Mercurial > hg > truffle
annotate src/share/vm/opto/buildOopMap.cpp @ 6972:bd7a7ce2e264
6830717: replay of compilations would help with debugging
Summary: When java process crashed in compiler thread, repeat the compilation process will help finding root cause. This is done with using SA dump application class data and replay data from core dump, then use debug version of jvm to recompile the problematic java method.
Reviewed-by: kvn, twisti, sspitsyn
Contributed-by: yumin.qi@oracle.com
author | minqi |
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date | Mon, 12 Nov 2012 14:03:53 -0800 |
parents | 1d1603768966 |
children | d1034bd8cefc |
rev | line source |
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0 | 1 /* |
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2 * Copyright (c) 2002, 2011, Oracle and/or its affiliates. All rights reserved. |
0 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #include "precompiled.hpp" |
26 #include "compiler/oopMap.hpp" | |
27 #include "opto/addnode.hpp" | |
28 #include "opto/callnode.hpp" | |
29 #include "opto/compile.hpp" | |
30 #include "opto/machnode.hpp" | |
31 #include "opto/matcher.hpp" | |
32 #include "opto/phase.hpp" | |
33 #include "opto/regalloc.hpp" | |
34 #include "opto/rootnode.hpp" | |
35 #ifdef TARGET_ARCH_x86 | |
36 # include "vmreg_x86.inline.hpp" | |
37 #endif | |
38 #ifdef TARGET_ARCH_sparc | |
39 # include "vmreg_sparc.inline.hpp" | |
40 #endif | |
41 #ifdef TARGET_ARCH_zero | |
42 # include "vmreg_zero.inline.hpp" | |
43 #endif | |
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44 #ifdef TARGET_ARCH_arm |
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45 # include "vmreg_arm.inline.hpp" |
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46 #endif |
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47 #ifdef TARGET_ARCH_ppc |
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48 # include "vmreg_ppc.inline.hpp" |
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49 #endif |
0 | 50 |
51 // The functions in this file builds OopMaps after all scheduling is done. | |
52 // | |
53 // OopMaps contain a list of all registers and stack-slots containing oops (so | |
54 // they can be updated by GC). OopMaps also contain a list of derived-pointer | |
55 // base-pointer pairs. When the base is moved, the derived pointer moves to | |
56 // follow it. Finally, any registers holding callee-save values are also | |
57 // recorded. These might contain oops, but only the caller knows. | |
58 // | |
59 // BuildOopMaps implements a simple forward reaching-defs solution. At each | |
60 // GC point we'll have the reaching-def Nodes. If the reaching Nodes are | |
61 // typed as pointers (no offset), then they are oops. Pointers+offsets are | |
62 // derived pointers, and bases can be found from them. Finally, we'll also | |
63 // track reaching callee-save values. Note that a copy of a callee-save value | |
64 // "kills" it's source, so that only 1 copy of a callee-save value is alive at | |
65 // a time. | |
66 // | |
67 // We run a simple bitvector liveness pass to help trim out dead oops. Due to | |
68 // irreducible loops, we can have a reaching def of an oop that only reaches | |
69 // along one path and no way to know if it's valid or not on the other path. | |
70 // The bitvectors are quite dense and the liveness pass is fast. | |
71 // | |
72 // At GC points, we consult this information to build OopMaps. All reaching | |
73 // defs typed as oops are added to the OopMap. Only 1 instance of a | |
74 // callee-save register can be recorded. For derived pointers, we'll have to | |
75 // find and record the register holding the base. | |
76 // | |
77 // The reaching def's is a simple 1-pass worklist approach. I tried a clever | |
78 // breadth-first approach but it was worse (showed O(n^2) in the | |
79 // pick-next-block code). | |
80 // | |
605 | 81 // The relevant data is kept in a struct of arrays (it could just as well be |
0 | 82 // an array of structs, but the struct-of-arrays is generally a little more |
83 // efficient). The arrays are indexed by register number (including | |
84 // stack-slots as registers) and so is bounded by 200 to 300 elements in | |
85 // practice. One array will map to a reaching def Node (or NULL for | |
86 // conflict/dead). The other array will map to a callee-saved register or | |
87 // OptoReg::Bad for not-callee-saved. | |
88 | |
89 | |
90 //------------------------------OopFlow---------------------------------------- | |
91 // Structure to pass around | |
92 struct OopFlow : public ResourceObj { | |
93 short *_callees; // Array mapping register to callee-saved | |
94 Node **_defs; // array mapping register to reaching def | |
95 // or NULL if dead/conflict | |
96 // OopFlow structs, when not being actively modified, describe the _end_ of | |
97 // this block. | |
98 Block *_b; // Block for this struct | |
99 OopFlow *_next; // Next free OopFlow | |
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100 // or NULL if dead/conflict |
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101 Compile* C; |
0 | 102 |
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103 OopFlow( short *callees, Node **defs, Compile* c ) : _callees(callees), _defs(defs), |
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104 _b(NULL), _next(NULL), C(c) { } |
0 | 105 |
106 // Given reaching-defs for this block start, compute it for this block end | |
107 void compute_reach( PhaseRegAlloc *regalloc, int max_reg, Dict *safehash ); | |
108 | |
109 // Merge these two OopFlows into the 'this' pointer. | |
110 void merge( OopFlow *flow, int max_reg ); | |
111 | |
112 // Copy a 'flow' over an existing flow | |
113 void clone( OopFlow *flow, int max_size); | |
114 | |
115 // Make a new OopFlow from scratch | |
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116 static OopFlow *make( Arena *A, int max_size, Compile* C ); |
0 | 117 |
118 // Build an oopmap from the current flow info | |
119 OopMap *build_oop_map( Node *n, int max_reg, PhaseRegAlloc *regalloc, int* live ); | |
120 }; | |
121 | |
122 //------------------------------compute_reach---------------------------------- | |
123 // Given reaching-defs for this block start, compute it for this block end | |
124 void OopFlow::compute_reach( PhaseRegAlloc *regalloc, int max_reg, Dict *safehash ) { | |
125 | |
126 for( uint i=0; i<_b->_nodes.size(); i++ ) { | |
127 Node *n = _b->_nodes[i]; | |
128 | |
129 if( n->jvms() ) { // Build an OopMap here? | |
130 JVMState *jvms = n->jvms(); | |
131 // no map needed for leaf calls | |
132 if( n->is_MachSafePoint() && !n->is_MachCallLeaf() ) { | |
133 int *live = (int*) (*safehash)[n]; | |
134 assert( live, "must find live" ); | |
135 n->as_MachSafePoint()->set_oop_map( build_oop_map(n,max_reg,regalloc, live) ); | |
136 } | |
137 } | |
138 | |
139 // Assign new reaching def's. | |
140 // Note that I padded the _defs and _callees arrays so it's legal | |
141 // to index at _defs[OptoReg::Bad]. | |
142 OptoReg::Name first = regalloc->get_reg_first(n); | |
143 OptoReg::Name second = regalloc->get_reg_second(n); | |
144 _defs[first] = n; | |
145 _defs[second] = n; | |
146 | |
147 // Pass callee-save info around copies | |
148 int idx = n->is_Copy(); | |
149 if( idx ) { // Copies move callee-save info | |
150 OptoReg::Name old_first = regalloc->get_reg_first(n->in(idx)); | |
151 OptoReg::Name old_second = regalloc->get_reg_second(n->in(idx)); | |
152 int tmp_first = _callees[old_first]; | |
153 int tmp_second = _callees[old_second]; | |
154 _callees[old_first] = OptoReg::Bad; // callee-save is moved, dead in old location | |
155 _callees[old_second] = OptoReg::Bad; | |
156 _callees[first] = tmp_first; | |
157 _callees[second] = tmp_second; | |
158 } else if( n->is_Phi() ) { // Phis do not mod callee-saves | |
159 assert( _callees[first] == _callees[regalloc->get_reg_first(n->in(1))], "" ); | |
160 assert( _callees[second] == _callees[regalloc->get_reg_second(n->in(1))], "" ); | |
161 assert( _callees[first] == _callees[regalloc->get_reg_first(n->in(n->req()-1))], "" ); | |
162 assert( _callees[second] == _callees[regalloc->get_reg_second(n->in(n->req()-1))], "" ); | |
163 } else { | |
164 _callees[first] = OptoReg::Bad; // No longer holding a callee-save value | |
165 _callees[second] = OptoReg::Bad; | |
166 | |
167 // Find base case for callee saves | |
168 if( n->is_Proj() && n->in(0)->is_Start() ) { | |
169 if( OptoReg::is_reg(first) && | |
170 regalloc->_matcher.is_save_on_entry(first) ) | |
171 _callees[first] = first; | |
172 if( OptoReg::is_reg(second) && | |
173 regalloc->_matcher.is_save_on_entry(second) ) | |
174 _callees[second] = second; | |
175 } | |
176 } | |
177 } | |
178 } | |
179 | |
180 //------------------------------merge------------------------------------------ | |
181 // Merge the given flow into the 'this' flow | |
182 void OopFlow::merge( OopFlow *flow, int max_reg ) { | |
183 assert( _b == NULL, "merging into a happy flow" ); | |
184 assert( flow->_b, "this flow is still alive" ); | |
185 assert( flow != this, "no self flow" ); | |
186 | |
187 // Do the merge. If there are any differences, drop to 'bottom' which | |
188 // is OptoReg::Bad or NULL depending. | |
189 for( int i=0; i<max_reg; i++ ) { | |
190 // Merge the callee-save's | |
191 if( _callees[i] != flow->_callees[i] ) | |
192 _callees[i] = OptoReg::Bad; | |
193 // Merge the reaching defs | |
194 if( _defs[i] != flow->_defs[i] ) | |
195 _defs[i] = NULL; | |
196 } | |
197 | |
198 } | |
199 | |
200 //------------------------------clone------------------------------------------ | |
201 void OopFlow::clone( OopFlow *flow, int max_size ) { | |
202 _b = flow->_b; | |
203 memcpy( _callees, flow->_callees, sizeof(short)*max_size); | |
204 memcpy( _defs , flow->_defs , sizeof(Node*)*max_size); | |
205 } | |
206 | |
207 //------------------------------make------------------------------------------- | |
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208 OopFlow *OopFlow::make( Arena *A, int max_size, Compile* C ) { |
0 | 209 short *callees = NEW_ARENA_ARRAY(A,short,max_size+1); |
210 Node **defs = NEW_ARENA_ARRAY(A,Node*,max_size+1); | |
211 debug_only( memset(defs,0,(max_size+1)*sizeof(Node*)) ); | |
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212 OopFlow *flow = new (A) OopFlow(callees+1, defs+1, C); |
0 | 213 assert( &flow->_callees[OptoReg::Bad] == callees, "Ok to index at OptoReg::Bad" ); |
214 assert( &flow->_defs [OptoReg::Bad] == defs , "Ok to index at OptoReg::Bad" ); | |
215 return flow; | |
216 } | |
217 | |
218 //------------------------------bit twiddlers---------------------------------- | |
219 static int get_live_bit( int *live, int reg ) { | |
220 return live[reg>>LogBitsPerInt] & (1<<(reg&(BitsPerInt-1))); } | |
221 static void set_live_bit( int *live, int reg ) { | |
222 live[reg>>LogBitsPerInt] |= (1<<(reg&(BitsPerInt-1))); } | |
223 static void clr_live_bit( int *live, int reg ) { | |
224 live[reg>>LogBitsPerInt] &= ~(1<<(reg&(BitsPerInt-1))); } | |
225 | |
226 //------------------------------build_oop_map---------------------------------- | |
227 // Build an oopmap from the current flow info | |
228 OopMap *OopFlow::build_oop_map( Node *n, int max_reg, PhaseRegAlloc *regalloc, int* live ) { | |
229 int framesize = regalloc->_framesize; | |
230 int max_inarg_slot = OptoReg::reg2stack(regalloc->_matcher._new_SP); | |
231 debug_only( char *dup_check = NEW_RESOURCE_ARRAY(char,OptoReg::stack0()); | |
232 memset(dup_check,0,OptoReg::stack0()) ); | |
233 | |
234 OopMap *omap = new OopMap( framesize, max_inarg_slot ); | |
235 MachCallNode *mcall = n->is_MachCall() ? n->as_MachCall() : NULL; | |
236 JVMState* jvms = n->jvms(); | |
237 | |
238 // For all registers do... | |
239 for( int reg=0; reg<max_reg; reg++ ) { | |
240 if( get_live_bit(live,reg) == 0 ) | |
241 continue; // Ignore if not live | |
242 | |
243 // %%% C2 can use 2 OptoRegs when the physical register is only one 64bit | |
244 // register in that case we'll get an non-concrete register for the second | |
245 // half. We only need to tell the map the register once! | |
246 // | |
247 // However for the moment we disable this change and leave things as they | |
248 // were. | |
249 | |
250 VMReg r = OptoReg::as_VMReg(OptoReg::Name(reg), framesize, max_inarg_slot); | |
251 | |
252 if (false && r->is_reg() && !r->is_concrete()) { | |
253 continue; | |
254 } | |
255 | |
256 // See if dead (no reaching def). | |
257 Node *def = _defs[reg]; // Get reaching def | |
258 assert( def, "since live better have reaching def" ); | |
259 | |
260 // Classify the reaching def as oop, derived, callee-save, dead, or other | |
261 const Type *t = def->bottom_type(); | |
262 if( t->isa_oop_ptr() ) { // Oop or derived? | |
263 assert( !OptoReg::is_valid(_callees[reg]), "oop can't be callee save" ); | |
264 #ifdef _LP64 | |
265 // 64-bit pointers record oop-ishness on 2 aligned adjacent registers. | |
266 // Make sure both are record from the same reaching def, but do not | |
267 // put both into the oopmap. | |
268 if( (reg&1) == 1 ) { // High half of oop-pair? | |
269 assert( _defs[reg-1] == _defs[reg], "both halves from same reaching def" ); | |
270 continue; // Do not record high parts in oopmap | |
271 } | |
272 #endif | |
273 | |
274 // Check for a legal reg name in the oopMap and bailout if it is not. | |
275 if (!omap->legal_vm_reg_name(r)) { | |
276 regalloc->C->record_method_not_compilable("illegal oopMap register name"); | |
277 continue; | |
278 } | |
279 if( t->is_ptr()->_offset == 0 ) { // Not derived? | |
280 if( mcall ) { | |
281 // Outgoing argument GC mask responsibility belongs to the callee, | |
282 // not the caller. Inspect the inputs to the call, to see if | |
283 // this live-range is one of them. | |
284 uint cnt = mcall->tf()->domain()->cnt(); | |
285 uint j; | |
286 for( j = TypeFunc::Parms; j < cnt; j++) | |
287 if( mcall->in(j) == def ) | |
288 break; // reaching def is an argument oop | |
289 if( j < cnt ) // arg oops dont go in GC map | |
290 continue; // Continue on to the next register | |
291 } | |
292 omap->set_oop(r); | |
293 } else { // Else it's derived. | |
294 // Find the base of the derived value. | |
295 uint i; | |
296 // Fast, common case, scan | |
297 for( i = jvms->oopoff(); i < n->req(); i+=2 ) | |
298 if( n->in(i) == def ) break; // Common case | |
299 if( i == n->req() ) { // Missed, try a more generous scan | |
300 // Scan again, but this time peek through copies | |
301 for( i = jvms->oopoff(); i < n->req(); i+=2 ) { | |
302 Node *m = n->in(i); // Get initial derived value | |
303 while( 1 ) { | |
304 Node *d = def; // Get initial reaching def | |
305 while( 1 ) { // Follow copies of reaching def to end | |
306 if( m == d ) goto found; // breaks 3 loops | |
307 int idx = d->is_Copy(); | |
308 if( !idx ) break; | |
309 d = d->in(idx); // Link through copy | |
310 } | |
311 int idx = m->is_Copy(); | |
312 if( !idx ) break; | |
313 m = m->in(idx); | |
314 } | |
315 } | |
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316 guarantee( 0, "must find derived/base pair" ); |
0 | 317 } |
318 found: ; | |
319 Node *base = n->in(i+1); // Base is other half of pair | |
320 int breg = regalloc->get_reg_first(base); | |
321 VMReg b = OptoReg::as_VMReg(OptoReg::Name(breg), framesize, max_inarg_slot); | |
322 | |
323 // I record liveness at safepoints BEFORE I make the inputs | |
324 // live. This is because argument oops are NOT live at a | |
325 // safepoint (or at least they cannot appear in the oopmap). | |
326 // Thus bases of base/derived pairs might not be in the | |
327 // liveness data but they need to appear in the oopmap. | |
328 if( get_live_bit(live,breg) == 0 ) {// Not live? | |
329 // Flag it, so next derived pointer won't re-insert into oopmap | |
330 set_live_bit(live,breg); | |
331 // Already missed our turn? | |
332 if( breg < reg ) { | |
333 if (b->is_stack() || b->is_concrete() || true ) { | |
334 omap->set_oop( b); | |
335 } | |
336 } | |
337 } | |
338 if (b->is_stack() || b->is_concrete() || true ) { | |
339 omap->set_derived_oop( r, b); | |
340 } | |
341 } | |
342 | |
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343 } else if( t->isa_narrowoop() ) { |
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344 assert( !OptoReg::is_valid(_callees[reg]), "oop can't be callee save" ); |
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345 // Check for a legal reg name in the oopMap and bailout if it is not. |
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346 if (!omap->legal_vm_reg_name(r)) { |
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347 regalloc->C->record_method_not_compilable("illegal oopMap register name"); |
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348 continue; |
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349 } |
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350 if( mcall ) { |
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351 // Outgoing argument GC mask responsibility belongs to the callee, |
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352 // not the caller. Inspect the inputs to the call, to see if |
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353 // this live-range is one of them. |
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354 uint cnt = mcall->tf()->domain()->cnt(); |
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355 uint j; |
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356 for( j = TypeFunc::Parms; j < cnt; j++) |
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357 if( mcall->in(j) == def ) |
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358 break; // reaching def is an argument oop |
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359 if( j < cnt ) // arg oops dont go in GC map |
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360 continue; // Continue on to the next register |
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361 } |
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362 omap->set_narrowoop(r); |
0 | 363 } else if( OptoReg::is_valid(_callees[reg])) { // callee-save? |
364 // It's a callee-save value | |
365 assert( dup_check[_callees[reg]]==0, "trying to callee save same reg twice" ); | |
366 debug_only( dup_check[_callees[reg]]=1; ) | |
367 VMReg callee = OptoReg::as_VMReg(OptoReg::Name(_callees[reg])); | |
368 if ( callee->is_concrete() || true ) { | |
369 omap->set_callee_saved( r, callee); | |
370 } | |
371 | |
372 } else { | |
373 // Other - some reaching non-oop value | |
374 omap->set_value( r); | |
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375 #ifdef ASSERT |
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376 if( t->isa_rawptr() && C->cfg()->_raw_oops.member(def) ) { |
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377 def->dump(); |
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378 n->dump(); |
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379 assert(false, "there should be a oop in OopMap instead of a live raw oop at safepoint"); |
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380 } |
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381 #endif |
0 | 382 } |
383 | |
384 } | |
385 | |
386 #ifdef ASSERT | |
387 /* Nice, Intel-only assert | |
388 int cnt_callee_saves=0; | |
389 int reg2 = 0; | |
390 while (OptoReg::is_reg(reg2)) { | |
391 if( dup_check[reg2] != 0) cnt_callee_saves++; | |
392 assert( cnt_callee_saves==3 || cnt_callee_saves==5, "missed some callee-save" ); | |
393 reg2++; | |
394 } | |
395 */ | |
396 #endif | |
397 | |
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398 #ifdef ASSERT |
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399 for( OopMapStream oms1(omap, OopMapValue::derived_oop_value); !oms1.is_done(); oms1.next()) { |
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400 OopMapValue omv1 = oms1.current(); |
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401 bool found = false; |
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402 for( OopMapStream oms2(omap,OopMapValue::oop_value); !oms2.is_done(); oms2.next()) { |
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403 if( omv1.content_reg() == oms2.current().reg() ) { |
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404 found = true; |
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405 break; |
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406 } |
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407 } |
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408 assert( found, "derived with no base in oopmap" ); |
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409 } |
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410 #endif |
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411 |
0 | 412 return omap; |
413 } | |
414 | |
415 //------------------------------do_liveness------------------------------------ | |
416 // Compute backwards liveness on registers | |
417 static void do_liveness( PhaseRegAlloc *regalloc, PhaseCFG *cfg, Block_List *worklist, int max_reg_ints, Arena *A, Dict *safehash ) { | |
418 int *live = NEW_ARENA_ARRAY(A, int, (cfg->_num_blocks+1) * max_reg_ints); | |
419 int *tmp_live = &live[cfg->_num_blocks * max_reg_ints]; | |
420 Node *root = cfg->C->root(); | |
421 // On CISC platforms, get the node representing the stack pointer that regalloc | |
422 // used for spills | |
423 Node *fp = NodeSentinel; | |
424 if (UseCISCSpill && root->req() > 1) { | |
425 fp = root->in(1)->in(TypeFunc::FramePtr); | |
426 } | |
427 memset( live, 0, cfg->_num_blocks * (max_reg_ints<<LogBytesPerInt) ); | |
428 // Push preds onto worklist | |
429 for( uint i=1; i<root->req(); i++ ) | |
430 worklist->push(cfg->_bbs[root->in(i)->_idx]); | |
431 | |
432 // ZKM.jar includes tiny infinite loops which are unreached from below. | |
433 // If we missed any blocks, we'll retry here after pushing all missed | |
434 // blocks on the worklist. Normally this outer loop never trips more | |
435 // than once. | |
436 while( 1 ) { | |
437 | |
438 while( worklist->size() ) { // Standard worklist algorithm | |
439 Block *b = worklist->rpop(); | |
440 | |
441 // Copy first successor into my tmp_live space | |
442 int s0num = b->_succs[0]->_pre_order; | |
443 int *t = &live[s0num*max_reg_ints]; | |
444 for( int i=0; i<max_reg_ints; i++ ) | |
445 tmp_live[i] = t[i]; | |
446 | |
447 // OR in the remaining live registers | |
448 for( uint j=1; j<b->_num_succs; j++ ) { | |
449 uint sjnum = b->_succs[j]->_pre_order; | |
450 int *t = &live[sjnum*max_reg_ints]; | |
451 for( int i=0; i<max_reg_ints; i++ ) | |
452 tmp_live[i] |= t[i]; | |
453 } | |
454 | |
455 // Now walk tmp_live up the block backwards, computing live | |
456 for( int k=b->_nodes.size()-1; k>=0; k-- ) { | |
457 Node *n = b->_nodes[k]; | |
458 // KILL def'd bits | |
459 int first = regalloc->get_reg_first(n); | |
460 int second = regalloc->get_reg_second(n); | |
461 if( OptoReg::is_valid(first) ) clr_live_bit(tmp_live,first); | |
462 if( OptoReg::is_valid(second) ) clr_live_bit(tmp_live,second); | |
463 | |
464 MachNode *m = n->is_Mach() ? n->as_Mach() : NULL; | |
465 | |
466 // Check if m is potentially a CISC alternate instruction (i.e, possibly | |
467 // synthesized by RegAlloc from a conventional instruction and a | |
468 // spilled input) | |
469 bool is_cisc_alternate = false; | |
470 if (UseCISCSpill && m) { | |
471 is_cisc_alternate = m->is_cisc_alternate(); | |
472 } | |
473 | |
474 // GEN use'd bits | |
475 for( uint l=1; l<n->req(); l++ ) { | |
476 Node *def = n->in(l); | |
477 assert(def != 0, "input edge required"); | |
478 int first = regalloc->get_reg_first(def); | |
479 int second = regalloc->get_reg_second(def); | |
480 if( OptoReg::is_valid(first) ) set_live_bit(tmp_live,first); | |
481 if( OptoReg::is_valid(second) ) set_live_bit(tmp_live,second); | |
482 // If we use the stack pointer in a cisc-alternative instruction, | |
483 // check for use as a memory operand. Then reconstruct the RegName | |
484 // for this stack location, and set the appropriate bit in the | |
485 // live vector 4987749. | |
486 if (is_cisc_alternate && def == fp) { | |
487 const TypePtr *adr_type = NULL; | |
488 intptr_t offset; | |
489 const Node* base = m->get_base_and_disp(offset, adr_type); | |
490 if (base == NodeSentinel) { | |
491 // Machnode has multiple memory inputs. We are unable to reason | |
492 // with these, but are presuming (with trepidation) that not any of | |
493 // them are oops. This can be fixed by making get_base_and_disp() | |
494 // look at a specific input instead of all inputs. | |
495 assert(!def->bottom_type()->isa_oop_ptr(), "expecting non-oop mem input"); | |
496 } else if (base != fp || offset == Type::OffsetBot) { | |
497 // Do nothing: the fp operand is either not from a memory use | |
498 // (base == NULL) OR the fp is used in a non-memory context | |
499 // (base is some other register) OR the offset is not constant, | |
500 // so it is not a stack slot. | |
501 } else { | |
502 assert(offset >= 0, "unexpected negative offset"); | |
503 offset -= (offset % jintSize); // count the whole word | |
504 int stack_reg = regalloc->offset2reg(offset); | |
505 if (OptoReg::is_stack(stack_reg)) { | |
506 set_live_bit(tmp_live, stack_reg); | |
507 } else { | |
508 assert(false, "stack_reg not on stack?"); | |
509 } | |
510 } | |
511 } | |
512 } | |
513 | |
514 if( n->jvms() ) { // Record liveness at safepoint | |
515 | |
516 // This placement of this stanza means inputs to calls are | |
517 // considered live at the callsite's OopMap. Argument oops are | |
518 // hence live, but NOT included in the oopmap. See cutout in | |
519 // build_oop_map. Debug oops are live (and in OopMap). | |
520 int *n_live = NEW_ARENA_ARRAY(A, int, max_reg_ints); | |
521 for( int l=0; l<max_reg_ints; l++ ) | |
522 n_live[l] = tmp_live[l]; | |
523 safehash->Insert(n,n_live); | |
524 } | |
525 | |
526 } | |
527 | |
528 // Now at block top, see if we have any changes. If so, propagate | |
529 // to prior blocks. | |
530 int *old_live = &live[b->_pre_order*max_reg_ints]; | |
531 int l; | |
532 for( l=0; l<max_reg_ints; l++ ) | |
533 if( tmp_live[l] != old_live[l] ) | |
534 break; | |
535 if( l<max_reg_ints ) { // Change! | |
536 // Copy in new value | |
537 for( l=0; l<max_reg_ints; l++ ) | |
538 old_live[l] = tmp_live[l]; | |
539 // Push preds onto worklist | |
540 for( l=1; l<(int)b->num_preds(); l++ ) | |
541 worklist->push(cfg->_bbs[b->pred(l)->_idx]); | |
542 } | |
543 } | |
544 | |
545 // Scan for any missing safepoints. Happens to infinite loops | |
546 // ala ZKM.jar | |
547 uint i; | |
548 for( i=1; i<cfg->_num_blocks; i++ ) { | |
549 Block *b = cfg->_blocks[i]; | |
550 uint j; | |
551 for( j=1; j<b->_nodes.size(); j++ ) | |
552 if( b->_nodes[j]->jvms() && | |
553 (*safehash)[b->_nodes[j]] == NULL ) | |
554 break; | |
555 if( j<b->_nodes.size() ) break; | |
556 } | |
557 if( i == cfg->_num_blocks ) | |
558 break; // Got 'em all | |
559 #ifndef PRODUCT | |
560 if( PrintOpto && Verbose ) | |
561 tty->print_cr("retripping live calc"); | |
562 #endif | |
563 // Force the issue (expensively): recheck everybody | |
564 for( i=1; i<cfg->_num_blocks; i++ ) | |
565 worklist->push(cfg->_blocks[i]); | |
566 } | |
567 | |
568 } | |
569 | |
570 //------------------------------BuildOopMaps----------------------------------- | |
571 // Collect GC mask info - where are all the OOPs? | |
572 void Compile::BuildOopMaps() { | |
573 NOT_PRODUCT( TracePhase t3("bldOopMaps", &_t_buildOopMaps, TimeCompiler); ) | |
574 // Can't resource-mark because I need to leave all those OopMaps around, | |
575 // or else I need to resource-mark some arena other than the default. | |
576 // ResourceMark rm; // Reclaim all OopFlows when done | |
577 int max_reg = _regalloc->_max_reg; // Current array extent | |
578 | |
579 Arena *A = Thread::current()->resource_area(); | |
580 Block_List worklist; // Worklist of pending blocks | |
581 | |
582 int max_reg_ints = round_to(max_reg, BitsPerInt)>>LogBitsPerInt; | |
583 Dict *safehash = NULL; // Used for assert only | |
584 // Compute a backwards liveness per register. Needs a bitarray of | |
585 // #blocks x (#registers, rounded up to ints) | |
586 safehash = new Dict(cmpkey,hashkey,A); | |
587 do_liveness( _regalloc, _cfg, &worklist, max_reg_ints, A, safehash ); | |
588 OopFlow *free_list = NULL; // Free, unused | |
589 | |
590 // Array mapping blocks to completed oopflows | |
591 OopFlow **flows = NEW_ARENA_ARRAY(A, OopFlow*, _cfg->_num_blocks); | |
592 memset( flows, 0, _cfg->_num_blocks*sizeof(OopFlow*) ); | |
593 | |
594 | |
595 // Do the first block 'by hand' to prime the worklist | |
596 Block *entry = _cfg->_blocks[1]; | |
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597 OopFlow *rootflow = OopFlow::make(A,max_reg,this); |
0 | 598 // Initialize to 'bottom' (not 'top') |
599 memset( rootflow->_callees, OptoReg::Bad, max_reg*sizeof(short) ); | |
600 memset( rootflow->_defs , 0, max_reg*sizeof(Node*) ); | |
601 flows[entry->_pre_order] = rootflow; | |
602 | |
603 // Do the first block 'by hand' to prime the worklist | |
604 rootflow->_b = entry; | |
605 rootflow->compute_reach( _regalloc, max_reg, safehash ); | |
606 for( uint i=0; i<entry->_num_succs; i++ ) | |
607 worklist.push(entry->_succs[i]); | |
608 | |
609 // Now worklist contains blocks which have some, but perhaps not all, | |
610 // predecessors visited. | |
611 while( worklist.size() ) { | |
612 // Scan for a block with all predecessors visited, or any randoms slob | |
613 // otherwise. All-preds-visited order allows me to recycle OopFlow | |
614 // structures rapidly and cut down on the memory footprint. | |
615 // Note: not all predecessors might be visited yet (must happen for | |
616 // irreducible loops). This is OK, since every live value must have the | |
617 // SAME reaching def for the block, so any reaching def is OK. | |
618 uint i; | |
619 | |
620 Block *b = worklist.pop(); | |
621 // Ignore root block | |
622 if( b == _cfg->_broot ) continue; | |
623 // Block is already done? Happens if block has several predecessors, | |
624 // he can get on the worklist more than once. | |
625 if( flows[b->_pre_order] ) continue; | |
626 | |
627 // If this block has a visited predecessor AND that predecessor has this | |
628 // last block as his only undone child, we can move the OopFlow from the | |
629 // pred to this block. Otherwise we have to grab a new OopFlow. | |
630 OopFlow *flow = NULL; // Flag for finding optimized flow | |
631 Block *pred = (Block*)0xdeadbeef; | |
632 uint j; | |
633 // Scan this block's preds to find a done predecessor | |
634 for( j=1; j<b->num_preds(); j++ ) { | |
635 Block *p = _cfg->_bbs[b->pred(j)->_idx]; | |
636 OopFlow *p_flow = flows[p->_pre_order]; | |
637 if( p_flow ) { // Predecessor is done | |
638 assert( p_flow->_b == p, "cross check" ); | |
639 pred = p; // Record some predecessor | |
640 // If all successors of p are done except for 'b', then we can carry | |
641 // p_flow forward to 'b' without copying, otherwise we have to draw | |
642 // from the free_list and clone data. | |
643 uint k; | |
644 for( k=0; k<p->_num_succs; k++ ) | |
645 if( !flows[p->_succs[k]->_pre_order] && | |
646 p->_succs[k] != b ) | |
647 break; | |
648 | |
649 // Either carry-forward the now-unused OopFlow for b's use | |
650 // or draw a new one from the free list | |
651 if( k==p->_num_succs ) { | |
652 flow = p_flow; | |
653 break; // Found an ideal pred, use him | |
654 } | |
655 } | |
656 } | |
657 | |
658 if( flow ) { | |
659 // We have an OopFlow that's the last-use of a predecessor. | |
660 // Carry it forward. | |
661 } else { // Draw a new OopFlow from the freelist | |
662 if( !free_list ) | |
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663 free_list = OopFlow::make(A,max_reg,C); |
0 | 664 flow = free_list; |
665 assert( flow->_b == NULL, "oopFlow is not free" ); | |
666 free_list = flow->_next; | |
667 flow->_next = NULL; | |
668 | |
669 // Copy/clone over the data | |
670 flow->clone(flows[pred->_pre_order], max_reg); | |
671 } | |
672 | |
673 // Mark flow for block. Blocks can only be flowed over once, | |
674 // because after the first time they are guarded from entering | |
675 // this code again. | |
676 assert( flow->_b == pred, "have some prior flow" ); | |
677 flow->_b = NULL; | |
678 | |
679 // Now push flow forward | |
680 flows[b->_pre_order] = flow;// Mark flow for this block | |
681 flow->_b = b; | |
682 flow->compute_reach( _regalloc, max_reg, safehash ); | |
683 | |
684 // Now push children onto worklist | |
685 for( i=0; i<b->_num_succs; i++ ) | |
686 worklist.push(b->_succs[i]); | |
687 | |
688 } | |
689 } |