 | 729 lrg._was_spilled1 = 1; |
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730 if (_spilled_twice.test(n->_idx)) { |
0 | 731 lrg._was_spilled2 = 1; |
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732 } |
0 | 733 } |
734 | |
735 #ifndef PRODUCT | |
736 if (trace_spilling() && lrg._def != NULL) { | |
737 // collect defs for MultiDef printing | |
738 if (lrg._defs == NULL) { | |
1685 | 739 lrg._defs = new (_ifg->_arena) GrowableArray<Node*>(_ifg->_arena, 2, 0, NULL); |
0 | 740 lrg._defs->append(lrg._def); |
741 } | |
742 lrg._defs->append(n); | |
743 } | |
744 #endif | |
745 | |
746 // Check for a single def LRG; these can spill nicely | |
747 // via rematerialization. Flag as NULL for no def found | |
748 // yet, or 'n' for single def or -1 for many defs. | |
749 lrg._def = lrg._def ? NodeSentinel : n; | |
750 | |
751 // Limit result register mask to acceptable registers | |
752 const RegMask &rm = n->out_RegMask(); | |
753 lrg.AND( rm ); | |
754 | |
755 int ireg = n->ideal_reg(); | |
756 assert( !n->bottom_type()->isa_oop_ptr() || ireg == Op_RegP, | |
757 "oops must be in Op_RegP's" ); | |
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758 |
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759 // Check for vector live range (only if vector register is used). |
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760 // On SPARC vector uses RegD which could be misaligned so it is not |
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761 // processes as vector in RA. |
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762 if (RegMask::is_vector(ireg)) |
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763 lrg._is_vector = 1; |
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764 assert(n_type->isa_vect() == NULL || lrg._is_vector || ireg == Op_RegD, |
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765 "vector must be in vector registers"); |
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766 |
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767 // Check for bound register masks |
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768 const RegMask &lrgmask = lrg.mask(); |
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769 if (lrgmask.is_bound(ireg)) { |
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770 lrg._is_bound = 1; |
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771 } |
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772 |
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773 // Check for maximum frequency value |
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774 if (lrg._maxfreq < block->_freq) { |
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775 lrg._maxfreq = block->_freq; |
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776 } |
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777 |
0 | 778 // Check for oop-iness, or long/double |
779 // Check for multi-kill projection | |
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780 switch (ireg) { |
0 | 781 case MachProjNode::fat_proj: |
782 // Fat projections have size equal to number of registers killed | |
783 lrg.set_num_regs(rm.Size()); | |
784 lrg.set_reg_pressure(lrg.num_regs()); | |
785 lrg._fat_proj = 1; | |
786 lrg._is_bound = 1; | |
787 break; | |
788 case Op_RegP: | |
789 #ifdef _LP64 | |
790 lrg.set_num_regs(2); // Size is 2 stack words | |
791 #else | |
792 lrg.set_num_regs(1); // Size is 1 stack word | |
793 #endif | |
794 // Register pressure is tracked relative to the maximum values | |
795 // suggested for that platform, INTPRESSURE and FLOATPRESSURE, | |
796 // and relative to other types which compete for the same regs. | |
797 // | |
798 // The following table contains suggested values based on the | |
799 // architectures as defined in each .ad file. | |
800 // INTPRESSURE and FLOATPRESSURE may be tuned differently for | |
801 // compile-speed or performance. | |
802 // Note1: | |
803 // SPARC and SPARCV9 reg_pressures are at 2 instead of 1 | |
804 // since .ad registers are defined as high and low halves. | |
805 // These reg_pressure values remain compatible with the code | |
806 // in is_high_pressure() which relates get_invalid_mask_size(), | |
807 // Block::_reg_pressure and INTPRESSURE, FLOATPRESSURE. | |
808 // Note2: | |
809 // SPARC -d32 has 24 registers available for integral values, | |
810 // but only 10 of these are safe for 64-bit longs. | |
811 // Using set_reg_pressure(2) for both int and long means | |
812 // the allocator will believe it can fit 26 longs into | |
813 // registers. Using 2 for longs and 1 for ints means the | |
814 // allocator will attempt to put 52 integers into registers. | |
815 // The settings below limit this problem to methods with | |
816 // many long values which are being run on 32-bit SPARC. | |
817 // | |
818 // ------------------- reg_pressure -------------------- | |
819 // Each entry is reg_pressure_per_value,number_of_regs | |
820 // RegL RegI RegFlags RegF RegD INTPRESSURE FLOATPRESSURE | |
821 // IA32 2 1 1 1 1 6 6 | |
822 // IA64 1 1 1 1 1 50 41 | |
823 // SPARC 2 2 2 2 2 48 (24) 52 (26) | |
824 // SPARCV9 2 2 2 2 2 48 (24) 52 (26) | |
825 // AMD64 1 1 1 1 1 14 15 | |
826 // ----------------------------------------------------- | |
827 #if defined(SPARC) | |
828 lrg.set_reg_pressure(2); // use for v9 as well | |
829 #else | |
830 lrg.set_reg_pressure(1); // normally one value per register | |
831 #endif | |
832 if( n_type->isa_oop_ptr() ) { | |
833 lrg._is_oop = 1; | |
834 } | |
835 break; | |
836 case Op_RegL: // Check for long or double | |
837 case Op_RegD: | |
838 lrg.set_num_regs(2); | |
839 // Define platform specific register pressure | |
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840 #if defined(SPARC) || defined(ARM) |
0 | 841 lrg.set_reg_pressure(2); |
842 #elif defined(IA32) | |
843 if( ireg == Op_RegL ) { | |
844 lrg.set_reg_pressure(2); | |
845 } else { | |
846 lrg.set_reg_pressure(1); | |
847 } | |
848 #else | |
849 lrg.set_reg_pressure(1); // normally one value per register | |
850 #endif | |
851 // If this def of a double forces a mis-aligned double, | |
852 // flag as '_fat_proj' - really flag as allowing misalignment | |
853 // AND changes how we count interferences. A mis-aligned | |
854 // double can interfere with TWO aligned pairs, or effectively | |
855 // FOUR registers! | |
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856 if (rm.is_misaligned_pair()) { |
0 | 857 lrg._fat_proj = 1; |
858 lrg._is_bound = 1; | |
859 } | |
860 break; | |
861 case Op_RegF: | |
862 case Op_RegI: | |
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863 case Op_RegN: |
0 | 864 case Op_RegFlags: |
865 case 0: // not an ideal register | |
866 lrg.set_num_regs(1); | |
867 #ifdef SPARC | |
868 lrg.set_reg_pressure(2); | |
869 #else | |
870 lrg.set_reg_pressure(1); | |
871 #endif | |
872 break; | |
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873 case Op_VecS: |
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874 assert(Matcher::vector_size_supported(T_BYTE,4), "sanity"); |
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875 assert(RegMask::num_registers(Op_VecS) == RegMask::SlotsPerVecS, "sanity"); |
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876 lrg.set_num_regs(RegMask::SlotsPerVecS); |
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877 lrg.set_reg_pressure(1); |
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878 break; |
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879 case Op_VecD: |
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880 assert(Matcher::vector_size_supported(T_FLOAT,RegMask::SlotsPerVecD), "sanity"); |
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881 assert(RegMask::num_registers(Op_VecD) == RegMask::SlotsPerVecD, "sanity"); |
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882 assert(lrgmask.is_aligned_sets(RegMask::SlotsPerVecD), "vector should be aligned"); |
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883 lrg.set_num_regs(RegMask::SlotsPerVecD); |
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884 lrg.set_reg_pressure(1); |
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885 break; |
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886 case Op_VecX: |
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887 assert(Matcher::vector_size_supported(T_FLOAT,RegMask::SlotsPerVecX), "sanity"); |
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888 assert(RegMask::num_registers(Op_VecX) == RegMask::SlotsPerVecX, "sanity"); |
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889 assert(lrgmask.is_aligned_sets(RegMask::SlotsPerVecX), "vector should be aligned"); |
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890 lrg.set_num_regs(RegMask::SlotsPerVecX); |
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891 lrg.set_reg_pressure(1); |
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892 break; |
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893 case Op_VecY: |
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894 assert(Matcher::vector_size_supported(T_FLOAT,RegMask::SlotsPerVecY), "sanity"); |
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895 assert(RegMask::num_registers(Op_VecY) == RegMask::SlotsPerVecY, "sanity"); |
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896 assert(lrgmask.is_aligned_sets(RegMask::SlotsPerVecY), "vector should be aligned"); |
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897 lrg.set_num_regs(RegMask::SlotsPerVecY); |
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898 lrg.set_reg_pressure(1); |
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899 break; |
0 | 900 default: |
901 ShouldNotReachHere(); | |
902 } | |
903 } | |
904 | |
905 // Now do the same for inputs | |
906 uint cnt = n->req(); | |
907 // Setup for CISC SPILLING | |
908 uint inp = (uint)AdlcVMDeps::Not_cisc_spillable; | |
909 if( UseCISCSpill && after_aggressive ) { | |
910 inp = n->cisc_operand(); | |
911 if( inp != (uint)AdlcVMDeps::Not_cisc_spillable ) | |
912 // Convert operand number to edge index number | |
913 inp = n->as_Mach()->operand_index(inp); | |
914 } | |
915 // Prepare register mask for each input | |
916 for( uint k = input_edge_start; k < cnt; k++ ) { | |
10111 | 917 uint vreg = _lrg_map.live_range_id(n->in(k)); |
918 if (!vreg) { | |
919 continue; | |
920 } | |
0 | 921 |
922 // If this instruction is CISC Spillable, add the flags | |
923 // bit to its appropriate input | |
924 if( UseCISCSpill && after_aggressive && inp == k ) { | |
925 #ifndef PRODUCT | |
926 if( TraceCISCSpill ) { | |
927 tty->print(" use_cisc_RegMask: "); | |
928 n->dump(); | |
929 } | |
930 #endif | |
931 n->as_Mach()->use_cisc_RegMask(); | |
932 } | |
933 | |
934 LRG &lrg = lrgs(vreg); | |
935 // // Testing for floating point code shape | |
936 // Node *test = n->in(k); | |
937 // if( test->is_Mach() ) { | |
938 // MachNode *m = test->as_Mach(); | |
939 // int op = m->ideal_Opcode(); | |
940 // if (n->is_Call() && (op == Op_AddF || op == Op_MulF) ) { | |
941 // int zzz = 1; | |
942 // } | |
943 // } | |
944 | |
945 // Limit result register mask to acceptable registers. | |
946 // Do not limit registers from uncommon uses before | |
947 // AggressiveCoalesce. This effectively pre-virtual-splits | |
948 // around uncommon uses of common defs. | |
949 const RegMask &rm = n->in_RegMask(k); | |
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950 if (!after_aggressive && _cfg.get_block_for_node(n->in(k))->_freq > 1000 * block->_freq) { |
0 | 951 // Since we are BEFORE aggressive coalesce, leave the register |
952 // mask untrimmed by the call. This encourages more coalescing. | |
953 // Later, AFTER aggressive, this live range will have to spill | |
954 // but the spiller handles slow-path calls very nicely. | |
955 } else { | |
956 lrg.AND( rm ); | |
957 } | |
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958 |
0 | 959 // Check for bound register masks |
960 const RegMask &lrgmask = lrg.mask(); | |
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961 int kreg = n->in(k)->ideal_reg(); |
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962 bool is_vect = RegMask::is_vector(kreg); |
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963 assert(n->in(k)->bottom_type()->isa_vect() == NULL || |
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964 is_vect || kreg == Op_RegD, |
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965 "vector must be in vector registers"); |
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966 if (lrgmask.is_bound(kreg)) |
0 | 967 lrg._is_bound = 1; |
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968 |
0 | 969 // If this use of a double forces a mis-aligned double, |
970 // flag as '_fat_proj' - really flag as allowing misalignment | |
971 // AND changes how we count interferences. A mis-aligned | |
972 // double can interfere with TWO aligned pairs, or effectively | |
973 // FOUR registers! | |
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974 #ifdef ASSERT |
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975 if (is_vect) { |
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976 assert(lrgmask.is_aligned_sets(lrg.num_regs()), "vector should be aligned"); |
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977 assert(!lrg._fat_proj, "sanity"); |
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978 assert(RegMask::num_registers(kreg) == lrg.num_regs(), "sanity"); |
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979 } |
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980 #endif |
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981 if (!is_vect && lrg.num_regs() == 2 && !lrg._fat_proj && rm.is_misaligned_pair()) { |
0 | 982 lrg._fat_proj = 1; |
983 lrg._is_bound = 1; | |
984 } | |
985 // if the LRG is an unaligned pair, we will have to spill | |
986 // so clear the LRG's register mask if it is not already spilled | |
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987 if (!is_vect && !n->is_SpillCopy() && |
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988 (lrg._def == NULL || lrg.is_multidef() || !lrg._def->is_SpillCopy()) && |
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989 lrgmask.is_misaligned_pair()) { |
0 | 990 lrg.Clear(); |
991 } | |
992 | |
993 // Check for maximum frequency value | |
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994 if (lrg._maxfreq < block->_freq) { |
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995 lrg._maxfreq = block->_freq; |
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996 } |
0 | 997 |
998 } // End for all allocated inputs | |
999 } // end for all instructions | |
1000 } // end for all blocks | |
1001 | |
1002 // Final per-liverange setup | |
10111 | 1003 for (uint i2 = 0; i2 < _lrg_map.max_lrg_id(); i2++) { |
0 | 1004 LRG &lrg = lrgs(i2); |
6179
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1005 assert(!lrg._is_vector || !lrg._fat_proj, "sanity"); |
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1006 if (lrg.num_regs() > 1 && !lrg._fat_proj) { |
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1007 lrg.clear_to_sets(); |
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1008 } |
0 | 1009 lrg.compute_set_mask_size(); |
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1010 if (lrg.not_free()) { // Handle case where we lose from the start |
0 | 1011 lrg.set_reg(OptoReg::Name(LRG::SPILL_REG)); |
1012 lrg._direct_conflict = 1; | |
1013 } | |
1014 lrg.set_degree(0); // no neighbors in IFG yet | |
1015 } | |
1016 } | |
1017 | |
1018 // Set the was-lo-degree bit. Conservative coalescing should not change the | |
1019 // colorability of the graph. If any live range was of low-degree before | |
1020 // coalescing, it should Simplify. This call sets the was-lo-degree bit. | |
1021 // The bit is checked in Simplify. | |
1022 void PhaseChaitin::set_was_low() { | |
1023 #ifdef ASSERT | |
10111 | 1024 for (uint i = 1; i < _lrg_map.max_lrg_id(); i++) { |
0 | 1025 int size = lrgs(i).num_regs(); |
1026 uint old_was_lo = lrgs(i)._was_lo; | |
1027 lrgs(i)._was_lo = 0; | |
1028 if( lrgs(i).lo_degree() ) { | |
1029 lrgs(i)._was_lo = 1; // Trivially of low degree | |
1030 } else { // Else check the Brigg's assertion | |
1031 // Brigg's observation is that the lo-degree neighbors of a | |
1032 // hi-degree live range will not interfere with the color choices | |
1033 // of said hi-degree live range. The Simplify reverse-stack-coloring | |
1034 // order takes care of the details. Hence you do not have to count | |
1035 // low-degree neighbors when determining if this guy colors. | |
1036 int briggs_degree = 0; | |
1037 IndexSet *s = _ifg->neighbors(i); | |
1038 IndexSetIterator elements(s); | |
1039 uint lidx; | |
1040 while((lidx = elements.next()) != 0) { | |
1041 if( !lrgs(lidx).lo_degree() ) | |
1042 briggs_degree += MAX2(size,lrgs(lidx).num_regs()); | |
1043 } | |
1044 if( briggs_degree < lrgs(i).degrees_of_freedom() ) | |
1045 lrgs(i)._was_lo = 1; // Low degree via the briggs assertion | |
1046 } | |
1047 assert(old_was_lo <= lrgs(i)._was_lo, "_was_lo may not decrease"); | |
1048 } | |
1049 #endif | |
1050 } | |
1051 | |
1052 #define REGISTER_CONSTRAINED 16 | |
1053 | |
1054 // Compute cost/area ratio, in case we spill. Build the lo-degree list. | |
1055 void PhaseChaitin::cache_lrg_info( ) { | |
1056 | |
10111 | 1057 for (uint i = 1; i < _lrg_map.max_lrg_id(); i++) { |
0 | 1058 LRG &lrg = lrgs(i); |
1059 | |
1060 // Check for being of low degree: means we can be trivially colored. | |
1061 // Low degree, dead or must-spill guys just get to simplify right away | |
1062 if( lrg.lo_degree() || | |
1063 !lrg.alive() || | |
1064 lrg._must_spill ) { | |
1065 // Split low degree list into those guys that must get a | |
1066 // register and those that can go to register or stack. | |
1067 // The idea is LRGs that can go register or stack color first when | |
1068 // they have a good chance of getting a register. The register-only | |
1069 // lo-degree live ranges always get a register. | |
1070 OptoReg::Name hi_reg = lrg.mask().find_last_elem(); | |
1071 if( OptoReg::is_stack(hi_reg)) { // Can go to stack? | |
1072 lrg._next = _lo_stk_degree; | |
1073 _lo_stk_degree = i; | |
1074 } else { | |
1075 lrg._next = _lo_degree; | |
1076 _lo_degree = i; | |
1077 } | |
1078 } else { // Else high degree | |
1079 lrgs(_hi_degree)._prev = i; | |
1080 lrg._next = _hi_degree; | |
1081 lrg._prev = 0; | |
1082 _hi_degree = i; | |
1083 } | |
1084 } | |
1085 } | |
1086 | |
1087 // Simplify the IFG by removing LRGs of low degree that have NO copies | |
1088 void PhaseChaitin::Pre_Simplify( ) { | |
1089 | |
1090 // Warm up the lo-degree no-copy list | |
1091 int lo_no_copy = 0; | |
10111 | 1092 for (uint i = 1; i < _lrg_map.max_lrg_id(); i++) { |
1093 if ((lrgs(i).lo_degree() && !lrgs(i)._has_copy) || | |
0 | 1094 !lrgs(i).alive() || |
10111 | 1095 lrgs(i)._must_spill) { |
0 | 1096 lrgs(i)._next = lo_no_copy; |
1097 lo_no_copy = i; | |
1098 } | |
1099 } | |
1100 | |
1101 while( lo_no_copy ) { | |
1102 uint lo = lo_no_copy; | |
1103 lo_no_copy = lrgs(lo)._next; | |
1104 int size = lrgs(lo).num_regs(); | |
1105 | |
1106 // Put the simplified guy on the simplified list. | |
1107 lrgs(lo)._next = _simplified; | |
1108 _simplified = lo; | |
1109 | |
1110 // Yank this guy from the IFG. | |
1111 IndexSet *adj = _ifg->remove_node( lo ); | |
1112 | |
1113 // If any neighbors' degrees fall below their number of | |
1114 // allowed registers, then put that neighbor on the low degree | |
1115 // list. Note that 'degree' can only fall and 'numregs' is | |
1116 // unchanged by this action. Thus the two are equal at most once, | |
1117 // so LRGs hit the lo-degree worklists at most once. | |
1118 IndexSetIterator elements(adj); | |
1119 uint neighbor; | |
1120 while ((neighbor = elements.next()) != 0) { | |
1121 LRG *n = &lrgs(neighbor); | |
1122 assert( _ifg->effective_degree(neighbor) == n->degree(), "" ); | |
1123 | |
1124 // Check for just becoming of-low-degree | |
1125 if( n->just_lo_degree() && !n->_has_copy ) { | |
1126 assert(!(*_ifg->_yanked)[neighbor],"Cannot move to lo degree twice"); | |
1127 // Put on lo-degree list | |
1128 n->_next = lo_no_copy; | |
1129 lo_no_copy = neighbor; | |
1130 } | |
1131 } | |
1132 } // End of while lo-degree no_copy worklist not empty | |
1133 | |
1134 // No more lo-degree no-copy live ranges to simplify | |
1135 } | |
1136 | |
1137 // Simplify the IFG by removing LRGs of low degree. | |
1138 void PhaseChaitin::Simplify( ) { | |
1139 | |
1140 while( 1 ) { // Repeat till simplified it all | |
1141 // May want to explore simplifying lo_degree before _lo_stk_degree. | |
1142 // This might result in more spills coloring into registers during | |
1143 // Select(). | |
1144 while( _lo_degree || _lo_stk_degree ) { | |
1145 // If possible, pull from lo_stk first | |
1146 uint lo; | |
1147 if( _lo_degree ) { | |
1148 lo = _lo_degree; | |
1149 _lo_degree = lrgs(lo)._next; | |
1150 } else { | |
1151 lo = _lo_stk_degree; | |
1152 _lo_stk_degree = lrgs(lo)._next; | |
1153 } | |
1154 | |
1155 // Put the simplified guy on the simplified list. | |
1156 lrgs(lo)._next = _simplified; | |
1157 _simplified = lo; | |
1158 // If this guy is "at risk" then mark his current neighbors | |
1159 if( lrgs(lo)._at_risk ) { | |
1160 IndexSetIterator elements(_ifg->neighbors(lo)); | |
1161 uint datum; | |
1162 while ((datum = elements.next()) != 0) { | |
1163 lrgs(datum)._risk_bias = lo; | |
1164 } | |
1165 } | |
1166 | |
1167 // Yank this guy from the IFG. | |
1168 IndexSet *adj = _ifg->remove_node( lo ); | |
1169 | |
1170 // If any neighbors' degrees fall below their number of | |
1171 // allowed registers, then put that neighbor on the low degree | |
1172 // list. Note that 'degree' can only fall and 'numregs' is | |
1173 // unchanged by this action. Thus the two are equal at most once, | |
1174 // so LRGs hit the lo-degree worklist at most once. | |
1175 IndexSetIterator elements(adj); | |
1176 uint neighbor; | |
1177 while ((neighbor = elements.next()) != 0) { | |
1178 LRG *n = &lrgs(neighbor); | |
1179 #ifdef ASSERT | |
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1180 if( VerifyOpto || VerifyRegisterAllocator ) { |
0 | 1181 assert( _ifg->effective_degree(neighbor) == n->degree(), "" ); |
1182 } | |
1183 #endif | |
1184 | |
1185 // Check for just becoming of-low-degree just counting registers. | |
1186 // _must_spill live ranges are already on the low degree list. | |
1187 if( n->just_lo_degree() && !n->_must_spill ) { | |
1188 assert(!(*_ifg->_yanked)[neighbor],"Cannot move to lo degree twice"); | |
1189 // Pull from hi-degree list | |
1190 uint prev = n->_prev; | |
1191 uint next = n->_next; | |
1192 if( prev ) lrgs(prev)._next = next; | |
1193 else _hi_degree = next; | |
1194 lrgs(next)._prev = prev; | |
1195 n->_next = _lo_degree; | |
1196 _lo_degree = neighbor; | |
1197 } | |
1198 } | |
1199 } // End of while lo-degree/lo_stk_degree worklist not empty | |
1200 | |
1201 // Check for got everything: is hi-degree list empty? | |
1202 if( !_hi_degree ) break; | |
1203 | |
1204 // Time to pick a potential spill guy | |
1205 uint lo_score = _hi_degree; | |
1206 double score = lrgs(lo_score).score(); | |
1207 double area = lrgs(lo_score)._area; | |
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1208 double cost = lrgs(lo_score)._cost; |
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1209 bool bound = lrgs(lo_score)._is_bound; |
0 | 1210 |
1211 // Find cheapest guy | |
1212 debug_only( int lo_no_simplify=0; ); | |
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1213 for( uint i = _hi_degree; i; i = lrgs(i)._next ) { |
0 | 1214 assert( !(*_ifg->_yanked)[i], "" ); |
1215 // It's just vaguely possible to move hi-degree to lo-degree without | |
1216 // going through a just-lo-degree stage: If you remove a double from | |
1217 // a float live range it's degree will drop by 2 and you can skip the | |
1218 // just-lo-degree stage. It's very rare (shows up after 5000+ methods | |
1219 // in -Xcomp of Java2Demo). So just choose this guy to simplify next. | |
1220 if( lrgs(i).lo_degree() ) { | |
1221 lo_score = i; | |
1222 break; | |
1223 } | |
1224 debug_only( if( lrgs(i)._was_lo ) lo_no_simplify=i; ); | |
1225 double iscore = lrgs(i).score(); | |
1226 double iarea = lrgs(i)._area; | |
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1227 double icost = lrgs(i)._cost; |
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1228 bool ibound = lrgs(i)._is_bound; |
0 | 1229 |
1230 // Compare cost/area of i vs cost/area of lo_score. Smaller cost/area | |
1231 // wins. Ties happen because all live ranges in question have spilled | |
1232 // a few times before and the spill-score adds a huge number which | |
1233 // washes out the low order bits. We are choosing the lesser of 2 | |
1234 // evils; in this case pick largest area to spill. | |
1008
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1235 // Ties also happen when live ranges are defined and used only inside |
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1236 // one block. In which case their area is 0 and score set to max. |
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1237 // In such case choose bound live range over unbound to free registers |
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1238 // or with smaller cost to spill. |
0 | 1239 if( iscore < score || |
1008
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1240 (iscore == score && iarea > area && lrgs(lo_score)._was_spilled2) || |
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1241 (iscore == score && iarea == area && |
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1242 ( (ibound && !bound) || ibound == bound && (icost < cost) )) ) { |
0 | 1243 lo_score = i; |
1244 score = iscore; | |
1245 area = iarea; | |
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1246 cost = icost; |
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1247 bound = ibound; |
0 | 1248 } |
1249 } | |
1250 LRG *lo_lrg = &lrgs(lo_score); | |
1251 // The live range we choose for spilling is either hi-degree, or very | |
1252 // rarely it can be low-degree. If we choose a hi-degree live range | |
1253 // there better not be any lo-degree choices. | |
1254 assert( lo_lrg->lo_degree() || !lo_no_simplify, "Live range was lo-degree before coalesce; should simplify" ); | |
1255 | |
1256 // Pull from hi-degree list | |
1257 uint prev = lo_lrg->_prev; | |
1258 uint next = lo_lrg->_next; | |
1259 if( prev ) lrgs(prev)._next = next; | |
1260 else _hi_degree = next; | |
1261 lrgs(next)._prev = prev; | |
1262 // Jam him on the lo-degree list, despite his high degree. | |
1263 // Maybe he'll get a color, and maybe he'll spill. | |
1264 // Only Select() will know. | |
1265 lrgs(lo_score)._at_risk = true; | |
1266 _lo_degree = lo_score; | |
1267 lo_lrg->_next = 0; | |
1268 | |
1269 } // End of while not simplified everything | |
1270 | |
1271 } | |
1272 | |
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1273 // Is 'reg' register legal for 'lrg'? |
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1274 static bool is_legal_reg(LRG &lrg, OptoReg::Name reg, int chunk) { |
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1275 if (reg >= chunk && reg < (chunk + RegMask::CHUNK_SIZE) && |
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1276 lrg.mask().Member(OptoReg::add(reg,-chunk))) { |
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1277 // RA uses OptoReg which represent the highest element of a registers set. |
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1278 // For example, vectorX (128bit) on x86 uses [XMM,XMMb,XMMc,XMMd] set |
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1279 // in which XMMd is used by RA to represent such vectors. A double value |
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1280 // uses [XMM,XMMb] pairs and XMMb is used by RA for it. |
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1281 // The register mask uses largest bits set of overlapping register sets. |
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1282 // On x86 with AVX it uses 8 bits for each XMM registers set. |
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1283 // |
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1284 // The 'lrg' already has cleared-to-set register mask (done in Select() |
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1285 // before calling choose_color()). Passing mask.Member(reg) check above |
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1286 // indicates that the size (num_regs) of 'reg' set is less or equal to |
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1287 // 'lrg' set size. |
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1288 // For set size 1 any register which is member of 'lrg' mask is legal. |
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1289 if (lrg.num_regs()==1) |
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1290 return true; |
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1291 // For larger sets only an aligned register with the same set size is legal. |
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1292 int mask = lrg.num_regs()-1; |
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1293 if ((reg&mask) == mask) |
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1294 return true; |
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1295 } |
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1296 return false; |
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1297 } |
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1298 |
0 | 1299 // Choose a color using the biasing heuristic |
1300 OptoReg::Name PhaseChaitin::bias_color( LRG &lrg, int chunk ) { | |
1301 | |
1302 // Check for "at_risk" LRG's | |
10111 | 1303 uint risk_lrg = _lrg_map.find(lrg._risk_bias); |
0 | 1304 if( risk_lrg != 0 ) { |
1305 // Walk the colored neighbors of the "at_risk" candidate | |
1306 // Choose a color which is both legal and already taken by a neighbor | |
1307 // of the "at_risk" candidate in order to improve the chances of the | |
1308 // "at_risk" candidate of coloring | |
1309 IndexSetIterator elements(_ifg->neighbors(risk_lrg)); | |
1310 uint datum; | |
1311 while ((datum = elements.next()) != 0) { | |
1312 OptoReg::Name reg = lrgs(datum).reg(); | |
1313 // If this LRG's register is legal for us, choose it | |
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1314 if (is_legal_reg(lrg, reg, chunk)) |
0 | 1315 return reg; |
1316 } | |
1317 } | |
1318 | |
10111 | 1319 uint copy_lrg = _lrg_map.find(lrg._copy_bias); |
0 | 1320 if( copy_lrg != 0 ) { |
1321 // If he has a color, | |
1322 if( !(*(_ifg->_yanked))[copy_lrg] ) { | |
1323 OptoReg::Name reg = lrgs(copy_lrg).reg(); | |
1324 // And it is legal for you, | |
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1325 if (is_legal_reg(lrg, reg, chunk)) |
0 | 1326 return reg; |
1327 } else if( chunk == 0 ) { | |
1328 // Choose a color which is legal for him | |
1329 RegMask tempmask = lrg.mask(); | |
1330 tempmask.AND(lrgs(copy_lrg).mask()); | |
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1331 tempmask.clear_to_sets(lrg.num_regs()); |
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1332 OptoReg::Name reg = tempmask.find_first_set(lrg.num_regs()); |
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1333 if (OptoReg::is_valid(reg)) |
0 | 1334 return reg; |
1335 } | |
1336 } | |
1337 | |
1338 // If no bias info exists, just go with the register selection ordering | |
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1339 if (lrg._is_vector || lrg.num_regs() == 2) { |
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1340 // Find an aligned set |
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1341 return OptoReg::add(lrg.mask().find_first_set(lrg.num_regs()),chunk); |
0 | 1342 } |
1343 | |
1344 // CNC - Fun hack. Alternate 1st and 2nd selection. Enables post-allocate | |
1345 // copy removal to remove many more copies, by preventing a just-assigned | |
1346 // register from being repeatedly assigned. | |
1347 OptoReg::Name reg = lrg.mask().find_first_elem(); | |
1348 if( (++_alternate & 1) && OptoReg::is_valid(reg) ) { | |
1349 // This 'Remove; find; Insert' idiom is an expensive way to find the | |
1350 // SECOND element in the mask. | |
1351 lrg.Remove(reg); | |
1352 OptoReg::Name reg2 = lrg.mask().find_first_elem(); | |
1353 lrg.Insert(reg); | |
1354 if( OptoReg::is_reg(reg2)) | |
1355 reg = reg2; | |
1356 } | |
1357 return OptoReg::add( reg, chunk ); | |
1358 } | |
1359 | |
1360 // Choose a color in the current chunk | |
1361 OptoReg::Name PhaseChaitin::choose_color( LRG &lrg, int chunk ) { | |
1362 assert( C->in_preserve_stack_slots() == 0 || chunk != 0 || lrg._is_bound || lrg.mask().is_bound1() || !lrg.mask().Member(OptoReg::Name(_matcher._old_SP-1)), "must not allocate stack0 (inside preserve area)"); | |
1363 assert(C->out_preserve_stack_slots() == 0 || chunk != 0 || lrg._is_bound || lrg.mask().is_bound1() || !lrg.mask().Member(OptoReg::Name(_matcher._old_SP+0)), "must not allocate stack0 (inside preserve area)"); | |
1364 | |
1365 if( lrg.num_regs() == 1 || // Common Case | |
1366 !lrg._fat_proj ) // Aligned+adjacent pairs ok | |
1367 // Use a heuristic to "bias" the color choice | |
1368 return bias_color(lrg, chunk); | |
1369 | |
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1370 assert(!lrg._is_vector, "should be not vector here" ); |
0 | 1371 assert( lrg.num_regs() >= 2, "dead live ranges do not color" ); |
1372 | |
1373 // Fat-proj case or misaligned double argument. | |
1374 assert(lrg.compute_mask_size() == lrg.num_regs() || | |
1375 lrg.num_regs() == 2,"fat projs exactly color" ); | |
1376 assert( !chunk, "always color in 1st chunk" ); | |
1377 // Return the highest element in the set. | |
1378 return lrg.mask().find_last_elem(); | |
1379 } | |
1380 | |
1381 // Select colors by re-inserting LRGs back into the IFG. LRGs are re-inserted | |
1382 // in reverse order of removal. As long as nothing of hi-degree was yanked, | |
1383 // everything going back is guaranteed a color. Select that color. If some | |
1384 // hi-degree LRG cannot get a color then we record that we must spill. | |
1385 uint PhaseChaitin::Select( ) { | |
1386 uint spill_reg = LRG::SPILL_REG; | |
1387 _max_reg = OptoReg::Name(0); // Past max register used | |
1388 while( _simplified ) { | |
1389 // Pull next LRG from the simplified list - in reverse order of removal | |
1390 uint lidx = _simplified; | |
1391 LRG *lrg = &lrgs(lidx); | |
1392 _simplified = lrg->_next; | |
1393 | |
1394 | |
1395 #ifndef PRODUCT | |
1396 if (trace_spilling()) { | |
1397 ttyLocker ttyl; | |
1398 tty->print_cr("L%d selecting degree %d degrees_of_freedom %d", lidx, lrg->degree(), | |
1399 lrg->degrees_of_freedom()); | |
1400 lrg->dump(); | |
1401 } | |
1402 #endif | |
1403 | |
1404 // Re-insert into the IFG | |
1405 _ifg->re_insert(lidx); | |
1406 if( !lrg->alive() ) continue; | |
1407 // capture allstackedness flag before mask is hacked | |
1408 const int is_allstack = lrg->mask().is_AllStack(); | |
1409 | |
1410 // Yeah, yeah, yeah, I know, I know. I can refactor this | |
1411 // to avoid the GOTO, although the refactored code will not | |
1412 // be much clearer. We arrive here IFF we have a stack-based | |
1413 // live range that cannot color in the current chunk, and it | |
1414 // has to move into the next free stack chunk. | |
1415 int chunk = 0; // Current chunk is first chunk | |
1416 retry_next_chunk: | |
1417 | |
1418 // Remove neighbor colors | |
1419 IndexSet *s = _ifg->neighbors(lidx); | |
1420 | |
1421 debug_only(RegMask orig_mask = lrg->mask();) | |
1422 IndexSetIterator elements(s); | |
1423 uint neighbor; | |
1424 while ((neighbor = elements.next()) != 0) { | |
1425 // Note that neighbor might be a spill_reg. In this case, exclusion | |
1426 // of its color will be a no-op, since the spill_reg chunk is in outer | |
1427 // space. Also, if neighbor is in a different chunk, this exclusion | |
1428 // will be a no-op. (Later on, if lrg runs out of possible colors in | |
1429 // its chunk, a new chunk of color may be tried, in which case | |
1430 // examination of neighbors is started again, at retry_next_chunk.) | |
1431 LRG &nlrg = lrgs(neighbor); | |
1432 OptoReg::Name nreg = nlrg.reg(); | |
1433 // Only subtract masks in the same chunk | |
1434 if( nreg >= chunk && nreg < chunk + RegMask::CHUNK_SIZE ) { | |
1435 #ifndef PRODUCT | |
1436 uint size = lrg->mask().Size(); | |
1437 RegMask rm = lrg->mask(); | |
1438 #endif | |
1439 lrg->SUBTRACT(nlrg.mask()); | |
1440 #ifndef PRODUCT | |
1441 if (trace_spilling() && lrg->mask().Size() != size) { | |
1442 ttyLocker ttyl; | |
1443 tty->print("L%d ", lidx); | |
1444 rm.dump(); | |
1445 tty->print(" intersected L%d ", neighbor); | |
1446 nlrg.mask().dump(); | |
1447 tty->print(" removed "); | |
1448 rm.SUBTRACT(lrg->mask()); | |
1449 rm.dump(); | |
1450 tty->print(" leaving "); | |
1451 lrg->mask().dump(); | |
1452 tty->cr(); | |
1453 } | |
1454 #endif | |
1455 } | |
1456 } | |
1457 //assert(is_allstack == lrg->mask().is_AllStack(), "nbrs must not change AllStackedness"); | |
1458 // Aligned pairs need aligned masks | |
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1459 assert(!lrg->_is_vector || !lrg->_fat_proj, "sanity"); |
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1460 if (lrg->num_regs() > 1 && !lrg->_fat_proj) { |
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1461 lrg->clear_to_sets(); |
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1462 } |
0 | 1463 |
1464 // Check if a color is available and if so pick the color | |
1465 OptoReg::Name reg = choose_color( *lrg, chunk ); | |
1466 #ifdef SPARC | |
1467 debug_only(lrg->compute_set_mask_size()); | |
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1468 assert(lrg->num_regs() < 2 || lrg->is_bound() || is_even(reg-1), "allocate all doubles aligned"); |
0 | 1469 #endif |
1470 | |
1471 //--------------- | |
1472 // If we fail to color and the AllStack flag is set, trigger | |
1473 // a chunk-rollover event | |
1474 if(!OptoReg::is_valid(OptoReg::add(reg,-chunk)) && is_allstack) { | |
1475 // Bump register mask up to next stack chunk | |
1476 chunk += RegMask::CHUNK_SIZE; | |
1477 lrg->Set_All(); | |
1478 | |
1479 goto retry_next_chunk; | |
1480 } | |
1481 | |
1482 //--------------- | |
1483 // Did we get a color? | |
1484 else if( OptoReg::is_valid(reg)) { | |
1485 #ifndef PRODUCT | |
1486 RegMask avail_rm = lrg->mask(); | |
1487 #endif | |
1488 | |
1489 // Record selected register | |
1490 lrg->set_reg(reg); | |
1491 | |
1492 if( reg >= _max_reg ) // Compute max register limit | |
1493 _max_reg = OptoReg::add(reg,1); | |
1494 // Fold reg back into normal space | |
1495 reg = OptoReg::add(reg,-chunk); | |
1496 | |
1497 // If the live range is not bound, then we actually had some choices | |
1498 // to make. In this case, the mask has more bits in it than the colors | |
605 | 1499 // chosen. Restrict the mask to just what was picked. |
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1500 int n_regs = lrg->num_regs(); |
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1501 assert(!lrg->_is_vector || !lrg->_fat_proj, "sanity"); |
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1502 if (n_regs == 1 || !lrg->_fat_proj) { |
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1503 assert(!lrg->_is_vector || n_regs <= RegMask::SlotsPerVecY, "sanity"); |
0 | 1504 lrg->Clear(); // Clear the mask |
1505 lrg->Insert(reg); // Set regmask to match selected reg | |
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1506 // For vectors and pairs, also insert the low bit of the pair |
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1507 for (int i = 1; i < n_regs; i++) |
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1508 lrg->Insert(OptoReg::add(reg,-i)); |
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1509 lrg->set_mask_size(n_regs); |
0 | 1510 } else { // Else fatproj |
1511 // mask must be equal to fatproj bits, by definition | |
1512 } | |
1513 #ifndef PRODUCT | |
1514 if (trace_spilling()) { | |
1515 ttyLocker ttyl; | |
1516 tty->print("L%d selected ", lidx); | |
1517 lrg->mask().dump(); | |
1518 tty->print(" from "); | |
1519 avail_rm.dump(); | |
1520 tty->cr(); | |
1521 } | |
1522 #endif | |
1523 // Note that reg is the highest-numbered register in the newly-bound mask. | |
1524 } // end color available case | |
1525 | |
1526 //--------------- | |
1527 // Live range is live and no colors available | |
1528 else { | |
1529 assert( lrg->alive(), "" ); | |
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1530 assert( !lrg->_fat_proj || lrg->is_multidef() || |
0 | 1531 lrg->_def->outcnt() > 0, "fat_proj cannot spill"); |
1532 assert( !orig_mask.is_AllStack(), "All Stack does not spill" ); | |
1533 | |
1534 // Assign the special spillreg register | |
1535 lrg->set_reg(OptoReg::Name(spill_reg++)); | |
1536 // Do not empty the regmask; leave mask_size lying around | |
1537 // for use during Spilling | |
1538 #ifndef PRODUCT | |
1539 if( trace_spilling() ) { | |
1540 ttyLocker ttyl; | |
1541 tty->print("L%d spilling with neighbors: ", lidx); | |
1542 s->dump(); | |
1543 debug_only(tty->print(" original mask: ")); | |
1544 debug_only(orig_mask.dump()); | |
1545 dump_lrg(lidx); | |
1546 } | |
1547 #endif | |
1548 } // end spill case | |
1549 | |
1550 } | |
1551 | |
1552 return spill_reg-LRG::SPILL_REG; // Return number of spills | |
1553 } | |
1554 | |
1555 // Copy 'was_spilled'-edness from the source Node to the dst Node. | |
1556 void PhaseChaitin::copy_was_spilled( Node *src, Node *dst ) { | |
1557 if( _spilled_once.test(src->_idx) ) { | |
1558 _spilled_once.set(dst->_idx); | |
10111 | 1559 lrgs(_lrg_map.find(dst))._was_spilled1 = 1; |
0 | 1560 if( _spilled_twice.test(src->_idx) ) { |
1561 _spilled_twice.set(dst->_idx); | |
10111 | 1562 lrgs(_lrg_map.find(dst))._was_spilled2 = 1; |
0 | 1563 } |
1564 } | |
1565 } | |
1566 | |
1567 // Set the 'spilled_once' or 'spilled_twice' flag on a node. | |
1568 void PhaseChaitin::set_was_spilled( Node *n ) { | |
1569 if( _spilled_once.test_set(n->_idx) ) | |
1570 _spilled_twice.set(n->_idx); | |
1571 } | |
1572 | |
1573 // Convert Ideal spill instructions into proper FramePtr + offset Loads and | |
1574 // Stores. Use-def chains are NOT preserved, but Node->LRG->reg maps are. | |
1575 void PhaseChaitin::fixup_spills() { | |
1576 // This function does only cisc spill work. | |
1577 if( !UseCISCSpill ) return; | |
1578 | |
1579 NOT_PRODUCT( Compile::TracePhase t3("fixupSpills", &_t_fixupSpills, TimeCompiler); ) | |
1580 | |
1581 // Grab the Frame Pointer | |
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1582 Node *fp = _cfg.get_root_block()->head()->in(1)->in(TypeFunc::FramePtr); |
0 | 1583 |
1584 // For all blocks | |
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1585 for (uint i = 0; i < _cfg.number_of_blocks(); i++) { |
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1586 Block* block = _cfg.get_block(i); |
0 | 1587 |
1588 // For all instructions in block | |
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1589 uint last_inst = block->end_idx(); |
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1590 for (uint j = 1; j <= last_inst; j++) { |
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1591 Node* n = block->get_node(j); |
0 | 1592 |
1593 // Dead instruction??? | |
1594 assert( n->outcnt() != 0 ||// Nothing dead after post alloc | |
1595 C->top() == n || // Or the random TOP node | |
1596 n->is_Proj(), // Or a fat-proj kill node | |
1597 "No dead instructions after post-alloc" ); | |
1598 | |
1599 int inp = n->cisc_operand(); | |
1600 if( inp != AdlcVMDeps::Not_cisc_spillable ) { | |
1601 // Convert operand number to edge index number | |
1602 MachNode *mach = n->as_Mach(); | |
1603 inp = mach->operand_index(inp); | |
1604 Node *src = n->in(inp); // Value to load or store | |
10111 | 1605 LRG &lrg_cisc = lrgs(_lrg_map.find_const(src)); |
0 | 1606 OptoReg::Name src_reg = lrg_cisc.reg(); |
1607 // Doubles record the HIGH register of an adjacent pair. | |
1608 src_reg = OptoReg::add(src_reg,1-lrg_cisc.num_regs()); | |
1609 if( OptoReg::is_stack(src_reg) ) { // If input is on stack | |
1610 // This is a CISC Spill, get stack offset and construct new node | |
1611 #ifndef PRODUCT | |
1612 if( TraceCISCSpill ) { | |
1613 tty->print(" reg-instr: "); | |
1614 n->dump(); | |
1615 } | |
1616 #endif | |
1617 int stk_offset = reg2offset(src_reg); | |
1618 // Bailout if we might exceed node limit when spilling this instruction | |
1619 C->check_node_count(0, "out of nodes fixing spills"); | |
1620 if (C->failing()) return; | |
1621 // Transform node | |
1622 MachNode *cisc = mach->cisc_version(stk_offset, C)->as_Mach(); | |
1623 cisc->set_req(inp,fp); // Base register is frame pointer | |
1624 if( cisc->oper_input_base() > 1 && mach->oper_input_base() <= 1 ) { | |
1625 assert( cisc->oper_input_base() == 2, "Only adding one edge"); | |
1626 cisc->ins_req(1,src); // Requires a memory edge | |
1627 } | |
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1628 block->map_node(cisc, j); // Insert into basic block |
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1629 n->subsume_by(cisc, C); // Correct graph |
0 | 1630 // |
1631 ++_used_cisc_instructions; | |
1632 #ifndef PRODUCT | |
1633 if( TraceCISCSpill ) { | |
1634 tty->print(" cisc-instr: "); | |
1635 cisc->dump(); | |
1636 } | |
1637 #endif | |
1638 } else { | |
1639 #ifndef PRODUCT | |
1640 if( TraceCISCSpill ) { | |
1641 tty->print(" using reg-instr: "); | |
1642 n->dump(); | |
1643 } | |
1644 #endif | |
1645 ++_unused_cisc_instructions; // input can be on stack | |
1646 } | |
1647 } | |
1648 | |
1649 } // End of for all instructions | |
1650 | |
1651 } // End of for all blocks | |
1652 } | |
1653 | |
1654 // Helper to stretch above; recursively discover the base Node for a | |
1655 // given derived Node. Easy for AddP-related machine nodes, but needs | |
1656 // to be recursive for derived Phis. | |
1657 Node *PhaseChaitin::find_base_for_derived( Node **derived_base_map, Node *derived, uint &maxlrg ) { | |
1658 // See if already computed; if so return it | |
1659 if( derived_base_map[derived->_idx] ) | |
1660 return derived_base_map[derived->_idx]; | |
1661 | |
1662 // See if this happens to be a base. | |
1663 // NOTE: we use TypePtr instead of TypeOopPtr because we can have | |
1664 // pointers derived from NULL! These are always along paths that | |
1665 // can't happen at run-time but the optimizer cannot deduce it so | |
1666 // we have to handle it gracefully. | |
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1667 assert(!derived->bottom_type()->isa_narrowoop() || |
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1668 derived->bottom_type()->make_ptr()->is_ptr()->_offset == 0, "sanity"); |
0 | 1669 const TypePtr *tj = derived->bottom_type()->isa_ptr(); |
1670 // If its an OOP with a non-zero offset, then it is derived. | |
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1671 if( tj == NULL || tj->_offset == 0 ) { |
0 | 1672 derived_base_map[derived->_idx] = derived; |
1673 return derived; | |
1674 } | |
1675 // Derived is NULL+offset? Base is NULL! | |
1676 if( derived->is_Con() ) { | |
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1677 Node *base = _matcher.mach_null(); |
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1678 assert(base != NULL, "sanity"); |
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1679 if (base->in(0) == NULL) { |
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1680 // Initialize it once and make it shared: |
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1681 // set control to _root and place it into Start block |
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1682 // (where top() node is placed). |
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1683 base->init_req(0, _cfg.get_root_node()); |
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1684 Block *startb = _cfg.get_block_for_node(C->top()); |
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1685 uint node_pos = startb->find_node(C->top()); |
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1686 startb->insert_node(base, node_pos); |
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1687 _cfg.map_node_to_block(base, startb); |
10111 | 1688 assert(_lrg_map.live_range_id(base) == 0, "should not have LRG yet"); |
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1689 |
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1690 // The loadConP0 might have projection nodes depending on architecture |
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1691 // Add the projection nodes to the CFG |
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1692 for (DUIterator_Fast imax, i = base->fast_outs(imax); i < imax; i++) { |
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1693 Node* use = base->fast_out(i); |
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1694 if (use->is_MachProj()) { |
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1695 startb->insert_node(use, ++node_pos); |
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1696 _cfg.map_node_to_block(use, startb); |
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1697 new_lrg(use, maxlrg++); |
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1698 } |
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1699 } |
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1700 } |
10111 | 1701 if (_lrg_map.live_range_id(base) == 0) { |
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1702 new_lrg(base, maxlrg++); |
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1703 } |
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1704 assert(base->in(0) == _cfg.get_root_node() && _cfg.get_block_for_node(base) == _cfg.get_block_for_node(C->top()), "base NULL should be shared"); |
0 | 1705 derived_base_map[derived->_idx] = base; |
1706 return base; | |
1707 } | |
1708 | |
1709 // Check for AddP-related opcodes | |
10111 | 1710 if (!derived->is_Phi()) { |
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1711 assert(derived->as_Mach()->ideal_Opcode() == Op_AddP, err_msg_res("but is: %s", derived->Name())); |
0 | 1712 Node *base = derived->in(AddPNode::Base); |
1713 derived_base_map[derived->_idx] = base; | |
1714 return base; | |
1715 } | |
1716 | |
1717 // Recursively find bases for Phis. | |
1718 // First check to see if we can avoid a base Phi here. | |
1719 Node *base = find_base_for_derived( derived_base_map, derived->in(1),maxlrg); | |
1720 uint i; | |
1721 for( i = 2; i < derived->req(); i++ ) | |
1722 if( base != find_base_for_derived( derived_base_map,derived->in(i),maxlrg)) | |
1723 break; | |
1724 // Went to the end without finding any different bases? | |
1725 if( i == derived->req() ) { // No need for a base Phi here | |
1726 derived_base_map[derived->_idx] = base; | |
1727 return base; | |
1728 } | |
1729 | |
1730 // Now we see we need a base-Phi here to merge the bases | |
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1731 const Type *t = base->bottom_type(); |
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1732 base = new (C) PhiNode( derived->in(0), t ); |
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1733 for( i = 1; i < derived->req(); i++ ) { |
0 | 1734 base->init_req(i, find_base_for_derived(derived_base_map, derived->in(i), maxlrg)); |
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1735 t = t->meet(base->in(i)->bottom_type()); |
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1736 } |
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1737 base->as_Phi()->set_type(t); |
0 | 1738 |
1739 // Search the current block for an existing base-Phi | |
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1740 Block *b = _cfg.get_block_for_node(derived); |
0 | 1741 for( i = 1; i <= b->end_idx(); i++ ) {// Search for matching Phi |
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1742 Node *phi = b->get_node(i); |
0 | 1743 if( !phi->is_Phi() ) { // Found end of Phis with no match? |
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1744 b->insert_node(base, i); // Must insert created Phi here as base |
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1745 _cfg.map_node_to_block(base, b); |
0 | 1746 new_lrg(base,maxlrg++); |
1747 break; | |
1748 } | |
1749 // See if Phi matches. | |
1750 uint j; | |
1751 for( j = 1; j < base->req(); j++ ) | |
1752 if( phi->in(j) != base->in(j) && | |
1753 !(phi->in(j)->is_Con() && base->in(j)->is_Con()) ) // allow different NULLs | |
1754 break; | |
1755 if( j == base->req() ) { // All inputs match? | |
1756 base = phi; // Then use existing 'phi' and drop 'base' | |
1757 break; | |
1758 } | |
1759 } | |
1760 | |
1761 | |
1762 // Cache info for later passes | |
1763 derived_base_map[derived->_idx] = base; | |
1764 return base; | |
1765 } | |
1766 | |
1767 // At each Safepoint, insert extra debug edges for each pair of derived value/ | |
1768 // base pointer that is live across the Safepoint for oopmap building. The | |
1769 // edge pairs get added in after sfpt->jvmtail()->oopoff(), but are in the | |
1770 // required edge set. | |
10111 | 1771 bool PhaseChaitin::stretch_base_pointer_live_ranges(ResourceArea *a) { |
0 | 1772 int must_recompute_live = false; |
10111 | 1773 uint maxlrg = _lrg_map.max_lrg_id(); |
0 | 1774 Node **derived_base_map = (Node**)a->Amalloc(sizeof(Node*)*C->unique()); |
1775 memset( derived_base_map, 0, sizeof(Node*)*C->unique() ); | |
1776 | |
1777 // For all blocks in RPO do... | |
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1778 for (uint i = 0; i < _cfg.number_of_blocks(); i++) { |
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1779 Block* block = _cfg.get_block(i); |
0 | 1780 // Note use of deep-copy constructor. I cannot hammer the original |
1781 // liveout bits, because they are needed by the following coalesce pass. | |
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1782 IndexSet liveout(_live->live(block)); |
0 | 1783 |
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1784 for (uint j = block->end_idx() + 1; j > 1; j--) { |
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1785 Node* n = block->get_node(j - 1); |
0 | 1786 |
1787 // Pre-split compares of loop-phis. Loop-phis form a cycle we would | |
1788 // like to see in the same register. Compare uses the loop-phi and so | |
1789 // extends its live range BUT cannot be part of the cycle. If this | |
1790 // extended live range overlaps with the update of the loop-phi value | |
1791 // we need both alive at the same time -- which requires at least 1 | |
1792 // copy. But because Intel has only 2-address registers we end up with | |
1793 // at least 2 copies, one before the loop-phi update instruction and | |
1794 // one after. Instead we split the input to the compare just after the | |
1795 // phi. | |
1796 if( n->is_Mach() && n->as_Mach()->ideal_Opcode() == Op_CmpI ) { | |
1797 Node *phi = n->in(1); | |
1798 if( phi->is_Phi() && phi->as_Phi()->region()->is_Loop() ) { | |
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1799 Block *phi_block = _cfg.get_block_for_node(phi); |
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1800 if (_cfg.get_block_for_node(phi_block->pred(2)) == block) { |
0 | 1801 const RegMask *mask = C->matcher()->idealreg2spillmask[Op_RegI]; |
1802 Node *spill = new (C) MachSpillCopyNode( phi, *mask, *mask ); | |
1803 insert_proj( phi_block, 1, spill, maxlrg++ ); | |
1804 n->set_req(1,spill); | |
1805 must_recompute_live = true; | |
1806 } | |
1807 } | |
1808 } | |
1809 | |
1810 // Get value being defined | |
10111 | 1811 uint lidx = _lrg_map.live_range_id(n); |
1812 // Ignore the occasional brand-new live range | |
1813 if (lidx && lidx < _lrg_map.max_lrg_id()) { | |
0 | 1814 // Remove from live-out set |
1815 liveout.remove(lidx); | |
1816 | |
1817 // Copies do not define a new value and so do not interfere. | |
1818 // Remove the copies source from the liveout set before interfering. | |
1819 uint idx = n->is_Copy(); | |
10111 | 1820 if (idx) { |
1821 liveout.remove(_lrg_map.live_range_id(n->in(idx))); | |
1822 } | |
0 | 1823 } |
1824 | |
1825 // Found a safepoint? | |
1826 JVMState *jvms = n->jvms(); | |
1827 if( jvms ) { | |
1828 // Now scan for a live derived pointer | |
1829 IndexSetIterator elements(&liveout); | |
1830 uint neighbor; | |
1831 while ((neighbor = elements.next()) != 0) { | |
1832 // Find reaching DEF for base and derived values | |
1833 // This works because we are still in SSA during this call. | |
1834 Node *derived = lrgs(neighbor)._def; | |
1835 const TypePtr *tj = derived->bottom_type()->isa_ptr(); | |
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1836 assert(!derived->bottom_type()->isa_narrowoop() || |
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1837 derived->bottom_type()->make_ptr()->is_ptr()->_offset == 0, "sanity"); |
0 | 1838 // If its an OOP with a non-zero offset, then it is derived. |
1839 if( tj && tj->_offset != 0 && tj->isa_oop_ptr() ) { | |
10111 | 1840 Node *base = find_base_for_derived(derived_base_map, derived, maxlrg); |
1841 assert(base->_idx < _lrg_map.size(), ""); | |
0 | 1842 // Add reaching DEFs of derived pointer and base pointer as a |
1843 // pair of inputs | |
10111 | 1844 n->add_req(derived); |
1845 n->add_req(base); | |
0 | 1846 |
1847 // See if the base pointer is already live to this point. | |
1848 // Since I'm working on the SSA form, live-ness amounts to | |
1849 // reaching def's. So if I find the base's live range then | |
1850 // I know the base's def reaches here. | |
10111 | 1851 if ((_lrg_map.live_range_id(base) >= _lrg_map.max_lrg_id() || // (Brand new base (hence not live) or |
1852 !liveout.member(_lrg_map.live_range_id(base))) && // not live) AND | |
1853 (_lrg_map.live_range_id(base) > 0) && // not a constant | |
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1854 _cfg.get_block_for_node(base) != block) { // base not def'd in blk) |
0 | 1855 // Base pointer is not currently live. Since I stretched |
1856 // the base pointer to here and it crosses basic-block | |
1857 // boundaries, the global live info is now incorrect. | |
1858 // Recompute live. | |
1859 must_recompute_live = true; | |
1860 } // End of if base pointer is not live to debug info | |
1861 } | |
1862 } // End of scan all live data for derived ptrs crossing GC point | |
1863 } // End of if found a GC point | |
1864 | |
1865 // Make all inputs live | |
10111 | 1866 if (!n->is_Phi()) { // Phi function uses come from prior block |
1867 for (uint k = 1; k < n->req(); k++) { | |
1868 uint lidx = _lrg_map.live_range_id(n->in(k)); | |
1869 if (lidx < _lrg_map.max_lrg_id()) { | |
1870 liveout.insert(lidx); | |
1871 } | |
0 | 1872 } |
1873 } | |
1874 | |
1875 } // End of forall instructions in block | |
1876 liveout.clear(); // Free the memory used by liveout. | |
1877 | |
1878 } // End of forall blocks | |
10111 | 1879 _lrg_map.set_max_lrg_id(maxlrg); |
0 | 1880 |
1881 // If I created a new live range I need to recompute live | |
10111 | 1882 if (maxlrg != _ifg->_maxlrg) { |
0 | 1883 must_recompute_live = true; |
10111 | 1884 } |
0 | 1885 |
1886 return must_recompute_live != 0; | |
1887 } | |
1888 | |
1889 // Extend the node to LRG mapping | |
10111 | 1890 |
1891 void PhaseChaitin::add_reference(const Node *node, const Node *old_node) { | |
1892 _lrg_map.extend(node->_idx, _lrg_map.live_range_id(old_node)); | |
0 | 1893 } |
1894 | |
1895 #ifndef PRODUCT | |
10111 | 1896 void PhaseChaitin::dump(const Node *n) const { |
1897 uint r = (n->_idx < _lrg_map.size()) ? _lrg_map.find_const(n) : 0; | |
0 | 1898 tty->print("L%d",r); |
10111 | 1899 if (r && n->Opcode() != Op_Phi) { |
0 | 1900 if( _node_regs ) { // Got a post-allocation copy of allocation? |
1901 tty->print("["); | |
1902 OptoReg::Name second = get_reg_second(n); | |
1903 if( OptoReg::is_valid(second) ) { | |
1904 if( OptoReg::is_reg(second) ) | |
1905 tty->print("%s:",Matcher::regName[second]); | |
1906 else | |
1907 tty->print("%s+%d:",OptoReg::regname(OptoReg::c_frame_pointer), reg2offset_unchecked(second)); | |
1908 } | |
1909 OptoReg::Name first = get_reg_first(n); | |
1910 if( OptoReg::is_reg(first) ) | |
1911 tty->print("%s]",Matcher::regName[first]); | |
1912 else | |
1913 tty->print("%s+%d]",OptoReg::regname(OptoReg::c_frame_pointer), reg2offset_unchecked(first)); | |
1914 } else | |
1915 n->out_RegMask().dump(); | |
1916 } | |
1917 tty->print("/N%d\t",n->_idx); | |
1918 tty->print("%s === ", n->Name()); | |
1919 uint k; | |
10111 | 1920 for (k = 0; k < n->req(); k++) { |
0 | 1921 Node *m = n->in(k); |
10111 | 1922 if (!m) { |
1923 tty->print("_ "); | |
1924 } | |
0 | 1925 else { |
10111 | 1926 uint r = (m->_idx < _lrg_map.size()) ? _lrg_map.find_const(m) : 0; |
0 | 1927 tty->print("L%d",r); |
1928 // Data MultiNode's can have projections with no real registers. | |
1929 // Don't die while dumping them. | |
1930 int op = n->Opcode(); | |
1931 if( r && op != Op_Phi && op != Op_Proj && op != Op_SCMemProj) { | |
1932 if( _node_regs ) { | |
1933 tty->print("["); | |
1934 OptoReg::Name second = get_reg_second(n->in(k)); | |
1935 if( OptoReg::is_valid(second) ) { | |
1936 if( OptoReg::is_reg(second) ) | |
1937 tty->print("%s:",Matcher::regName[second]); | |
1938 else | |
1939 tty->print("%s+%d:",OptoReg::regname(OptoReg::c_frame_pointer), | |
1940 reg2offset_unchecked(second)); | |
1941 } | |
1942 OptoReg::Name first = get_reg_first(n->in(k)); | |
1943 if( OptoReg::is_reg(first) ) | |
1944 tty->print("%s]",Matcher::regName[first]); | |
1945 else | |
1946 tty->print("%s+%d]",OptoReg::regname(OptoReg::c_frame_pointer), | |
1947 reg2offset_unchecked(first)); | |
1948 } else | |
1949 n->in_RegMask(k).dump(); | |
1950 } | |
1951 tty->print("/N%d ",m->_idx); | |
1952 } | |
1953 } | |
1954 if( k < n->len() && n->in(k) ) tty->print("| "); | |
1955 for( ; k < n->len(); k++ ) { | |
1956 Node *m = n->in(k); | |
10111 | 1957 if(!m) { |
1958 break; | |
1959 } | |
1960 uint r = (m->_idx < _lrg_map.size()) ? _lrg_map.find_const(m) : 0; | |
0 | 1961 tty->print("L%d",r); |
1962 tty->print("/N%d ",m->_idx); | |
1963 } | |
1964 if( n->is_Mach() ) n->as_Mach()->dump_spec(tty); | |
1965 else n->dump_spec(tty); | |
1966 if( _spilled_once.test(n->_idx ) ) { | |
1967 tty->print(" Spill_1"); | |
1968 if( _spilled_twice.test(n->_idx ) ) | |
1969 tty->print(" Spill_2"); | |
1970 } | |
1971 tty->print("\n"); | |
1972 } | |
1973 | |
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1974 void PhaseChaitin::dump(const Block *b) const { |
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1975 b->dump_head(&_cfg); |
0 | 1976 |
1977 // For all instructions | |
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1978 for( uint j = 0; j < b->number_of_nodes(); j++ ) |
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1979 dump(b->get_node(j)); |
0 | 1980 // Print live-out info at end of block |
1981 if( _live ) { | |
1982 tty->print("Liveout: "); | |
1983 IndexSet *live = _live->live(b); | |
1984 IndexSetIterator elements(live); | |
1985 tty->print("{"); | |
1986 uint i; | |
1987 while ((i = elements.next()) != 0) { | |
10111 | 1988 tty->print("L%d ", _lrg_map.find_const(i)); |
0 | 1989 } |
1990 tty->print_cr("}"); | |
1991 } | |
1992 tty->print("\n"); | |
1993 } | |
1994 | |
1995 void PhaseChaitin::dump() const { | |
1996 tty->print( "--- Chaitin -- argsize: %d framesize: %d ---\n", | |
1997 _matcher._new_SP, _framesize ); | |
1998 | |
1999 // For all blocks | |
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2000 for (uint i = 0; i < _cfg.number_of_blocks(); i++) { |
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2001 dump(_cfg.get_block(i)); |
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2002 } |
0 | 2003 // End of per-block dump |
2004 tty->print("\n"); | |
2005 | |
2006 if (!_ifg) { | |
2007 tty->print("(No IFG.)\n"); | |
2008 return; | |
2009 } | |
2010 | |
2011 // Dump LRG array | |
2012 tty->print("--- Live RanGe Array ---\n"); | |
10111 | 2013 for (uint i2 = 1; i2 < _lrg_map.max_lrg_id(); i2++) { |
0 | 2014 tty->print("L%d: ",i2); |
10111 | 2015 if (i2 < _ifg->_maxlrg) { |
2016 lrgs(i2).dump(); | |
2017 } | |
2018 else { | |
2019 tty->print_cr("new LRG"); | |
2020 } | |
0 | 2021 } |
2022 tty->print_cr(""); | |
2023 | |
2024 // Dump lo-degree list | |
2025 tty->print("Lo degree: "); | |
2026 for(uint i3 = _lo_degree; i3; i3 = lrgs(i3)._next ) | |
2027 tty->print("L%d ",i3); | |
2028 tty->print_cr(""); | |
2029 | |
2030 // Dump lo-stk-degree list | |
2031 tty->print("Lo stk degree: "); | |
2032 for(uint i4 = _lo_stk_degree; i4; i4 = lrgs(i4)._next ) | |
2033 tty->print("L%d ",i4); | |
2034 tty->print_cr(""); | |
2035 | |
2036 // Dump lo-degree list | |
2037 tty->print("Hi degree: "); | |
2038 for(uint i5 = _hi_degree; i5; i5 = lrgs(i5)._next ) | |
2039 tty->print("L%d ",i5); | |
2040 tty->print_cr(""); | |
2041 } | |
2042 | |
2043 void PhaseChaitin::dump_degree_lists() const { | |
2044 // Dump lo-degree list | |
2045 tty->print("Lo degree: "); | |
2046 for( uint i = _lo_degree; i; i = lrgs(i)._next ) | |
2047 tty->print("L%d ",i); | |
2048 tty->print_cr(""); | |
2049 | |
2050 // Dump lo-stk-degree list | |
2051 tty->print("Lo stk degree: "); | |
2052 for(uint i2 = _lo_stk_degree; i2; i2 = lrgs(i2)._next ) | |
2053 tty->print("L%d ",i2); | |
2054 tty->print_cr(""); | |
2055 | |
2056 // Dump lo-degree list | |
2057 tty->print("Hi degree: "); | |
2058 for(uint i3 = _hi_degree; i3; i3 = lrgs(i3)._next ) | |
2059 tty->print("L%d ",i3); | |
2060 tty->print_cr(""); | |
2061 } | |
2062 | |
2063 void PhaseChaitin::dump_simplified() const { | |
2064 tty->print("Simplified: "); | |
2065 for( uint i = _simplified; i; i = lrgs(i)._next ) | |
2066 tty->print("L%d ",i); | |
2067 tty->print_cr(""); | |
2068 } | |
2069 | |
2070 static char *print_reg( OptoReg::Name reg, const PhaseChaitin *pc, char *buf ) { | |
2071 if ((int)reg < 0) | |
2072 sprintf(buf, "<OptoReg::%d>", (int)reg); | |
2073 else if (OptoReg::is_reg(reg)) | |
2074 strcpy(buf, Matcher::regName[reg]); | |
2075 else | |
2076 sprintf(buf,"%s + #%d",OptoReg::regname(OptoReg::c_frame_pointer), | |
2077 pc->reg2offset(reg)); | |
2078 return buf+strlen(buf); | |
2079 } | |
2080 | |
2081 // Dump a register name into a buffer. Be intelligent if we get called | |
2082 // before allocation is complete. | |
2083 char *PhaseChaitin::dump_register( const Node *n, char *buf ) const { | |
2084 if( !this ) { // Not got anything? | |
2085 sprintf(buf,"N%d",n->_idx); // Then use Node index | |
2086 } else if( _node_regs ) { | |
2087 // Post allocation, use direct mappings, no LRG info available | |
2088 print_reg( get_reg_first(n), this, buf ); | |
2089 } else { | |
10111 | 2090 uint lidx = _lrg_map.find_const(n); // Grab LRG number |
0 | 2091 if( !_ifg ) { |
2092 sprintf(buf,"L%d",lidx); // No register binding yet | |
2093 } else if( !lidx ) { // Special, not allocated value | |
2094 strcpy(buf,"Special"); | |
6179
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2095 } else { |
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|
2096 if (lrgs(lidx)._is_vector) { |
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2097 if (lrgs(lidx).mask().is_bound_set(lrgs(lidx).num_regs())) |
8c92982cbbc4
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|
2098 print_reg( lrgs(lidx).reg(), this, buf ); // a bound machine register |
8c92982cbbc4
7119644: Increase superword's vector size up to 256 bits
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|
2099 else |
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2100 sprintf(buf,"L%d",lidx); // No register binding yet |
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2101 } else if( (lrgs(lidx).num_regs() == 1) |
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2102 ? lrgs(lidx).mask().is_bound1() |
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2103 : lrgs(lidx).mask().is_bound_pair() ) { |
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2104 // Hah! We have a bound machine register |
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|
2105 print_reg( lrgs(lidx).reg(), this, buf ); |
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2106 } else { |
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|
2107 sprintf(buf,"L%d",lidx); // No register binding yet |
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2108 } |
0 | 2109 } |
2110 } | |
2111 return buf+strlen(buf); | |
2112 } | |
2113 | |
2114 void PhaseChaitin::dump_for_spill_split_recycle() const { | |
2115 if( WizardMode && (PrintCompilation || PrintOpto) ) { | |
2116 // Display which live ranges need to be split and the allocator's state | |
2117 tty->print_cr("Graph-Coloring Iteration %d will split the following live ranges", _trip_cnt); | |
10111 | 2118 for (uint bidx = 1; bidx < _lrg_map.max_lrg_id(); bidx++) { |
0 | 2119 if( lrgs(bidx).alive() && lrgs(bidx).reg() >= LRG::SPILL_REG ) { |
2120 tty->print("L%d: ", bidx); | |
2121 lrgs(bidx).dump(); | |
2122 } | |
2123 } | |
2124 tty->cr(); | |
2125 dump(); | |
2126 } | |
2127 } | |
2128 | |
2129 void PhaseChaitin::dump_frame() const { | |
2130 const char *fp = OptoReg::regname(OptoReg::c_frame_pointer); | |
2131 const TypeTuple *domain = C->tf()->domain(); | |
2132 const int argcnt = domain->cnt() - TypeFunc::Parms; | |
2133 | |
2134 // Incoming arguments in registers dump | |
2135 for( int k = 0; k < argcnt; k++ ) { | |
2136 OptoReg::Name parmreg = _matcher._parm_regs[k].first(); | |
2137 if( OptoReg::is_reg(parmreg)) { | |
2138 const char *reg_name = OptoReg::regname(parmreg); | |
2139 tty->print("#r%3.3d %s", parmreg, reg_name); | |
2140 parmreg = _matcher._parm_regs[k].second(); | |
2141 if( OptoReg::is_reg(parmreg)) { | |
2142 tty->print(":%s", OptoReg::regname(parmreg)); | |
2143 } | |
2144 tty->print(" : parm %d: ", k); | |
2145 domain->field_at(k + TypeFunc::Parms)->dump(); | |
2146 tty->print_cr(""); | |
2147 } | |
2148 } | |
2149 | |
2150 // Check for un-owned padding above incoming args | |
2151 OptoReg::Name reg = _matcher._new_SP; | |
2152 if( reg > _matcher._in_arg_limit ) { | |
2153 reg = OptoReg::add(reg, -1); | |
2154 tty->print_cr("#r%3.3d %s+%2d: pad0, owned by CALLER", reg, fp, reg2offset_unchecked(reg)); | |
2155 } | |
2156 | |
2157 // Incoming argument area dump | |
2158 OptoReg::Name begin_in_arg = OptoReg::add(_matcher._old_SP,C->out_preserve_stack_slots()); | |
2159 while( reg > begin_in_arg ) { | |
2160 reg = OptoReg::add(reg, -1); | |
2161 tty->print("#r%3.3d %s+%2d: ",reg,fp,reg2offset_unchecked(reg)); | |
2162 int j; | |
2163 for( j = 0; j < argcnt; j++) { | |
2164 if( _matcher._parm_regs[j].first() == reg || | |
2165 _matcher._parm_regs[j].second() == reg ) { | |
2166 tty->print("parm %d: ",j); | |
2167 domain->field_at(j + TypeFunc::Parms)->dump(); | |
2168 tty->print_cr(""); | |
2169 break; | |
2170 } | |
2171 } | |
2172 if( j >= argcnt ) | |
2173 tty->print_cr("HOLE, owned by SELF"); | |
2174 } | |
2175 | |
2176 // Old outgoing preserve area | |
2177 while( reg > _matcher._old_SP ) { | |
2178 reg = OptoReg::add(reg, -1); | |
2179 tty->print_cr("#r%3.3d %s+%2d: old out preserve",reg,fp,reg2offset_unchecked(reg)); | |
2180 } | |
2181 | |
2182 // Old SP | |
2183 tty->print_cr("# -- Old %s -- Framesize: %d --",fp, | |
2184 reg2offset_unchecked(OptoReg::add(_matcher._old_SP,-1)) - reg2offset_unchecked(_matcher._new_SP)+jintSize); | |
2185 | |
2186 // Preserve area dump | |
4950 | 2187 int fixed_slots = C->fixed_slots(); |
2188 OptoReg::Name begin_in_preserve = OptoReg::add(_matcher._old_SP, -(int)C->in_preserve_stack_slots()); | |
2189 OptoReg::Name return_addr = _matcher.return_addr(); | |
2190 | |
0 | 2191 reg = OptoReg::add(reg, -1); |
4950 | 2192 while (OptoReg::is_stack(reg)) { |
0 | 2193 tty->print("#r%3.3d %s+%2d: ",reg,fp,reg2offset_unchecked(reg)); |
4950 | 2194 if (return_addr == reg) { |
0 | 2195 tty->print_cr("return address"); |
4950 | 2196 } else if (reg >= begin_in_preserve) { |
2197 // Preserved slots are present on x86 | |
2198 if (return_addr == OptoReg::add(reg, VMRegImpl::slots_per_word)) | |
2199 tty->print_cr("saved fp register"); | |
2200 else if (return_addr == OptoReg::add(reg, 2*VMRegImpl::slots_per_word) && | |
2201 VerifyStackAtCalls) | |
2202 tty->print_cr("0xBADB100D +VerifyStackAtCalls"); | |
2203 else | |
2204 tty->print_cr("in_preserve"); | |
2205 } else if ((int)OptoReg::reg2stack(reg) < fixed_slots) { | |
0 | 2206 tty->print_cr("Fixed slot %d", OptoReg::reg2stack(reg)); |
4950 | 2207 } else { |
2208 tty->print_cr("pad2, stack alignment"); | |
2209 } | |
0 | 2210 reg = OptoReg::add(reg, -1); |
2211 } | |
2212 | |
2213 // Spill area dump | |
2214 reg = OptoReg::add(_matcher._new_SP, _framesize ); | |
2215 while( reg > _matcher._out_arg_limit ) { | |
2216 reg = OptoReg::add(reg, -1); | |
2217 tty->print_cr("#r%3.3d %s+%2d: spill",reg,fp,reg2offset_unchecked(reg)); | |
2218 } | |
2219 | |
2220 // Outgoing argument area dump | |
2221 while( reg > OptoReg::add(_matcher._new_SP, C->out_preserve_stack_slots()) ) { | |
2222 reg = OptoReg::add(reg, -1); | |
2223 tty->print_cr("#r%3.3d %s+%2d: outgoing argument",reg,fp,reg2offset_unchecked(reg)); | |
2224 } | |
2225 | |
2226 // Outgoing new preserve area | |
2227 while( reg > _matcher._new_SP ) { | |
2228 reg = OptoReg::add(reg, -1); | |
2229 tty->print_cr("#r%3.3d %s+%2d: new out preserve",reg,fp,reg2offset_unchecked(reg)); | |
2230 } | |
2231 tty->print_cr("#"); | |
2232 } | |
2233 | |
2234 void PhaseChaitin::dump_bb( uint pre_order ) const { | |
2235 tty->print_cr("---dump of B%d---",pre_order); | |
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diff
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|
2236 for (uint i = 0; i < _cfg.number_of_blocks(); i++) { |
adb9a7d94cb5
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diff
changeset
|
2237 Block* block = _cfg.get_block(i); |
adb9a7d94cb5
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diff
changeset
|
2238 if (block->_pre_order == pre_order) { |
adb9a7d94cb5
8023003: Cleanup the public interface to PhaseCFG
adlertz
parents:
12023
diff
changeset
|
2239 dump(block); |
adb9a7d94cb5
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12023
diff
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|
2240 } |
0 | 2241 } |
2242 } | |
2243 | |
2016
361783318e7e
7004940: CTW: assert(!def_outside->member(r)) failed: Use of external LRG overlaps the same LRG
never
parents:
1972
diff
changeset
|
2244 void PhaseChaitin::dump_lrg( uint lidx, bool defs_only ) const { |
0 | 2245 tty->print_cr("---dump of L%d---",lidx); |
2246 | |
10111 | 2247 if (_ifg) { |
2248 if (lidx >= _lrg_map.max_lrg_id()) { | |
0 | 2249 tty->print("Attempt to print live range index beyond max live range.\n"); |
2250 return; | |
2251 } | |
2252 tty->print("L%d: ",lidx); | |
10111 | 2253 if (lidx < _ifg->_maxlrg) { |
2254 lrgs(lidx).dump(); | |
2255 } else { | |
2256 tty->print_cr("new LRG"); | |
2257 } | |
0 | 2258 } |
2016
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never
parents:
1972
diff
changeset
|
2259 if( _ifg && lidx < _ifg->_maxlrg) { |
361783318e7e
7004940: CTW: assert(!def_outside->member(r)) failed: Use of external LRG overlaps the same LRG
never
parents:
1972
diff
changeset
|
2260 tty->print("Neighbors: %d - ", _ifg->neighbor_cnt(lidx)); |
0 | 2261 _ifg->neighbors(lidx)->dump(); |
2262 tty->cr(); | |
2263 } | |
2264 // For all blocks | |
12071
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adlertz
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12023
diff
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|
2265 for (uint i = 0; i < _cfg.number_of_blocks(); i++) { |
adb9a7d94cb5
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12023
diff
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|
2266 Block* block = _cfg.get_block(i); |
0 | 2267 int dump_once = 0; |
2268 | |
2269 // For all instructions | |
12167
650868c062a9
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adlertz
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12075
diff
changeset
|
2270 for( uint j = 0; j < block->number_of_nodes(); j++ ) { |
650868c062a9
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adlertz
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12075
diff
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|
2271 Node *n = block->get_node(j); |
10111 | 2272 if (_lrg_map.find_const(n) == lidx) { |
2273 if (!dump_once++) { | |
0 | 2274 tty->cr(); |
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diff
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|
2275 block->dump_head(&_cfg); |
0 | 2276 } |
2277 dump(n); | |
2278 continue; | |
2279 } | |
2016
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diff
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|
2280 if (!defs_only) { |
361783318e7e
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parents:
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diff
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|
2281 uint cnt = n->req(); |
361783318e7e
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parents:
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diff
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|
2282 for( uint k = 1; k < cnt; k++ ) { |
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parents:
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diff
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|
2283 Node *m = n->in(k); |
10111 | 2284 if (!m) { |
2285 continue; // be robust in the dumper | |
2286 } | |
2287 if (_lrg_map.find_const(m) == lidx) { | |
2288 if (!dump_once++) { | |
2016
361783318e7e
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parents:
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diff
changeset
|
2289 tty->cr(); |
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diff
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|
2290 block->dump_head(&_cfg); |
2016
361783318e7e
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parents:
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diff
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|
2291 } |
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|
2292 dump(n); |
0 | 2293 } |
2294 } | |
2295 } | |
2296 } | |
2297 } // End of per-block dump | |
2298 tty->cr(); | |
2299 } | |
2300 #endif // not PRODUCT | |
2301 | |
2302 int PhaseChaitin::_final_loads = 0; | |
2303 int PhaseChaitin::_final_stores = 0; | |
2304 int PhaseChaitin::_final_memoves= 0; | |
2305 int PhaseChaitin::_final_copies = 0; | |
2306 double PhaseChaitin::_final_load_cost = 0; | |
2307 double PhaseChaitin::_final_store_cost = 0; | |
2308 double PhaseChaitin::_final_memove_cost= 0; | |
2309 double PhaseChaitin::_final_copy_cost = 0; | |
2310 int PhaseChaitin::_conserv_coalesce = 0; | |
2311 int PhaseChaitin::_conserv_coalesce_pair = 0; | |
2312 int PhaseChaitin::_conserv_coalesce_trie = 0; | |
2313 int PhaseChaitin::_conserv_coalesce_quad = 0; | |
2314 int PhaseChaitin::_post_alloc = 0; | |
2315 int PhaseChaitin::_lost_opp_pp_coalesce = 0; | |
2316 int PhaseChaitin::_lost_opp_cflow_coalesce = 0; | |
2317 int PhaseChaitin::_used_cisc_instructions = 0; | |
2318 int PhaseChaitin::_unused_cisc_instructions = 0; | |
2319 int PhaseChaitin::_allocator_attempts = 0; | |
2320 int PhaseChaitin::_allocator_successes = 0; | |
2321 | |
2322 #ifndef PRODUCT | |
2323 uint PhaseChaitin::_high_pressure = 0; | |
2324 uint PhaseChaitin::_low_pressure = 0; | |
2325 | |
2326 void PhaseChaitin::print_chaitin_statistics() { | |
2327 tty->print_cr("Inserted %d spill loads, %d spill stores, %d mem-mem moves and %d copies.", _final_loads, _final_stores, _final_memoves, _final_copies); | |
2328 tty->print_cr("Total load cost= %6.0f, store cost = %6.0f, mem-mem cost = %5.2f, copy cost = %5.0f.", _final_load_cost, _final_store_cost, _final_memove_cost, _final_copy_cost); | |
2329 tty->print_cr("Adjusted spill cost = %7.0f.", | |
2330 _final_load_cost*4.0 + _final_store_cost * 2.0 + | |
2331 _final_copy_cost*1.0 + _final_memove_cost*12.0); | |
2332 tty->print("Conservatively coalesced %d copies, %d pairs", | |
2333 _conserv_coalesce, _conserv_coalesce_pair); | |
2334 if( _conserv_coalesce_trie || _conserv_coalesce_quad ) | |
2335 tty->print(", %d tries, %d quads", _conserv_coalesce_trie, _conserv_coalesce_quad); | |
2336 tty->print_cr(", %d post alloc.", _post_alloc); | |
2337 if( _lost_opp_pp_coalesce || _lost_opp_cflow_coalesce ) | |
2338 tty->print_cr("Lost coalesce opportunity, %d private-private, and %d cflow interfered.", | |
2339 _lost_opp_pp_coalesce, _lost_opp_cflow_coalesce ); | |
2340 if( _used_cisc_instructions || _unused_cisc_instructions ) | |
2341 tty->print_cr("Used cisc instruction %d, remained in register %d", | |
2342 _used_cisc_instructions, _unused_cisc_instructions); | |
2343 if( _allocator_successes != 0 ) | |
2344 tty->print_cr("Average allocation trips %f", (float)_allocator_attempts/(float)_allocator_successes); | |
2345 tty->print_cr("High Pressure Blocks = %d, Low Pressure Blocks = %d", _high_pressure, _low_pressure); | |
2346 } | |
2347 #endif // not PRODUCT |