Mercurial > hg > truffle
annotate src/share/vm/opto/matcher.cpp @ 14392:b5c8a61d7fa0
Merge
author | kvn |
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date | Fri, 21 Jun 2013 15:56:24 -0700 |
parents | d2907f74462e f2110083203d |
children | f4f6ae481e1a |
rev | line source |
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0 | 1 /* |
10405 | 2 * Copyright (c) 1997, 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 "memory/allocation.inline.hpp" | |
27 #include "opto/addnode.hpp" | |
28 #include "opto/callnode.hpp" | |
29 #include "opto/connode.hpp" | |
30 #include "opto/idealGraphPrinter.hpp" | |
31 #include "opto/matcher.hpp" | |
32 #include "opto/memnode.hpp" | |
33 #include "opto/opcodes.hpp" | |
34 #include "opto/regmask.hpp" | |
35 #include "opto/rootnode.hpp" | |
36 #include "opto/runtime.hpp" | |
37 #include "opto/type.hpp" | |
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38 #include "opto/vectornode.hpp" |
1972 | 39 #include "runtime/atomic.hpp" |
40 #include "runtime/os.hpp" | |
41 #ifdef TARGET_ARCH_MODEL_x86_32 | |
42 # include "adfiles/ad_x86_32.hpp" | |
43 #endif | |
44 #ifdef TARGET_ARCH_MODEL_x86_64 | |
45 # include "adfiles/ad_x86_64.hpp" | |
46 #endif | |
47 #ifdef TARGET_ARCH_MODEL_sparc | |
48 # include "adfiles/ad_sparc.hpp" | |
49 #endif | |
50 #ifdef TARGET_ARCH_MODEL_zero | |
51 # include "adfiles/ad_zero.hpp" | |
52 #endif | |
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53 #ifdef TARGET_ARCH_MODEL_arm |
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54 # include "adfiles/ad_arm.hpp" |
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55 #endif |
14391 | 56 #ifdef TARGET_ARCH_MODEL_ppc_32 |
57 # include "adfiles/ad_ppc_32.hpp" | |
58 #endif | |
59 #ifdef TARGET_ARCH_MODEL_ppc_64 | |
60 # include "adfiles/ad_ppc_64.hpp" | |
3796 | 61 #endif |
0 | 62 |
63 OptoReg::Name OptoReg::c_frame_pointer; | |
64 | |
65 const RegMask *Matcher::idealreg2regmask[_last_machine_leaf]; | |
66 RegMask Matcher::mreg2regmask[_last_Mach_Reg]; | |
67 RegMask Matcher::STACK_ONLY_mask; | |
68 RegMask Matcher::c_frame_ptr_mask; | |
69 const uint Matcher::_begin_rematerialize = _BEGIN_REMATERIALIZE; | |
70 const uint Matcher::_end_rematerialize = _END_REMATERIALIZE; | |
71 | |
72 //---------------------------Matcher------------------------------------------- | |
73 Matcher::Matcher( Node_List &proj_list ) : | |
74 PhaseTransform( Phase::Ins_Select ), | |
75 #ifdef ASSERT | |
76 _old2new_map(C->comp_arena()), | |
222 | 77 _new2old_map(C->comp_arena()), |
0 | 78 #endif |
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79 _shared_nodes(C->comp_arena()), |
0 | 80 _reduceOp(reduceOp), _leftOp(leftOp), _rightOp(rightOp), |
81 _swallowed(swallowed), | |
82 _begin_inst_chain_rule(_BEGIN_INST_CHAIN_RULE), | |
83 _end_inst_chain_rule(_END_INST_CHAIN_RULE), | |
84 _must_clone(must_clone), _proj_list(proj_list), | |
85 _register_save_policy(register_save_policy), | |
86 _c_reg_save_policy(c_reg_save_policy), | |
87 _register_save_type(register_save_type), | |
88 _ruleName(ruleName), | |
89 _allocation_started(false), | |
90 _states_arena(Chunk::medium_size), | |
91 _visited(&_states_arena), | |
92 _shared(&_states_arena), | |
93 _dontcare(&_states_arena) { | |
94 C->set_matcher(this); | |
95 | |
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96 idealreg2spillmask [Op_RegI] = NULL; |
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97 idealreg2spillmask [Op_RegN] = NULL; |
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98 idealreg2spillmask [Op_RegL] = NULL; |
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99 idealreg2spillmask [Op_RegF] = NULL; |
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100 idealreg2spillmask [Op_RegD] = NULL; |
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101 idealreg2spillmask [Op_RegP] = NULL; |
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102 idealreg2spillmask [Op_VecS] = NULL; |
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103 idealreg2spillmask [Op_VecD] = NULL; |
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104 idealreg2spillmask [Op_VecX] = NULL; |
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105 idealreg2spillmask [Op_VecY] = NULL; |
0 | 106 |
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107 idealreg2debugmask [Op_RegI] = NULL; |
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108 idealreg2debugmask [Op_RegN] = NULL; |
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109 idealreg2debugmask [Op_RegL] = NULL; |
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110 idealreg2debugmask [Op_RegF] = NULL; |
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111 idealreg2debugmask [Op_RegD] = NULL; |
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112 idealreg2debugmask [Op_RegP] = NULL; |
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113 idealreg2debugmask [Op_VecS] = NULL; |
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114 idealreg2debugmask [Op_VecD] = NULL; |
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115 idealreg2debugmask [Op_VecX] = NULL; |
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116 idealreg2debugmask [Op_VecY] = NULL; |
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117 |
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118 idealreg2mhdebugmask[Op_RegI] = NULL; |
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119 idealreg2mhdebugmask[Op_RegN] = NULL; |
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120 idealreg2mhdebugmask[Op_RegL] = NULL; |
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121 idealreg2mhdebugmask[Op_RegF] = NULL; |
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122 idealreg2mhdebugmask[Op_RegD] = NULL; |
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123 idealreg2mhdebugmask[Op_RegP] = NULL; |
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124 idealreg2mhdebugmask[Op_VecS] = NULL; |
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125 idealreg2mhdebugmask[Op_VecD] = NULL; |
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126 idealreg2mhdebugmask[Op_VecX] = NULL; |
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127 idealreg2mhdebugmask[Op_VecY] = NULL; |
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128 |
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129 debug_only(_mem_node = NULL;) // Ideal memory node consumed by mach node |
0 | 130 } |
131 | |
132 //------------------------------warp_incoming_stk_arg------------------------ | |
133 // This warps a VMReg into an OptoReg::Name | |
134 OptoReg::Name Matcher::warp_incoming_stk_arg( VMReg reg ) { | |
135 OptoReg::Name warped; | |
136 if( reg->is_stack() ) { // Stack slot argument? | |
137 warped = OptoReg::add(_old_SP, reg->reg2stack() ); | |
138 warped = OptoReg::add(warped, C->out_preserve_stack_slots()); | |
139 if( warped >= _in_arg_limit ) | |
140 _in_arg_limit = OptoReg::add(warped, 1); // Bump max stack slot seen | |
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141 if (!RegMask::can_represent_arg(warped)) { |
0 | 142 // the compiler cannot represent this method's calling sequence |
143 C->record_method_not_compilable_all_tiers("unsupported incoming calling sequence"); | |
144 return OptoReg::Bad; | |
145 } | |
146 return warped; | |
147 } | |
148 return OptoReg::as_OptoReg(reg); | |
149 } | |
150 | |
151 //---------------------------compute_old_SP------------------------------------ | |
152 OptoReg::Name Compile::compute_old_SP() { | |
153 int fixed = fixed_slots(); | |
154 int preserve = in_preserve_stack_slots(); | |
155 return OptoReg::stack2reg(round_to(fixed + preserve, Matcher::stack_alignment_in_slots())); | |
156 } | |
157 | |
158 | |
159 | |
160 #ifdef ASSERT | |
161 void Matcher::verify_new_nodes_only(Node* xroot) { | |
162 // Make sure that the new graph only references new nodes | |
163 ResourceMark rm; | |
164 Unique_Node_List worklist; | |
165 VectorSet visited(Thread::current()->resource_area()); | |
166 worklist.push(xroot); | |
167 while (worklist.size() > 0) { | |
168 Node* n = worklist.pop(); | |
169 visited <<= n->_idx; | |
170 assert(C->node_arena()->contains(n), "dead node"); | |
171 for (uint j = 0; j < n->req(); j++) { | |
172 Node* in = n->in(j); | |
173 if (in != NULL) { | |
174 assert(C->node_arena()->contains(in), "dead node"); | |
175 if (!visited.test(in->_idx)) { | |
176 worklist.push(in); | |
177 } | |
178 } | |
179 } | |
180 } | |
181 } | |
182 #endif | |
183 | |
184 | |
185 //---------------------------match--------------------------------------------- | |
186 void Matcher::match( ) { | |
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187 if( MaxLabelRootDepth < 100 ) { // Too small? |
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188 assert(false, "invalid MaxLabelRootDepth, increase it to 100 minimum"); |
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189 MaxLabelRootDepth = 100; |
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190 } |
0 | 191 // One-time initialization of some register masks. |
192 init_spill_mask( C->root()->in(1) ); | |
193 _return_addr_mask = return_addr(); | |
194 #ifdef _LP64 | |
195 // Pointers take 2 slots in 64-bit land | |
196 _return_addr_mask.Insert(OptoReg::add(return_addr(),1)); | |
197 #endif | |
198 | |
199 // Map a Java-signature return type into return register-value | |
200 // machine registers for 0, 1 and 2 returned values. | |
201 const TypeTuple *range = C->tf()->range(); | |
202 if( range->cnt() > TypeFunc::Parms ) { // If not a void function | |
203 // Get ideal-register return type | |
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204 int ireg = range->field_at(TypeFunc::Parms)->ideal_reg(); |
0 | 205 // Get machine return register |
206 uint sop = C->start()->Opcode(); | |
207 OptoRegPair regs = return_value(ireg, false); | |
208 | |
209 // And mask for same | |
210 _return_value_mask = RegMask(regs.first()); | |
211 if( OptoReg::is_valid(regs.second()) ) | |
212 _return_value_mask.Insert(regs.second()); | |
213 } | |
214 | |
215 // --------------- | |
216 // Frame Layout | |
217 | |
218 // Need the method signature to determine the incoming argument types, | |
219 // because the types determine which registers the incoming arguments are | |
220 // in, and this affects the matched code. | |
221 const TypeTuple *domain = C->tf()->domain(); | |
222 uint argcnt = domain->cnt() - TypeFunc::Parms; | |
223 BasicType *sig_bt = NEW_RESOURCE_ARRAY( BasicType, argcnt ); | |
224 VMRegPair *vm_parm_regs = NEW_RESOURCE_ARRAY( VMRegPair, argcnt ); | |
225 _parm_regs = NEW_RESOURCE_ARRAY( OptoRegPair, argcnt ); | |
226 _calling_convention_mask = NEW_RESOURCE_ARRAY( RegMask, argcnt ); | |
227 uint i; | |
228 for( i = 0; i<argcnt; i++ ) { | |
229 sig_bt[i] = domain->field_at(i+TypeFunc::Parms)->basic_type(); | |
230 } | |
231 | |
232 // Pass array of ideal registers and length to USER code (from the AD file) | |
233 // that will convert this to an array of register numbers. | |
234 const StartNode *start = C->start(); | |
235 start->calling_convention( sig_bt, vm_parm_regs, argcnt ); | |
236 #ifdef ASSERT | |
237 // Sanity check users' calling convention. Real handy while trying to | |
238 // get the initial port correct. | |
239 { for (uint i = 0; i<argcnt; i++) { | |
240 if( !vm_parm_regs[i].first()->is_valid() && !vm_parm_regs[i].second()->is_valid() ) { | |
241 assert(domain->field_at(i+TypeFunc::Parms)==Type::HALF, "only allowed on halve" ); | |
242 _parm_regs[i].set_bad(); | |
243 continue; | |
244 } | |
245 VMReg parm_reg = vm_parm_regs[i].first(); | |
246 assert(parm_reg->is_valid(), "invalid arg?"); | |
247 if (parm_reg->is_reg()) { | |
248 OptoReg::Name opto_parm_reg = OptoReg::as_OptoReg(parm_reg); | |
249 assert(can_be_java_arg(opto_parm_reg) || | |
250 C->stub_function() == CAST_FROM_FN_PTR(address, OptoRuntime::rethrow_C) || | |
251 opto_parm_reg == inline_cache_reg(), | |
252 "parameters in register must be preserved by runtime stubs"); | |
253 } | |
254 for (uint j = 0; j < i; j++) { | |
255 assert(parm_reg != vm_parm_regs[j].first(), | |
256 "calling conv. must produce distinct regs"); | |
257 } | |
258 } | |
259 } | |
260 #endif | |
261 | |
262 // Do some initial frame layout. | |
263 | |
264 // Compute the old incoming SP (may be called FP) as | |
265 // OptoReg::stack0() + locks + in_preserve_stack_slots + pad2. | |
266 _old_SP = C->compute_old_SP(); | |
267 assert( is_even(_old_SP), "must be even" ); | |
268 | |
269 // Compute highest incoming stack argument as | |
270 // _old_SP + out_preserve_stack_slots + incoming argument size. | |
271 _in_arg_limit = OptoReg::add(_old_SP, C->out_preserve_stack_slots()); | |
272 assert( is_even(_in_arg_limit), "out_preserve must be even" ); | |
273 for( i = 0; i < argcnt; i++ ) { | |
274 // Permit args to have no register | |
275 _calling_convention_mask[i].Clear(); | |
276 if( !vm_parm_regs[i].first()->is_valid() && !vm_parm_regs[i].second()->is_valid() ) { | |
277 continue; | |
278 } | |
279 // calling_convention returns stack arguments as a count of | |
280 // slots beyond OptoReg::stack0()/VMRegImpl::stack0. We need to convert this to | |
281 // the allocators point of view, taking into account all the | |
282 // preserve area, locks & pad2. | |
283 | |
284 OptoReg::Name reg1 = warp_incoming_stk_arg(vm_parm_regs[i].first()); | |
285 if( OptoReg::is_valid(reg1)) | |
286 _calling_convention_mask[i].Insert(reg1); | |
287 | |
288 OptoReg::Name reg2 = warp_incoming_stk_arg(vm_parm_regs[i].second()); | |
289 if( OptoReg::is_valid(reg2)) | |
290 _calling_convention_mask[i].Insert(reg2); | |
291 | |
292 // Saved biased stack-slot register number | |
293 _parm_regs[i].set_pair(reg2, reg1); | |
294 } | |
295 | |
296 // Finally, make sure the incoming arguments take up an even number of | |
297 // words, in case the arguments or locals need to contain doubleword stack | |
298 // slots. The rest of the system assumes that stack slot pairs (in | |
299 // particular, in the spill area) which look aligned will in fact be | |
300 // aligned relative to the stack pointer in the target machine. Double | |
301 // stack slots will always be allocated aligned. | |
302 _new_SP = OptoReg::Name(round_to(_in_arg_limit, RegMask::SlotsPerLong)); | |
303 | |
304 // Compute highest outgoing stack argument as | |
305 // _new_SP + out_preserve_stack_slots + max(outgoing argument size). | |
306 _out_arg_limit = OptoReg::add(_new_SP, C->out_preserve_stack_slots()); | |
307 assert( is_even(_out_arg_limit), "out_preserve must be even" ); | |
308 | |
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309 if (!RegMask::can_represent_arg(OptoReg::add(_out_arg_limit,-1))) { |
0 | 310 // the compiler cannot represent this method's calling sequence |
311 C->record_method_not_compilable("must be able to represent all call arguments in reg mask"); | |
312 } | |
313 | |
314 if (C->failing()) return; // bailed out on incoming arg failure | |
315 | |
316 // --------------- | |
317 // Collect roots of matcher trees. Every node for which | |
318 // _shared[_idx] is cleared is guaranteed to not be shared, and thus | |
319 // can be a valid interior of some tree. | |
320 find_shared( C->root() ); | |
321 find_shared( C->top() ); | |
322 | |
10405 | 323 C->print_method(PHASE_BEFORE_MATCHING); |
0 | 324 |
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325 // Create new ideal node ConP #NULL even if it does exist in old space |
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326 // to avoid false sharing if the corresponding mach node is not used. |
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327 // The corresponding mach node is only used in rare cases for derived |
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328 // pointers. |
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329 Node* new_ideal_null = ConNode::make(C, TypePtr::NULL_PTR); |
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330 |
0 | 331 // Swap out to old-space; emptying new-space |
332 Arena *old = C->node_arena()->move_contents(C->old_arena()); | |
333 | |
334 // Save debug and profile information for nodes in old space: | |
335 _old_node_note_array = C->node_note_array(); | |
336 if (_old_node_note_array != NULL) { | |
337 C->set_node_note_array(new(C->comp_arena()) GrowableArray<Node_Notes*> | |
338 (C->comp_arena(), _old_node_note_array->length(), | |
339 0, NULL)); | |
340 } | |
341 | |
342 // Pre-size the new_node table to avoid the need for range checks. | |
343 grow_new_node_array(C->unique()); | |
344 | |
345 // Reset node counter so MachNodes start with _idx at 0 | |
346 int nodes = C->unique(); // save value | |
347 C->set_unique(0); | |
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348 C->reset_dead_node_list(); |
0 | 349 |
350 // Recursively match trees from old space into new space. | |
351 // Correct leaves of new-space Nodes; they point to old-space. | |
352 _visited.Clear(); // Clear visit bits for xform call | |
353 C->set_cached_top_node(xform( C->top(), nodes )); | |
354 if (!C->failing()) { | |
355 Node* xroot = xform( C->root(), 1 ); | |
356 if (xroot == NULL) { | |
357 Matcher::soft_match_failure(); // recursive matching process failed | |
358 C->record_method_not_compilable("instruction match failed"); | |
359 } else { | |
360 // During matching shared constants were attached to C->root() | |
361 // because xroot wasn't available yet, so transfer the uses to | |
362 // the xroot. | |
363 for( DUIterator_Fast jmax, j = C->root()->fast_outs(jmax); j < jmax; j++ ) { | |
364 Node* n = C->root()->fast_out(j); | |
365 if (C->node_arena()->contains(n)) { | |
366 assert(n->in(0) == C->root(), "should be control user"); | |
367 n->set_req(0, xroot); | |
368 --j; | |
369 --jmax; | |
370 } | |
371 } | |
372 | |
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373 // Generate new mach node for ConP #NULL |
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374 assert(new_ideal_null != NULL, "sanity"); |
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375 _mach_null = match_tree(new_ideal_null); |
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376 // Don't set control, it will confuse GCM since there are no uses. |
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377 // The control will be set when this node is used first time |
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378 // in find_base_for_derived(). |
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379 assert(_mach_null != NULL, ""); |
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380 |
0 | 381 C->set_root(xroot->is_Root() ? xroot->as_Root() : NULL); |
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382 |
0 | 383 #ifdef ASSERT |
384 verify_new_nodes_only(xroot); | |
385 #endif | |
386 } | |
387 } | |
388 if (C->top() == NULL || C->root() == NULL) { | |
389 C->record_method_not_compilable("graph lost"); // %%% cannot happen? | |
390 } | |
391 if (C->failing()) { | |
392 // delete old; | |
393 old->destruct_contents(); | |
394 return; | |
395 } | |
396 assert( C->top(), "" ); | |
397 assert( C->root(), "" ); | |
398 validate_null_checks(); | |
399 | |
400 // Now smoke old-space | |
401 NOT_DEBUG( old->destruct_contents() ); | |
402 | |
403 // ------------------------ | |
404 // Set up save-on-entry registers | |
405 Fixup_Save_On_Entry( ); | |
406 } | |
407 | |
408 | |
409 //------------------------------Fixup_Save_On_Entry---------------------------- | |
410 // The stated purpose of this routine is to take care of save-on-entry | |
411 // registers. However, the overall goal of the Match phase is to convert into | |
412 // machine-specific instructions which have RegMasks to guide allocation. | |
413 // So what this procedure really does is put a valid RegMask on each input | |
414 // to the machine-specific variations of all Return, TailCall and Halt | |
415 // instructions. It also adds edgs to define the save-on-entry values (and of | |
416 // course gives them a mask). | |
417 | |
418 static RegMask *init_input_masks( uint size, RegMask &ret_adr, RegMask &fp ) { | |
419 RegMask *rms = NEW_RESOURCE_ARRAY( RegMask, size ); | |
420 // Do all the pre-defined register masks | |
421 rms[TypeFunc::Control ] = RegMask::Empty; | |
422 rms[TypeFunc::I_O ] = RegMask::Empty; | |
423 rms[TypeFunc::Memory ] = RegMask::Empty; | |
424 rms[TypeFunc::ReturnAdr] = ret_adr; | |
425 rms[TypeFunc::FramePtr ] = fp; | |
426 return rms; | |
427 } | |
428 | |
429 //---------------------------init_first_stack_mask----------------------------- | |
430 // Create the initial stack mask used by values spilling to the stack. | |
431 // Disallow any debug info in outgoing argument areas by setting the | |
432 // initial mask accordingly. | |
433 void Matcher::init_first_stack_mask() { | |
434 | |
435 // Allocate storage for spill masks as masks for the appropriate load type. | |
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436 RegMask *rms = (RegMask*)C->comp_arena()->Amalloc_D(sizeof(RegMask) * (3*6+4)); |
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437 |
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438 idealreg2spillmask [Op_RegN] = &rms[0]; |
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439 idealreg2spillmask [Op_RegI] = &rms[1]; |
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440 idealreg2spillmask [Op_RegL] = &rms[2]; |
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441 idealreg2spillmask [Op_RegF] = &rms[3]; |
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442 idealreg2spillmask [Op_RegD] = &rms[4]; |
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443 idealreg2spillmask [Op_RegP] = &rms[5]; |
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444 |
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445 idealreg2debugmask [Op_RegN] = &rms[6]; |
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446 idealreg2debugmask [Op_RegI] = &rms[7]; |
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447 idealreg2debugmask [Op_RegL] = &rms[8]; |
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448 idealreg2debugmask [Op_RegF] = &rms[9]; |
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449 idealreg2debugmask [Op_RegD] = &rms[10]; |
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450 idealreg2debugmask [Op_RegP] = &rms[11]; |
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451 |
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452 idealreg2mhdebugmask[Op_RegN] = &rms[12]; |
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453 idealreg2mhdebugmask[Op_RegI] = &rms[13]; |
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454 idealreg2mhdebugmask[Op_RegL] = &rms[14]; |
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455 idealreg2mhdebugmask[Op_RegF] = &rms[15]; |
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456 idealreg2mhdebugmask[Op_RegD] = &rms[16]; |
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457 idealreg2mhdebugmask[Op_RegP] = &rms[17]; |
0 | 458 |
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459 idealreg2spillmask [Op_VecS] = &rms[18]; |
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460 idealreg2spillmask [Op_VecD] = &rms[19]; |
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461 idealreg2spillmask [Op_VecX] = &rms[20]; |
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462 idealreg2spillmask [Op_VecY] = &rms[21]; |
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463 |
0 | 464 OptoReg::Name i; |
465 | |
466 // At first, start with the empty mask | |
467 C->FIRST_STACK_mask().Clear(); | |
468 | |
469 // Add in the incoming argument area | |
470 OptoReg::Name init = OptoReg::add(_old_SP, C->out_preserve_stack_slots()); | |
471 for (i = init; i < _in_arg_limit; i = OptoReg::add(i,1)) | |
472 C->FIRST_STACK_mask().Insert(i); | |
473 | |
474 // Add in all bits past the outgoing argument area | |
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475 guarantee(RegMask::can_represent_arg(OptoReg::add(_out_arg_limit,-1)), |
0 | 476 "must be able to represent all call arguments in reg mask"); |
477 init = _out_arg_limit; | |
478 for (i = init; RegMask::can_represent(i); i = OptoReg::add(i,1)) | |
479 C->FIRST_STACK_mask().Insert(i); | |
480 | |
481 // Finally, set the "infinite stack" bit. | |
482 C->FIRST_STACK_mask().set_AllStack(); | |
483 | |
484 // Make spill masks. Registers for their class, plus FIRST_STACK_mask. | |
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485 RegMask aligned_stack_mask = C->FIRST_STACK_mask(); |
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486 // Keep spill masks aligned. |
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487 aligned_stack_mask.clear_to_pairs(); |
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488 assert(aligned_stack_mask.is_AllStack(), "should be infinite stack"); |
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489 |
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490 *idealreg2spillmask[Op_RegP] = *idealreg2regmask[Op_RegP]; |
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491 #ifdef _LP64 |
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492 *idealreg2spillmask[Op_RegN] = *idealreg2regmask[Op_RegN]; |
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493 idealreg2spillmask[Op_RegN]->OR(C->FIRST_STACK_mask()); |
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494 idealreg2spillmask[Op_RegP]->OR(aligned_stack_mask); |
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495 #else |
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496 idealreg2spillmask[Op_RegP]->OR(C->FIRST_STACK_mask()); |
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497 #endif |
0 | 498 *idealreg2spillmask[Op_RegI] = *idealreg2regmask[Op_RegI]; |
499 idealreg2spillmask[Op_RegI]->OR(C->FIRST_STACK_mask()); | |
500 *idealreg2spillmask[Op_RegL] = *idealreg2regmask[Op_RegL]; | |
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501 idealreg2spillmask[Op_RegL]->OR(aligned_stack_mask); |
0 | 502 *idealreg2spillmask[Op_RegF] = *idealreg2regmask[Op_RegF]; |
503 idealreg2spillmask[Op_RegF]->OR(C->FIRST_STACK_mask()); | |
504 *idealreg2spillmask[Op_RegD] = *idealreg2regmask[Op_RegD]; | |
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505 idealreg2spillmask[Op_RegD]->OR(aligned_stack_mask); |
0 | 506 |
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507 if (Matcher::vector_size_supported(T_BYTE,4)) { |
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508 *idealreg2spillmask[Op_VecS] = *idealreg2regmask[Op_VecS]; |
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509 idealreg2spillmask[Op_VecS]->OR(C->FIRST_STACK_mask()); |
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510 } |
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511 if (Matcher::vector_size_supported(T_FLOAT,2)) { |
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512 *idealreg2spillmask[Op_VecD] = *idealreg2regmask[Op_VecD]; |
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513 idealreg2spillmask[Op_VecD]->OR(aligned_stack_mask); |
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514 } |
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515 if (Matcher::vector_size_supported(T_FLOAT,4)) { |
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516 aligned_stack_mask.clear_to_sets(RegMask::SlotsPerVecX); |
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517 assert(aligned_stack_mask.is_AllStack(), "should be infinite stack"); |
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518 *idealreg2spillmask[Op_VecX] = *idealreg2regmask[Op_VecX]; |
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519 idealreg2spillmask[Op_VecX]->OR(aligned_stack_mask); |
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520 } |
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521 if (Matcher::vector_size_supported(T_FLOAT,8)) { |
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522 aligned_stack_mask.clear_to_sets(RegMask::SlotsPerVecY); |
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523 assert(aligned_stack_mask.is_AllStack(), "should be infinite stack"); |
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524 *idealreg2spillmask[Op_VecY] = *idealreg2regmask[Op_VecY]; |
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525 idealreg2spillmask[Op_VecY]->OR(aligned_stack_mask); |
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526 } |
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527 if (UseFPUForSpilling) { |
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528 // This mask logic assumes that the spill operations are |
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529 // symmetric and that the registers involved are the same size. |
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530 // On sparc for instance we may have to use 64 bit moves will |
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531 // kill 2 registers when used with F0-F31. |
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532 idealreg2spillmask[Op_RegI]->OR(*idealreg2regmask[Op_RegF]); |
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533 idealreg2spillmask[Op_RegF]->OR(*idealreg2regmask[Op_RegI]); |
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534 #ifdef _LP64 |
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535 idealreg2spillmask[Op_RegN]->OR(*idealreg2regmask[Op_RegF]); |
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536 idealreg2spillmask[Op_RegL]->OR(*idealreg2regmask[Op_RegD]); |
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537 idealreg2spillmask[Op_RegD]->OR(*idealreg2regmask[Op_RegL]); |
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538 idealreg2spillmask[Op_RegP]->OR(*idealreg2regmask[Op_RegD]); |
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539 #else |
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540 idealreg2spillmask[Op_RegP]->OR(*idealreg2regmask[Op_RegF]); |
3909 | 541 #ifdef ARM |
542 // ARM has support for moving 64bit values between a pair of | |
543 // integer registers and a double register | |
544 idealreg2spillmask[Op_RegL]->OR(*idealreg2regmask[Op_RegD]); | |
545 idealreg2spillmask[Op_RegD]->OR(*idealreg2regmask[Op_RegL]); | |
546 #endif | |
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547 #endif |
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548 } |
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549 |
0 | 550 // Make up debug masks. Any spill slot plus callee-save registers. |
551 // Caller-save registers are assumed to be trashable by the various | |
552 // inline-cache fixup routines. | |
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553 *idealreg2debugmask [Op_RegN]= *idealreg2spillmask[Op_RegN]; |
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554 *idealreg2debugmask [Op_RegI]= *idealreg2spillmask[Op_RegI]; |
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555 *idealreg2debugmask [Op_RegL]= *idealreg2spillmask[Op_RegL]; |
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556 *idealreg2debugmask [Op_RegF]= *idealreg2spillmask[Op_RegF]; |
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557 *idealreg2debugmask [Op_RegD]= *idealreg2spillmask[Op_RegD]; |
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558 *idealreg2debugmask [Op_RegP]= *idealreg2spillmask[Op_RegP]; |
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559 |
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560 *idealreg2mhdebugmask[Op_RegN]= *idealreg2spillmask[Op_RegN]; |
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561 *idealreg2mhdebugmask[Op_RegI]= *idealreg2spillmask[Op_RegI]; |
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562 *idealreg2mhdebugmask[Op_RegL]= *idealreg2spillmask[Op_RegL]; |
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563 *idealreg2mhdebugmask[Op_RegF]= *idealreg2spillmask[Op_RegF]; |
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564 *idealreg2mhdebugmask[Op_RegD]= *idealreg2spillmask[Op_RegD]; |
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565 *idealreg2mhdebugmask[Op_RegP]= *idealreg2spillmask[Op_RegP]; |
0 | 566 |
567 // Prevent stub compilations from attempting to reference | |
568 // callee-saved registers from debug info | |
569 bool exclude_soe = !Compile::current()->is_method_compilation(); | |
570 | |
571 for( i=OptoReg::Name(0); i<OptoReg::Name(_last_Mach_Reg); i = OptoReg::add(i,1) ) { | |
572 // registers the caller has to save do not work | |
573 if( _register_save_policy[i] == 'C' || | |
574 _register_save_policy[i] == 'A' || | |
575 (_register_save_policy[i] == 'E' && exclude_soe) ) { | |
1137
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576 idealreg2debugmask [Op_RegN]->Remove(i); |
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577 idealreg2debugmask [Op_RegI]->Remove(i); // Exclude save-on-call |
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578 idealreg2debugmask [Op_RegL]->Remove(i); // registers from debug |
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579 idealreg2debugmask [Op_RegF]->Remove(i); // masks |
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580 idealreg2debugmask [Op_RegD]->Remove(i); |
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581 idealreg2debugmask [Op_RegP]->Remove(i); |
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582 |
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583 idealreg2mhdebugmask[Op_RegN]->Remove(i); |
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584 idealreg2mhdebugmask[Op_RegI]->Remove(i); |
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585 idealreg2mhdebugmask[Op_RegL]->Remove(i); |
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586 idealreg2mhdebugmask[Op_RegF]->Remove(i); |
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587 idealreg2mhdebugmask[Op_RegD]->Remove(i); |
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588 idealreg2mhdebugmask[Op_RegP]->Remove(i); |
0 | 589 } |
590 } | |
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591 |
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592 // Subtract the register we use to save the SP for MethodHandle |
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593 // invokes to from the debug mask. |
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594 const RegMask save_mask = method_handle_invoke_SP_save_mask(); |
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595 idealreg2mhdebugmask[Op_RegN]->SUBTRACT(save_mask); |
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596 idealreg2mhdebugmask[Op_RegI]->SUBTRACT(save_mask); |
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597 idealreg2mhdebugmask[Op_RegL]->SUBTRACT(save_mask); |
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598 idealreg2mhdebugmask[Op_RegF]->SUBTRACT(save_mask); |
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599 idealreg2mhdebugmask[Op_RegD]->SUBTRACT(save_mask); |
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600 idealreg2mhdebugmask[Op_RegP]->SUBTRACT(save_mask); |
0 | 601 } |
602 | |
603 //---------------------------is_save_on_entry---------------------------------- | |
604 bool Matcher::is_save_on_entry( int reg ) { | |
605 return | |
606 _register_save_policy[reg] == 'E' || | |
607 _register_save_policy[reg] == 'A' || // Save-on-entry register? | |
608 // Also save argument registers in the trampolining stubs | |
609 (C->save_argument_registers() && is_spillable_arg(reg)); | |
610 } | |
611 | |
612 //---------------------------Fixup_Save_On_Entry------------------------------- | |
613 void Matcher::Fixup_Save_On_Entry( ) { | |
614 init_first_stack_mask(); | |
615 | |
616 Node *root = C->root(); // Short name for root | |
617 // Count number of save-on-entry registers. | |
618 uint soe_cnt = number_of_saved_registers(); | |
619 uint i; | |
620 | |
621 // Find the procedure Start Node | |
622 StartNode *start = C->start(); | |
623 assert( start, "Expect a start node" ); | |
624 | |
625 // Save argument registers in the trampolining stubs | |
626 if( C->save_argument_registers() ) | |
627 for( i = 0; i < _last_Mach_Reg; i++ ) | |
628 if( is_spillable_arg(i) ) | |
629 soe_cnt++; | |
630 | |
631 // Input RegMask array shared by all Returns. | |
632 // The type for doubles and longs has a count of 2, but | |
633 // there is only 1 returned value | |
634 uint ret_edge_cnt = TypeFunc::Parms + ((C->tf()->range()->cnt() == TypeFunc::Parms) ? 0 : 1); | |
635 RegMask *ret_rms = init_input_masks( ret_edge_cnt + soe_cnt, _return_addr_mask, c_frame_ptr_mask ); | |
636 // Returns have 0 or 1 returned values depending on call signature. | |
637 // Return register is specified by return_value in the AD file. | |
638 if (ret_edge_cnt > TypeFunc::Parms) | |
639 ret_rms[TypeFunc::Parms+0] = _return_value_mask; | |
640 | |
641 // Input RegMask array shared by all Rethrows. | |
642 uint reth_edge_cnt = TypeFunc::Parms+1; | |
643 RegMask *reth_rms = init_input_masks( reth_edge_cnt + soe_cnt, _return_addr_mask, c_frame_ptr_mask ); | |
644 // Rethrow takes exception oop only, but in the argument 0 slot. | |
645 reth_rms[TypeFunc::Parms] = mreg2regmask[find_receiver(false)]; | |
646 #ifdef _LP64 | |
647 // Need two slots for ptrs in 64-bit land | |
648 reth_rms[TypeFunc::Parms].Insert(OptoReg::add(OptoReg::Name(find_receiver(false)),1)); | |
649 #endif | |
650 | |
651 // Input RegMask array shared by all TailCalls | |
652 uint tail_call_edge_cnt = TypeFunc::Parms+2; | |
653 RegMask *tail_call_rms = init_input_masks( tail_call_edge_cnt + soe_cnt, _return_addr_mask, c_frame_ptr_mask ); | |
654 | |
655 // Input RegMask array shared by all TailJumps | |
656 uint tail_jump_edge_cnt = TypeFunc::Parms+2; | |
657 RegMask *tail_jump_rms = init_input_masks( tail_jump_edge_cnt + soe_cnt, _return_addr_mask, c_frame_ptr_mask ); | |
658 | |
659 // TailCalls have 2 returned values (target & moop), whose masks come | |
660 // from the usual MachNode/MachOper mechanism. Find a sample | |
661 // TailCall to extract these masks and put the correct masks into | |
662 // the tail_call_rms array. | |
663 for( i=1; i < root->req(); i++ ) { | |
664 MachReturnNode *m = root->in(i)->as_MachReturn(); | |
665 if( m->ideal_Opcode() == Op_TailCall ) { | |
666 tail_call_rms[TypeFunc::Parms+0] = m->MachNode::in_RegMask(TypeFunc::Parms+0); | |
667 tail_call_rms[TypeFunc::Parms+1] = m->MachNode::in_RegMask(TypeFunc::Parms+1); | |
668 break; | |
669 } | |
670 } | |
671 | |
672 // TailJumps have 2 returned values (target & ex_oop), whose masks come | |
673 // from the usual MachNode/MachOper mechanism. Find a sample | |
674 // TailJump to extract these masks and put the correct masks into | |
675 // the tail_jump_rms array. | |
676 for( i=1; i < root->req(); i++ ) { | |
677 MachReturnNode *m = root->in(i)->as_MachReturn(); | |
678 if( m->ideal_Opcode() == Op_TailJump ) { | |
679 tail_jump_rms[TypeFunc::Parms+0] = m->MachNode::in_RegMask(TypeFunc::Parms+0); | |
680 tail_jump_rms[TypeFunc::Parms+1] = m->MachNode::in_RegMask(TypeFunc::Parms+1); | |
681 break; | |
682 } | |
683 } | |
684 | |
685 // Input RegMask array shared by all Halts | |
686 uint halt_edge_cnt = TypeFunc::Parms; | |
687 RegMask *halt_rms = init_input_masks( halt_edge_cnt + soe_cnt, _return_addr_mask, c_frame_ptr_mask ); | |
688 | |
689 // Capture the return input masks into each exit flavor | |
690 for( i=1; i < root->req(); i++ ) { | |
691 MachReturnNode *exit = root->in(i)->as_MachReturn(); | |
692 switch( exit->ideal_Opcode() ) { | |
693 case Op_Return : exit->_in_rms = ret_rms; break; | |
694 case Op_Rethrow : exit->_in_rms = reth_rms; break; | |
695 case Op_TailCall : exit->_in_rms = tail_call_rms; break; | |
696 case Op_TailJump : exit->_in_rms = tail_jump_rms; break; | |
697 case Op_Halt : exit->_in_rms = halt_rms; break; | |
698 default : ShouldNotReachHere(); | |
699 } | |
700 } | |
701 | |
702 // Next unused projection number from Start. | |
703 int proj_cnt = C->tf()->domain()->cnt(); | |
704 | |
705 // Do all the save-on-entry registers. Make projections from Start for | |
706 // them, and give them a use at the exit points. To the allocator, they | |
707 // look like incoming register arguments. | |
708 for( i = 0; i < _last_Mach_Reg; i++ ) { | |
709 if( is_save_on_entry(i) ) { | |
710 | |
711 // Add the save-on-entry to the mask array | |
712 ret_rms [ ret_edge_cnt] = mreg2regmask[i]; | |
713 reth_rms [ reth_edge_cnt] = mreg2regmask[i]; | |
714 tail_call_rms[tail_call_edge_cnt] = mreg2regmask[i]; | |
715 tail_jump_rms[tail_jump_edge_cnt] = mreg2regmask[i]; | |
716 // Halts need the SOE registers, but only in the stack as debug info. | |
717 // A just-prior uncommon-trap or deoptimization will use the SOE regs. | |
718 halt_rms [ halt_edge_cnt] = *idealreg2spillmask[_register_save_type[i]]; | |
719 | |
720 Node *mproj; | |
721 | |
722 // Is this a RegF low half of a RegD? Double up 2 adjacent RegF's | |
723 // into a single RegD. | |
724 if( (i&1) == 0 && | |
725 _register_save_type[i ] == Op_RegF && | |
726 _register_save_type[i+1] == Op_RegF && | |
727 is_save_on_entry(i+1) ) { | |
728 // Add other bit for double | |
729 ret_rms [ ret_edge_cnt].Insert(OptoReg::Name(i+1)); | |
730 reth_rms [ reth_edge_cnt].Insert(OptoReg::Name(i+1)); | |
731 tail_call_rms[tail_call_edge_cnt].Insert(OptoReg::Name(i+1)); | |
732 tail_jump_rms[tail_jump_edge_cnt].Insert(OptoReg::Name(i+1)); | |
733 halt_rms [ halt_edge_cnt].Insert(OptoReg::Name(i+1)); | |
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734 mproj = new (C) MachProjNode( start, proj_cnt, ret_rms[ret_edge_cnt], Op_RegD ); |
0 | 735 proj_cnt += 2; // Skip 2 for doubles |
736 } | |
737 else if( (i&1) == 1 && // Else check for high half of double | |
738 _register_save_type[i-1] == Op_RegF && | |
739 _register_save_type[i ] == Op_RegF && | |
740 is_save_on_entry(i-1) ) { | |
741 ret_rms [ ret_edge_cnt] = RegMask::Empty; | |
742 reth_rms [ reth_edge_cnt] = RegMask::Empty; | |
743 tail_call_rms[tail_call_edge_cnt] = RegMask::Empty; | |
744 tail_jump_rms[tail_jump_edge_cnt] = RegMask::Empty; | |
745 halt_rms [ halt_edge_cnt] = RegMask::Empty; | |
746 mproj = C->top(); | |
747 } | |
748 // Is this a RegI low half of a RegL? Double up 2 adjacent RegI's | |
749 // into a single RegL. | |
750 else if( (i&1) == 0 && | |
751 _register_save_type[i ] == Op_RegI && | |
752 _register_save_type[i+1] == Op_RegI && | |
753 is_save_on_entry(i+1) ) { | |
754 // Add other bit for long | |
755 ret_rms [ ret_edge_cnt].Insert(OptoReg::Name(i+1)); | |
756 reth_rms [ reth_edge_cnt].Insert(OptoReg::Name(i+1)); | |
757 tail_call_rms[tail_call_edge_cnt].Insert(OptoReg::Name(i+1)); | |
758 tail_jump_rms[tail_jump_edge_cnt].Insert(OptoReg::Name(i+1)); | |
759 halt_rms [ halt_edge_cnt].Insert(OptoReg::Name(i+1)); | |
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760 mproj = new (C) MachProjNode( start, proj_cnt, ret_rms[ret_edge_cnt], Op_RegL ); |
0 | 761 proj_cnt += 2; // Skip 2 for longs |
762 } | |
763 else if( (i&1) == 1 && // Else check for high half of long | |
764 _register_save_type[i-1] == Op_RegI && | |
765 _register_save_type[i ] == Op_RegI && | |
766 is_save_on_entry(i-1) ) { | |
767 ret_rms [ ret_edge_cnt] = RegMask::Empty; | |
768 reth_rms [ reth_edge_cnt] = RegMask::Empty; | |
769 tail_call_rms[tail_call_edge_cnt] = RegMask::Empty; | |
770 tail_jump_rms[tail_jump_edge_cnt] = RegMask::Empty; | |
771 halt_rms [ halt_edge_cnt] = RegMask::Empty; | |
772 mproj = C->top(); | |
773 } else { | |
774 // Make a projection for it off the Start | |
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775 mproj = new (C) MachProjNode( start, proj_cnt++, ret_rms[ret_edge_cnt], _register_save_type[i] ); |
0 | 776 } |
777 | |
778 ret_edge_cnt ++; | |
779 reth_edge_cnt ++; | |
780 tail_call_edge_cnt ++; | |
781 tail_jump_edge_cnt ++; | |
782 halt_edge_cnt ++; | |
783 | |
784 // Add a use of the SOE register to all exit paths | |
785 for( uint j=1; j < root->req(); j++ ) | |
786 root->in(j)->add_req(mproj); | |
787 } // End of if a save-on-entry register | |
788 } // End of for all machine registers | |
789 } | |
790 | |
791 //------------------------------init_spill_mask-------------------------------- | |
792 void Matcher::init_spill_mask( Node *ret ) { | |
793 if( idealreg2regmask[Op_RegI] ) return; // One time only init | |
794 | |
795 OptoReg::c_frame_pointer = c_frame_pointer(); | |
796 c_frame_ptr_mask = c_frame_pointer(); | |
797 #ifdef _LP64 | |
798 // pointers are twice as big | |
799 c_frame_ptr_mask.Insert(OptoReg::add(c_frame_pointer(),1)); | |
800 #endif | |
801 | |
802 // Start at OptoReg::stack0() | |
803 STACK_ONLY_mask.Clear(); | |
804 OptoReg::Name init = OptoReg::stack2reg(0); | |
805 // STACK_ONLY_mask is all stack bits | |
806 OptoReg::Name i; | |
807 for (i = init; RegMask::can_represent(i); i = OptoReg::add(i,1)) | |
808 STACK_ONLY_mask.Insert(i); | |
809 // Also set the "infinite stack" bit. | |
810 STACK_ONLY_mask.set_AllStack(); | |
811 | |
812 // Copy the register names over into the shared world | |
813 for( i=OptoReg::Name(0); i<OptoReg::Name(_last_Mach_Reg); i = OptoReg::add(i,1) ) { | |
814 // SharedInfo::regName[i] = regName[i]; | |
815 // Handy RegMasks per machine register | |
816 mreg2regmask[i].Insert(i); | |
817 } | |
818 | |
819 // Grab the Frame Pointer | |
820 Node *fp = ret->in(TypeFunc::FramePtr); | |
821 Node *mem = ret->in(TypeFunc::Memory); | |
822 const TypePtr* atp = TypePtr::BOTTOM; | |
823 // Share frame pointer while making spill ops | |
824 set_shared(fp); | |
825 | |
826 // Compute generic short-offset Loads | |
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827 #ifdef _LP64 |
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828 MachNode *spillCP = match_tree(new (C) LoadNNode(NULL,mem,fp,atp,TypeInstPtr::BOTTOM)); |
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829 #endif |
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830 MachNode *spillI = match_tree(new (C) LoadINode(NULL,mem,fp,atp)); |
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831 MachNode *spillL = match_tree(new (C) LoadLNode(NULL,mem,fp,atp)); |
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832 MachNode *spillF = match_tree(new (C) LoadFNode(NULL,mem,fp,atp)); |
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833 MachNode *spillD = match_tree(new (C) LoadDNode(NULL,mem,fp,atp)); |
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834 MachNode *spillP = match_tree(new (C) LoadPNode(NULL,mem,fp,atp,TypeInstPtr::BOTTOM)); |
0 | 835 assert(spillI != NULL && spillL != NULL && spillF != NULL && |
836 spillD != NULL && spillP != NULL, ""); | |
837 | |
838 // Get the ADLC notion of the right regmask, for each basic type. | |
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839 #ifdef _LP64 |
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840 idealreg2regmask[Op_RegN] = &spillCP->out_RegMask(); |
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841 #endif |
0 | 842 idealreg2regmask[Op_RegI] = &spillI->out_RegMask(); |
843 idealreg2regmask[Op_RegL] = &spillL->out_RegMask(); | |
844 idealreg2regmask[Op_RegF] = &spillF->out_RegMask(); | |
845 idealreg2regmask[Op_RegD] = &spillD->out_RegMask(); | |
846 idealreg2regmask[Op_RegP] = &spillP->out_RegMask(); | |
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847 |
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848 // Vector regmasks. |
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849 if (Matcher::vector_size_supported(T_BYTE,4)) { |
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850 TypeVect::VECTS = TypeVect::make(T_BYTE, 4); |
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851 MachNode *spillVectS = match_tree(new (C) LoadVectorNode(NULL,mem,fp,atp,TypeVect::VECTS)); |
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852 idealreg2regmask[Op_VecS] = &spillVectS->out_RegMask(); |
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853 } |
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854 if (Matcher::vector_size_supported(T_FLOAT,2)) { |
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855 MachNode *spillVectD = match_tree(new (C) LoadVectorNode(NULL,mem,fp,atp,TypeVect::VECTD)); |
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856 idealreg2regmask[Op_VecD] = &spillVectD->out_RegMask(); |
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857 } |
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858 if (Matcher::vector_size_supported(T_FLOAT,4)) { |
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859 MachNode *spillVectX = match_tree(new (C) LoadVectorNode(NULL,mem,fp,atp,TypeVect::VECTX)); |
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860 idealreg2regmask[Op_VecX] = &spillVectX->out_RegMask(); |
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861 } |
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862 if (Matcher::vector_size_supported(T_FLOAT,8)) { |
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863 MachNode *spillVectY = match_tree(new (C) LoadVectorNode(NULL,mem,fp,atp,TypeVect::VECTY)); |
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864 idealreg2regmask[Op_VecY] = &spillVectY->out_RegMask(); |
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865 } |
0 | 866 } |
867 | |
868 #ifdef ASSERT | |
869 static void match_alias_type(Compile* C, Node* n, Node* m) { | |
870 if (!VerifyAliases) return; // do not go looking for trouble by default | |
871 const TypePtr* nat = n->adr_type(); | |
872 const TypePtr* mat = m->adr_type(); | |
873 int nidx = C->get_alias_index(nat); | |
874 int midx = C->get_alias_index(mat); | |
875 // Detune the assert for cases like (AndI 0xFF (LoadB p)). | |
876 if (nidx == Compile::AliasIdxTop && midx >= Compile::AliasIdxRaw) { | |
877 for (uint i = 1; i < n->req(); i++) { | |
878 Node* n1 = n->in(i); | |
879 const TypePtr* n1at = n1->adr_type(); | |
880 if (n1at != NULL) { | |
881 nat = n1at; | |
882 nidx = C->get_alias_index(n1at); | |
883 } | |
884 } | |
885 } | |
886 // %%% Kludgery. Instead, fix ideal adr_type methods for all these cases: | |
887 if (nidx == Compile::AliasIdxTop && midx == Compile::AliasIdxRaw) { | |
888 switch (n->Opcode()) { | |
889 case Op_PrefetchRead: | |
890 case Op_PrefetchWrite: | |
3854 | 891 case Op_PrefetchAllocation: |
0 | 892 nidx = Compile::AliasIdxRaw; |
893 nat = TypeRawPtr::BOTTOM; | |
894 break; | |
895 } | |
896 } | |
897 if (nidx == Compile::AliasIdxRaw && midx == Compile::AliasIdxTop) { | |
898 switch (n->Opcode()) { | |
899 case Op_ClearArray: | |
900 midx = Compile::AliasIdxRaw; | |
901 mat = TypeRawPtr::BOTTOM; | |
902 break; | |
903 } | |
904 } | |
905 if (nidx == Compile::AliasIdxTop && midx == Compile::AliasIdxBot) { | |
906 switch (n->Opcode()) { | |
907 case Op_Return: | |
908 case Op_Rethrow: | |
909 case Op_Halt: | |
910 case Op_TailCall: | |
911 case Op_TailJump: | |
912 nidx = Compile::AliasIdxBot; | |
913 nat = TypePtr::BOTTOM; | |
914 break; | |
915 } | |
916 } | |
917 if (nidx == Compile::AliasIdxBot && midx == Compile::AliasIdxTop) { | |
918 switch (n->Opcode()) { | |
919 case Op_StrComp: | |
681 | 920 case Op_StrEquals: |
921 case Op_StrIndexOf: | |
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922 case Op_AryEq: |
0 | 923 case Op_MemBarVolatile: |
924 case Op_MemBarCPUOrder: // %%% these ideals should have narrower adr_type? | |
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925 case Op_EncodeISOArray: |
0 | 926 nidx = Compile::AliasIdxTop; |
927 nat = NULL; | |
928 break; | |
929 } | |
930 } | |
931 if (nidx != midx) { | |
932 if (PrintOpto || (PrintMiscellaneous && (WizardMode || Verbose))) { | |
933 tty->print_cr("==== Matcher alias shift %d => %d", nidx, midx); | |
934 n->dump(); | |
935 m->dump(); | |
936 } | |
937 assert(C->subsume_loads() && C->must_alias(nat, midx), | |
938 "must not lose alias info when matching"); | |
939 } | |
940 } | |
941 #endif | |
942 | |
943 | |
944 //------------------------------MStack----------------------------------------- | |
945 // State and MStack class used in xform() and find_shared() iterative methods. | |
946 enum Node_State { Pre_Visit, // node has to be pre-visited | |
947 Visit, // visit node | |
948 Post_Visit, // post-visit node | |
949 Alt_Post_Visit // alternative post-visit path | |
950 }; | |
951 | |
952 class MStack: public Node_Stack { | |
953 public: | |
954 MStack(int size) : Node_Stack(size) { } | |
955 | |
956 void push(Node *n, Node_State ns) { | |
957 Node_Stack::push(n, (uint)ns); | |
958 } | |
959 void push(Node *n, Node_State ns, Node *parent, int indx) { | |
960 ++_inode_top; | |
961 if ((_inode_top + 1) >= _inode_max) grow(); | |
962 _inode_top->node = parent; | |
963 _inode_top->indx = (uint)indx; | |
964 ++_inode_top; | |
965 _inode_top->node = n; | |
966 _inode_top->indx = (uint)ns; | |
967 } | |
968 Node *parent() { | |
969 pop(); | |
970 return node(); | |
971 } | |
972 Node_State state() const { | |
973 return (Node_State)index(); | |
974 } | |
975 void set_state(Node_State ns) { | |
976 set_index((uint)ns); | |
977 } | |
978 }; | |
979 | |
980 | |
981 //------------------------------xform------------------------------------------ | |
982 // Given a Node in old-space, Match him (Label/Reduce) to produce a machine | |
983 // Node in new-space. Given a new-space Node, recursively walk his children. | |
984 Node *Matcher::transform( Node *n ) { ShouldNotCallThis(); return n; } | |
985 Node *Matcher::xform( Node *n, int max_stack ) { | |
986 // Use one stack to keep both: child's node/state and parent's node/index | |
987 MStack mstack(max_stack * 2 * 2); // C->unique() * 2 * 2 | |
988 mstack.push(n, Visit, NULL, -1); // set NULL as parent to indicate root | |
989 | |
990 while (mstack.is_nonempty()) { | |
991 n = mstack.node(); // Leave node on stack | |
992 Node_State nstate = mstack.state(); | |
993 if (nstate == Visit) { | |
994 mstack.set_state(Post_Visit); | |
995 Node *oldn = n; | |
996 // Old-space or new-space check | |
997 if (!C->node_arena()->contains(n)) { | |
998 // Old space! | |
999 Node* m; | |
1000 if (has_new_node(n)) { // Not yet Label/Reduced | |
1001 m = new_node(n); | |
1002 } else { | |
1003 if (!is_dontcare(n)) { // Matcher can match this guy | |
1004 // Calls match special. They match alone with no children. | |
1005 // Their children, the incoming arguments, match normally. | |
1006 m = n->is_SafePoint() ? match_sfpt(n->as_SafePoint()):match_tree(n); | |
1007 if (C->failing()) return NULL; | |
1008 if (m == NULL) { Matcher::soft_match_failure(); return NULL; } | |
1009 } else { // Nothing the matcher cares about | |
1010 if( n->is_Proj() && n->in(0)->is_Multi()) { // Projections? | |
1011 // Convert to machine-dependent projection | |
1012 m = n->in(0)->as_Multi()->match( n->as_Proj(), this ); | |
222 | 1013 #ifdef ASSERT |
1014 _new2old_map.map(m->_idx, n); | |
1015 #endif | |
0 | 1016 if (m->in(0) != NULL) // m might be top |
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1017 collect_null_checks(m, n); |
0 | 1018 } else { // Else just a regular 'ol guy |
1019 m = n->clone(); // So just clone into new-space | |
222 | 1020 #ifdef ASSERT |
1021 _new2old_map.map(m->_idx, n); | |
1022 #endif | |
0 | 1023 // Def-Use edges will be added incrementally as Uses |
1024 // of this node are matched. | |
1025 assert(m->outcnt() == 0, "no Uses of this clone yet"); | |
1026 } | |
1027 } | |
1028 | |
1029 set_new_node(n, m); // Map old to new | |
1030 if (_old_node_note_array != NULL) { | |
1031 Node_Notes* nn = C->locate_node_notes(_old_node_note_array, | |
1032 n->_idx); | |
1033 C->set_node_notes_at(m->_idx, nn); | |
1034 } | |
1035 debug_only(match_alias_type(C, n, m)); | |
1036 } | |
1037 n = m; // n is now a new-space node | |
1038 mstack.set_node(n); | |
1039 } | |
1040 | |
1041 // New space! | |
1042 if (_visited.test_set(n->_idx)) continue; // while(mstack.is_nonempty()) | |
1043 | |
1044 int i; | |
1045 // Put precedence edges on stack first (match them last). | |
1046 for (i = oldn->req(); (uint)i < oldn->len(); i++) { | |
1047 Node *m = oldn->in(i); | |
1048 if (m == NULL) break; | |
1049 // set -1 to call add_prec() instead of set_req() during Step1 | |
1050 mstack.push(m, Visit, n, -1); | |
1051 } | |
1052 | |
1053 // For constant debug info, I'd rather have unmatched constants. | |
1054 int cnt = n->req(); | |
1055 JVMState* jvms = n->jvms(); | |
1056 int debug_cnt = jvms ? jvms->debug_start() : cnt; | |
1057 | |
1058 // Now do only debug info. Clone constants rather than matching. | |
1059 // Constants are represented directly in the debug info without | |
1060 // the need for executable machine instructions. | |
1061 // Monitor boxes are also represented directly. | |
1062 for (i = cnt - 1; i >= debug_cnt; --i) { // For all debug inputs do | |
1063 Node *m = n->in(i); // Get input | |
1064 int op = m->Opcode(); | |
1065 assert((op == Op_BoxLock) == jvms->is_monitor_use(i), "boxes only at monitor sites"); | |
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1066 if( op == Op_ConI || op == Op_ConP || op == Op_ConN || op == Op_ConNKlass || |
0 | 1067 op == Op_ConF || op == Op_ConD || op == Op_ConL |
1068 // || op == Op_BoxLock // %%%% enable this and remove (+++) in chaitin.cpp | |
1069 ) { | |
1070 m = m->clone(); | |
222 | 1071 #ifdef ASSERT |
1072 _new2old_map.map(m->_idx, n); | |
1073 #endif | |
605 | 1074 mstack.push(m, Post_Visit, n, i); // Don't need to visit |
0 | 1075 mstack.push(m->in(0), Visit, m, 0); |
1076 } else { | |
1077 mstack.push(m, Visit, n, i); | |
1078 } | |
1079 } | |
1080 | |
1081 // And now walk his children, and convert his inputs to new-space. | |
1082 for( ; i >= 0; --i ) { // For all normal inputs do | |
1083 Node *m = n->in(i); // Get input | |
1084 if(m != NULL) | |
1085 mstack.push(m, Visit, n, i); | |
1086 } | |
1087 | |
1088 } | |
1089 else if (nstate == Post_Visit) { | |
1090 // Set xformed input | |
1091 Node *p = mstack.parent(); | |
1092 if (p != NULL) { // root doesn't have parent | |
1093 int i = (int)mstack.index(); | |
1094 if (i >= 0) | |
1095 p->set_req(i, n); // required input | |
1096 else if (i == -1) | |
1097 p->add_prec(n); // precedence input | |
1098 else | |
1099 ShouldNotReachHere(); | |
1100 } | |
1101 mstack.pop(); // remove processed node from stack | |
1102 } | |
1103 else { | |
1104 ShouldNotReachHere(); | |
1105 } | |
1106 } // while (mstack.is_nonempty()) | |
1107 return n; // Return new-space Node | |
1108 } | |
1109 | |
1110 //------------------------------warp_outgoing_stk_arg------------------------ | |
1111 OptoReg::Name Matcher::warp_outgoing_stk_arg( VMReg reg, OptoReg::Name begin_out_arg_area, OptoReg::Name &out_arg_limit_per_call ) { | |
1112 // Convert outgoing argument location to a pre-biased stack offset | |
1113 if (reg->is_stack()) { | |
1114 OptoReg::Name warped = reg->reg2stack(); | |
1115 // Adjust the stack slot offset to be the register number used | |
1116 // by the allocator. | |
1117 warped = OptoReg::add(begin_out_arg_area, warped); | |
1118 // Keep track of the largest numbered stack slot used for an arg. | |
1119 // Largest used slot per call-site indicates the amount of stack | |
1120 // that is killed by the call. | |
1121 if( warped >= out_arg_limit_per_call ) | |
1122 out_arg_limit_per_call = OptoReg::add(warped,1); | |
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1123 if (!RegMask::can_represent_arg(warped)) { |
0 | 1124 C->record_method_not_compilable_all_tiers("unsupported calling sequence"); |
1125 return OptoReg::Bad; | |
1126 } | |
1127 return warped; | |
1128 } | |
1129 return OptoReg::as_OptoReg(reg); | |
1130 } | |
1131 | |
1132 | |
1133 //------------------------------match_sfpt------------------------------------- | |
1134 // Helper function to match call instructions. Calls match special. | |
1135 // They match alone with no children. Their children, the incoming | |
1136 // arguments, match normally. | |
1137 MachNode *Matcher::match_sfpt( SafePointNode *sfpt ) { | |
1138 MachSafePointNode *msfpt = NULL; | |
1139 MachCallNode *mcall = NULL; | |
1140 uint cnt; | |
1141 // Split out case for SafePoint vs Call | |
1142 CallNode *call; | |
1143 const TypeTuple *domain; | |
1144 ciMethod* method = NULL; | |
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1145 bool is_method_handle_invoke = false; // for special kill effects |
0 | 1146 if( sfpt->is_Call() ) { |
1147 call = sfpt->as_Call(); | |
1148 domain = call->tf()->domain(); | |
1149 cnt = domain->cnt(); | |
1150 | |
1151 // Match just the call, nothing else | |
1152 MachNode *m = match_tree(call); | |
1153 if (C->failing()) return NULL; | |
1154 if( m == NULL ) { Matcher::soft_match_failure(); return NULL; } | |
1155 | |
1156 // Copy data from the Ideal SafePoint to the machine version | |
1157 mcall = m->as_MachCall(); | |
1158 | |
1159 mcall->set_tf( call->tf()); | |
1160 mcall->set_entry_point(call->entry_point()); | |
1161 mcall->set_cnt( call->cnt()); | |
1162 | |
1163 if( mcall->is_MachCallJava() ) { | |
1164 MachCallJavaNode *mcall_java = mcall->as_MachCallJava(); | |
1165 const CallJavaNode *call_java = call->as_CallJava(); | |
1166 method = call_java->method(); | |
1167 mcall_java->_method = method; | |
1168 mcall_java->_bci = call_java->_bci; | |
1169 mcall_java->_optimized_virtual = call_java->is_optimized_virtual(); | |
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1170 is_method_handle_invoke = call_java->is_method_handle_invoke(); |
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1171 mcall_java->_method_handle_invoke = is_method_handle_invoke; |
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1172 if (is_method_handle_invoke) { |
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1173 C->set_has_method_handle_invokes(true); |
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1174 } |
0 | 1175 if( mcall_java->is_MachCallStaticJava() ) |
1176 mcall_java->as_MachCallStaticJava()->_name = | |
1177 call_java->as_CallStaticJava()->_name; | |
1178 if( mcall_java->is_MachCallDynamicJava() ) | |
1179 mcall_java->as_MachCallDynamicJava()->_vtable_index = | |
1180 call_java->as_CallDynamicJava()->_vtable_index; | |
1181 } | |
1182 else if( mcall->is_MachCallRuntime() ) { | |
1183 mcall->as_MachCallRuntime()->_name = call->as_CallRuntime()->_name; | |
1184 } | |
1185 msfpt = mcall; | |
1186 } | |
1187 // This is a non-call safepoint | |
1188 else { | |
1189 call = NULL; | |
1190 domain = NULL; | |
1191 MachNode *mn = match_tree(sfpt); | |
1192 if (C->failing()) return NULL; | |
1193 msfpt = mn->as_MachSafePoint(); | |
1194 cnt = TypeFunc::Parms; | |
1195 } | |
1196 | |
1197 // Advertise the correct memory effects (for anti-dependence computation). | |
1198 msfpt->set_adr_type(sfpt->adr_type()); | |
1199 | |
1200 // Allocate a private array of RegMasks. These RegMasks are not shared. | |
1201 msfpt->_in_rms = NEW_RESOURCE_ARRAY( RegMask, cnt ); | |
1202 // Empty them all. | |
1203 memset( msfpt->_in_rms, 0, sizeof(RegMask)*cnt ); | |
1204 | |
1205 // Do all the pre-defined non-Empty register masks | |
1206 msfpt->_in_rms[TypeFunc::ReturnAdr] = _return_addr_mask; | |
1207 msfpt->_in_rms[TypeFunc::FramePtr ] = c_frame_ptr_mask; | |
1208 | |
1209 // Place first outgoing argument can possibly be put. | |
1210 OptoReg::Name begin_out_arg_area = OptoReg::add(_new_SP, C->out_preserve_stack_slots()); | |
1211 assert( is_even(begin_out_arg_area), "" ); | |
1212 // Compute max outgoing register number per call site. | |
1213 OptoReg::Name out_arg_limit_per_call = begin_out_arg_area; | |
1214 // Calls to C may hammer extra stack slots above and beyond any arguments. | |
1215 // These are usually backing store for register arguments for varargs. | |
1216 if( call != NULL && call->is_CallRuntime() ) | |
1217 out_arg_limit_per_call = OptoReg::add(out_arg_limit_per_call,C->varargs_C_out_slots_killed()); | |
1218 | |
1219 | |
1220 // Do the normal argument list (parameters) register masks | |
1221 int argcnt = cnt - TypeFunc::Parms; | |
1222 if( argcnt > 0 ) { // Skip it all if we have no args | |
1223 BasicType *sig_bt = NEW_RESOURCE_ARRAY( BasicType, argcnt ); | |
1224 VMRegPair *parm_regs = NEW_RESOURCE_ARRAY( VMRegPair, argcnt ); | |
1225 int i; | |
1226 for( i = 0; i < argcnt; i++ ) { | |
1227 sig_bt[i] = domain->field_at(i+TypeFunc::Parms)->basic_type(); | |
1228 } | |
1229 // V-call to pick proper calling convention | |
1230 call->calling_convention( sig_bt, parm_regs, argcnt ); | |
1231 | |
1232 #ifdef ASSERT | |
1233 // Sanity check users' calling convention. Really handy during | |
1234 // the initial porting effort. Fairly expensive otherwise. | |
1235 { for (int i = 0; i<argcnt; i++) { | |
1236 if( !parm_regs[i].first()->is_valid() && | |
1237 !parm_regs[i].second()->is_valid() ) continue; | |
1238 VMReg reg1 = parm_regs[i].first(); | |
1239 VMReg reg2 = parm_regs[i].second(); | |
1240 for (int j = 0; j < i; j++) { | |
1241 if( !parm_regs[j].first()->is_valid() && | |
1242 !parm_regs[j].second()->is_valid() ) continue; | |
1243 VMReg reg3 = parm_regs[j].first(); | |
1244 VMReg reg4 = parm_regs[j].second(); | |
1245 if( !reg1->is_valid() ) { | |
1246 assert( !reg2->is_valid(), "valid halvsies" ); | |
1247 } else if( !reg3->is_valid() ) { | |
1248 assert( !reg4->is_valid(), "valid halvsies" ); | |
1249 } else { | |
1250 assert( reg1 != reg2, "calling conv. must produce distinct regs"); | |
1251 assert( reg1 != reg3, "calling conv. must produce distinct regs"); | |
1252 assert( reg1 != reg4, "calling conv. must produce distinct regs"); | |
1253 assert( reg2 != reg3, "calling conv. must produce distinct regs"); | |
1254 assert( reg2 != reg4 || !reg2->is_valid(), "calling conv. must produce distinct regs"); | |
1255 assert( reg3 != reg4, "calling conv. must produce distinct regs"); | |
1256 } | |
1257 } | |
1258 } | |
1259 } | |
1260 #endif | |
1261 | |
1262 // Visit each argument. Compute its outgoing register mask. | |
1263 // Return results now can have 2 bits returned. | |
1264 // Compute max over all outgoing arguments both per call-site | |
1265 // and over the entire method. | |
1266 for( i = 0; i < argcnt; i++ ) { | |
1267 // Address of incoming argument mask to fill in | |
1268 RegMask *rm = &mcall->_in_rms[i+TypeFunc::Parms]; | |
1269 if( !parm_regs[i].first()->is_valid() && | |
1270 !parm_regs[i].second()->is_valid() ) { | |
1271 continue; // Avoid Halves | |
1272 } | |
1273 // Grab first register, adjust stack slots and insert in mask. | |
1274 OptoReg::Name reg1 = warp_outgoing_stk_arg(parm_regs[i].first(), begin_out_arg_area, out_arg_limit_per_call ); | |
1275 if (OptoReg::is_valid(reg1)) | |
1276 rm->Insert( reg1 ); | |
1277 // Grab second register (if any), adjust stack slots and insert in mask. | |
1278 OptoReg::Name reg2 = warp_outgoing_stk_arg(parm_regs[i].second(), begin_out_arg_area, out_arg_limit_per_call ); | |
1279 if (OptoReg::is_valid(reg2)) | |
1280 rm->Insert( reg2 ); | |
1281 } // End of for all arguments | |
1282 | |
1283 // Compute number of stack slots needed to restore stack in case of | |
1284 // Pascal-style argument popping. | |
1285 mcall->_argsize = out_arg_limit_per_call - begin_out_arg_area; | |
1286 } | |
1287 | |
1288 // Compute the max stack slot killed by any call. These will not be | |
1289 // available for debug info, and will be used to adjust FIRST_STACK_mask | |
1290 // after all call sites have been visited. | |
1291 if( _out_arg_limit < out_arg_limit_per_call) | |
1292 _out_arg_limit = out_arg_limit_per_call; | |
1293 | |
1294 if (mcall) { | |
1295 // Kill the outgoing argument area, including any non-argument holes and | |
1296 // any legacy C-killed slots. Use Fat-Projections to do the killing. | |
1297 // Since the max-per-method covers the max-per-call-site and debug info | |
1298 // is excluded on the max-per-method basis, debug info cannot land in | |
1299 // this killed area. | |
1300 uint r_cnt = mcall->tf()->range()->cnt(); | |
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1301 MachProjNode *proj = new (C) MachProjNode( mcall, r_cnt+10000, RegMask::Empty, MachProjNode::fat_proj ); |
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1302 if (!RegMask::can_represent_arg(OptoReg::Name(out_arg_limit_per_call-1))) { |
0 | 1303 C->record_method_not_compilable_all_tiers("unsupported outgoing calling sequence"); |
1304 } else { | |
1305 for (int i = begin_out_arg_area; i < out_arg_limit_per_call; i++) | |
1306 proj->_rout.Insert(OptoReg::Name(i)); | |
1307 } | |
1308 if( proj->_rout.is_NotEmpty() ) | |
1309 _proj_list.push(proj); | |
1310 } | |
1311 // Transfer the safepoint information from the call to the mcall | |
1312 // Move the JVMState list | |
1313 msfpt->set_jvms(sfpt->jvms()); | |
1314 for (JVMState* jvms = msfpt->jvms(); jvms; jvms = jvms->caller()) { | |
1315 jvms->set_map(sfpt); | |
1316 } | |
1317 | |
1318 // Debug inputs begin just after the last incoming parameter | |
1319 assert( (mcall == NULL) || (mcall->jvms() == NULL) || | |
1320 (mcall->jvms()->debug_start() + mcall->_jvmadj == mcall->tf()->domain()->cnt()), "" ); | |
1321 | |
1322 // Move the OopMap | |
1323 msfpt->_oop_map = sfpt->_oop_map; | |
1324 | |
1325 // Registers killed by the call are set in the local scheduling pass | |
1326 // of Global Code Motion. | |
1327 return msfpt; | |
1328 } | |
1329 | |
1330 //---------------------------match_tree---------------------------------------- | |
1331 // Match a Ideal Node DAG - turn it into a tree; Label & Reduce. Used as part | |
1332 // of the whole-sale conversion from Ideal to Mach Nodes. Also used for | |
1333 // making GotoNodes while building the CFG and in init_spill_mask() to identify | |
1334 // a Load's result RegMask for memoization in idealreg2regmask[] | |
1335 MachNode *Matcher::match_tree( const Node *n ) { | |
1336 assert( n->Opcode() != Op_Phi, "cannot match" ); | |
1337 assert( !n->is_block_start(), "cannot match" ); | |
1338 // Set the mark for all locally allocated State objects. | |
1339 // When this call returns, the _states_arena arena will be reset | |
1340 // freeing all State objects. | |
1341 ResourceMark rm( &_states_arena ); | |
1342 | |
1343 LabelRootDepth = 0; | |
1344 | |
1345 // StoreNodes require their Memory input to match any LoadNodes | |
1346 Node *mem = n->is_Store() ? n->in(MemNode::Memory) : (Node*)1 ; | |
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1347 #ifdef ASSERT |
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1348 Node* save_mem_node = _mem_node; |
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1349 _mem_node = n->is_Store() ? (Node*)n : NULL; |
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1350 #endif |
0 | 1351 // State object for root node of match tree |
1352 // Allocate it on _states_arena - stack allocation can cause stack overflow. | |
1353 State *s = new (&_states_arena) State; | |
1354 s->_kids[0] = NULL; | |
1355 s->_kids[1] = NULL; | |
1356 s->_leaf = (Node*)n; | |
1357 // Label the input tree, allocating labels from top-level arena | |
1358 Label_Root( n, s, n->in(0), mem ); | |
1359 if (C->failing()) return NULL; | |
1360 | |
1361 // The minimum cost match for the whole tree is found at the root State | |
1362 uint mincost = max_juint; | |
1363 uint cost = max_juint; | |
1364 uint i; | |
1365 for( i = 0; i < NUM_OPERANDS; i++ ) { | |
1366 if( s->valid(i) && // valid entry and | |
1367 s->_cost[i] < cost && // low cost and | |
1368 s->_rule[i] >= NUM_OPERANDS ) // not an operand | |
1369 cost = s->_cost[mincost=i]; | |
1370 } | |
1371 if (mincost == max_juint) { | |
1372 #ifndef PRODUCT | |
1373 tty->print("No matching rule for:"); | |
1374 s->dump(); | |
1375 #endif | |
1376 Matcher::soft_match_failure(); | |
1377 return NULL; | |
1378 } | |
1379 // Reduce input tree based upon the state labels to machine Nodes | |
1380 MachNode *m = ReduceInst( s, s->_rule[mincost], mem ); | |
1381 #ifdef ASSERT | |
1382 _old2new_map.map(n->_idx, m); | |
222 | 1383 _new2old_map.map(m->_idx, (Node*)n); |
0 | 1384 #endif |
1385 | |
1386 // Add any Matcher-ignored edges | |
1387 uint cnt = n->req(); | |
1388 uint start = 1; | |
1389 if( mem != (Node*)1 ) start = MemNode::Memory+1; | |
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1390 if( n->is_AddP() ) { |
0 | 1391 assert( mem == (Node*)1, "" ); |
1392 start = AddPNode::Base+1; | |
1393 } | |
1394 for( i = start; i < cnt; i++ ) { | |
1395 if( !n->match_edge(i) ) { | |
1396 if( i < m->req() ) | |
1397 m->ins_req( i, n->in(i) ); | |
1398 else | |
1399 m->add_req( n->in(i) ); | |
1400 } | |
1401 } | |
1402 | |
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1403 debug_only( _mem_node = save_mem_node; ) |
0 | 1404 return m; |
1405 } | |
1406 | |
1407 | |
1408 //------------------------------match_into_reg--------------------------------- | |
1409 // Choose to either match this Node in a register or part of the current | |
1410 // match tree. Return true for requiring a register and false for matching | |
1411 // as part of the current match tree. | |
1412 static bool match_into_reg( const Node *n, Node *m, Node *control, int i, bool shared ) { | |
1413 | |
1414 const Type *t = m->bottom_type(); | |
1415 | |
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1416 if (t->singleton()) { |
0 | 1417 // Never force constants into registers. Allow them to match as |
1418 // constants or registers. Copies of the same value will share | |
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1419 // the same register. See find_shared_node. |
0 | 1420 return false; |
1421 } else { // Not a constant | |
1422 // Stop recursion if they have different Controls. | |
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1423 Node* m_control = m->in(0); |
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1424 // Control of load's memory can post-dominates load's control. |
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1425 // So use it since load can't float above its memory. |
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1426 Node* mem_control = (m->is_Load()) ? m->in(MemNode::Memory)->in(0) : NULL; |
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1427 if (control && m_control && control != m_control && control != mem_control) { |
0 | 1428 |
1429 // Actually, we can live with the most conservative control we | |
1430 // find, if it post-dominates the others. This allows us to | |
1431 // pick up load/op/store trees where the load can float a little | |
1432 // above the store. | |
1433 Node *x = control; | |
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1434 const uint max_scan = 6; // Arbitrary scan cutoff |
0 | 1435 uint j; |
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1436 for (j=0; j<max_scan; j++) { |
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1437 if (x->is_Region()) // Bail out at merge points |
0 | 1438 return true; |
1439 x = x->in(0); | |
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1440 if (x == m_control) // Does 'control' post-dominate |
0 | 1441 break; // m->in(0)? If so, we can use it |
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1442 if (x == mem_control) // Does 'control' post-dominate |
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1443 break; // mem_control? If so, we can use it |
0 | 1444 } |
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1445 if (j == max_scan) // No post-domination before scan end? |
0 | 1446 return true; // Then break the match tree up |
1447 } | |
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1448 if ((m->is_DecodeN() && Matcher::narrow_oop_use_complex_address()) || |
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1449 (m->is_DecodeNKlass() && Matcher::narrow_klass_use_complex_address())) { |
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1450 // These are commonly used in address expressions and can |
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1451 // efficiently fold into them on X64 in some cases. |
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1452 return false; |
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1453 } |
0 | 1454 } |
1455 | |
605 | 1456 // Not forceable cloning. If shared, put it into a register. |
0 | 1457 return shared; |
1458 } | |
1459 | |
1460 | |
1461 //------------------------------Instruction Selection-------------------------- | |
1462 // Label method walks a "tree" of nodes, using the ADLC generated DFA to match | |
1463 // ideal nodes to machine instructions. Trees are delimited by shared Nodes, | |
1464 // things the Matcher does not match (e.g., Memory), and things with different | |
1465 // Controls (hence forced into different blocks). We pass in the Control | |
1466 // selected for this entire State tree. | |
1467 | |
1468 // The Matcher works on Trees, but an Intel add-to-memory requires a DAG: the | |
1469 // Store and the Load must have identical Memories (as well as identical | |
1470 // pointers). Since the Matcher does not have anything for Memory (and | |
1471 // does not handle DAGs), I have to match the Memory input myself. If the | |
1472 // Tree root is a Store, I require all Loads to have the identical memory. | |
1473 Node *Matcher::Label_Root( const Node *n, State *svec, Node *control, const Node *mem){ | |
1474 // Since Label_Root is a recursive function, its possible that we might run | |
1475 // out of stack space. See bugs 6272980 & 6227033 for more info. | |
1476 LabelRootDepth++; | |
1477 if (LabelRootDepth > MaxLabelRootDepth) { | |
1478 C->record_method_not_compilable_all_tiers("Out of stack space, increase MaxLabelRootDepth"); | |
1479 return NULL; | |
1480 } | |
1481 uint care = 0; // Edges matcher cares about | |
1482 uint cnt = n->req(); | |
1483 uint i = 0; | |
1484 | |
1485 // Examine children for memory state | |
1486 // Can only subsume a child into your match-tree if that child's memory state | |
1487 // is not modified along the path to another input. | |
1488 // It is unsafe even if the other inputs are separate roots. | |
1489 Node *input_mem = NULL; | |
1490 for( i = 1; i < cnt; i++ ) { | |
1491 if( !n->match_edge(i) ) continue; | |
1492 Node *m = n->in(i); // Get ith input | |
1493 assert( m, "expect non-null children" ); | |
1494 if( m->is_Load() ) { | |
1495 if( input_mem == NULL ) { | |
1496 input_mem = m->in(MemNode::Memory); | |
1497 } else if( input_mem != m->in(MemNode::Memory) ) { | |
1498 input_mem = NodeSentinel; | |
1499 } | |
1500 } | |
1501 } | |
1502 | |
1503 for( i = 1; i < cnt; i++ ){// For my children | |
1504 if( !n->match_edge(i) ) continue; | |
1505 Node *m = n->in(i); // Get ith input | |
1506 // Allocate states out of a private arena | |
1507 State *s = new (&_states_arena) State; | |
1508 svec->_kids[care++] = s; | |
1509 assert( care <= 2, "binary only for now" ); | |
1510 | |
1511 // Recursively label the State tree. | |
1512 s->_kids[0] = NULL; | |
1513 s->_kids[1] = NULL; | |
1514 s->_leaf = m; | |
1515 | |
1516 // Check for leaves of the State Tree; things that cannot be a part of | |
1517 // the current tree. If it finds any, that value is matched as a | |
1518 // register operand. If not, then the normal matching is used. | |
1519 if( match_into_reg(n, m, control, i, is_shared(m)) || | |
1520 // | |
1521 // Stop recursion if this is LoadNode and the root of this tree is a | |
1522 // StoreNode and the load & store have different memories. | |
1523 ((mem!=(Node*)1) && m->is_Load() && m->in(MemNode::Memory) != mem) || | |
1524 // Can NOT include the match of a subtree when its memory state | |
1525 // is used by any of the other subtrees | |
1526 (input_mem == NodeSentinel) ) { | |
1527 #ifndef PRODUCT | |
1528 // Print when we exclude matching due to different memory states at input-loads | |
1529 if( PrintOpto && (Verbose && WizardMode) && (input_mem == NodeSentinel) | |
1530 && !((mem!=(Node*)1) && m->is_Load() && m->in(MemNode::Memory) != mem) ) { | |
1531 tty->print_cr("invalid input_mem"); | |
1532 } | |
1533 #endif | |
1534 // Switch to a register-only opcode; this value must be in a register | |
1535 // and cannot be subsumed as part of a larger instruction. | |
1536 s->DFA( m->ideal_reg(), m ); | |
1537 | |
1538 } else { | |
1539 // If match tree has no control and we do, adopt it for entire tree | |
1540 if( control == NULL && m->in(0) != NULL && m->req() > 1 ) | |
1541 control = m->in(0); // Pick up control | |
1542 // Else match as a normal part of the match tree. | |
1543 control = Label_Root(m,s,control,mem); | |
1544 if (C->failing()) return NULL; | |
1545 } | |
1546 } | |
1547 | |
1548 | |
1549 // Call DFA to match this node, and return | |
1550 svec->DFA( n->Opcode(), n ); | |
1551 | |
1552 #ifdef ASSERT | |
1553 uint x; | |
1554 for( x = 0; x < _LAST_MACH_OPER; x++ ) | |
1555 if( svec->valid(x) ) | |
1556 break; | |
1557 | |
1558 if (x >= _LAST_MACH_OPER) { | |
1559 n->dump(); | |
1560 svec->dump(); | |
1561 assert( false, "bad AD file" ); | |
1562 } | |
1563 #endif | |
1564 return control; | |
1565 } | |
1566 | |
1567 | |
1568 // Con nodes reduced using the same rule can share their MachNode | |
1569 // which reduces the number of copies of a constant in the final | |
1570 // program. The register allocator is free to split uses later to | |
1571 // split live ranges. | |
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1572 MachNode* Matcher::find_shared_node(Node* leaf, uint rule) { |
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1573 if (!leaf->is_Con() && !leaf->is_DecodeNarrowPtr()) return NULL; |
0 | 1574 |
1575 // See if this Con has already been reduced using this rule. | |
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1576 if (_shared_nodes.Size() <= leaf->_idx) return NULL; |
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1577 MachNode* last = (MachNode*)_shared_nodes.at(leaf->_idx); |
0 | 1578 if (last != NULL && rule == last->rule()) { |
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1579 // Don't expect control change for DecodeN |
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1580 if (leaf->is_DecodeNarrowPtr()) |
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1581 return last; |
0 | 1582 // Get the new space root. |
1583 Node* xroot = new_node(C->root()); | |
1584 if (xroot == NULL) { | |
1585 // This shouldn't happen give the order of matching. | |
1586 return NULL; | |
1587 } | |
1588 | |
1589 // Shared constants need to have their control be root so they | |
1590 // can be scheduled properly. | |
1591 Node* control = last->in(0); | |
1592 if (control != xroot) { | |
1593 if (control == NULL || control == C->root()) { | |
1594 last->set_req(0, xroot); | |
1595 } else { | |
1596 assert(false, "unexpected control"); | |
1597 return NULL; | |
1598 } | |
1599 } | |
1600 return last; | |
1601 } | |
1602 return NULL; | |
1603 } | |
1604 | |
1605 | |
1606 //------------------------------ReduceInst------------------------------------- | |
1607 // Reduce a State tree (with given Control) into a tree of MachNodes. | |
1608 // This routine (and it's cohort ReduceOper) convert Ideal Nodes into | |
1609 // complicated machine Nodes. Each MachNode covers some tree of Ideal Nodes. | |
1610 // Each MachNode has a number of complicated MachOper operands; each | |
1611 // MachOper also covers a further tree of Ideal Nodes. | |
1612 | |
1613 // The root of the Ideal match tree is always an instruction, so we enter | |
1614 // the recursion here. After building the MachNode, we need to recurse | |
1615 // the tree checking for these cases: | |
1616 // (1) Child is an instruction - | |
1617 // Build the instruction (recursively), add it as an edge. | |
1618 // Build a simple operand (register) to hold the result of the instruction. | |
1619 // (2) Child is an interior part of an instruction - | |
1620 // Skip over it (do nothing) | |
1621 // (3) Child is the start of a operand - | |
1622 // Build the operand, place it inside the instruction | |
1623 // Call ReduceOper. | |
1624 MachNode *Matcher::ReduceInst( State *s, int rule, Node *&mem ) { | |
1625 assert( rule >= NUM_OPERANDS, "called with operand rule" ); | |
1626 | |
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1627 MachNode* shared_node = find_shared_node(s->_leaf, rule); |
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1628 if (shared_node != NULL) { |
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1629 return shared_node; |
0 | 1630 } |
1631 | |
1632 // Build the object to represent this state & prepare for recursive calls | |
1633 MachNode *mach = s->MachNodeGenerator( rule, C ); | |
1634 mach->_opnds[0] = s->MachOperGenerator( _reduceOp[rule], C ); | |
1635 assert( mach->_opnds[0] != NULL, "Missing result operand" ); | |
1636 Node *leaf = s->_leaf; | |
1637 // Check for instruction or instruction chain rule | |
1638 if( rule >= _END_INST_CHAIN_RULE || rule < _BEGIN_INST_CHAIN_RULE ) { | |
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1639 assert(C->node_arena()->contains(s->_leaf) || !has_new_node(s->_leaf), |
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1640 "duplicating node that's already been matched"); |
0 | 1641 // Instruction |
1642 mach->add_req( leaf->in(0) ); // Set initial control | |
1643 // Reduce interior of complex instruction | |
1644 ReduceInst_Interior( s, rule, mem, mach, 1 ); | |
1645 } else { | |
1646 // Instruction chain rules are data-dependent on their inputs | |
1647 mach->add_req(0); // Set initial control to none | |
1648 ReduceInst_Chain_Rule( s, rule, mem, mach ); | |
1649 } | |
1650 | |
1651 // If a Memory was used, insert a Memory edge | |
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1652 if( mem != (Node*)1 ) { |
0 | 1653 mach->ins_req(MemNode::Memory,mem); |
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1654 #ifdef ASSERT |
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1655 // Verify adr type after matching memory operation |
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1656 const MachOper* oper = mach->memory_operand(); |
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1657 if (oper != NULL && oper != (MachOper*)-1) { |
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1658 // It has a unique memory operand. Find corresponding ideal mem node. |
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1659 Node* m = NULL; |
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1660 if (leaf->is_Mem()) { |
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1661 m = leaf; |
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1662 } else { |
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1663 m = _mem_node; |
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1664 assert(m != NULL && m->is_Mem(), "expecting memory node"); |
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1665 } |
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1666 const Type* mach_at = mach->adr_type(); |
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1667 // DecodeN node consumed by an address may have different type |
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1668 // then its input. Don't compare types for such case. |
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1669 if (m->adr_type() != mach_at && |
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1670 (m->in(MemNode::Address)->is_DecodeNarrowPtr() || |
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1671 m->in(MemNode::Address)->is_AddP() && |
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1672 m->in(MemNode::Address)->in(AddPNode::Address)->is_DecodeNarrowPtr() || |
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1673 m->in(MemNode::Address)->is_AddP() && |
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1674 m->in(MemNode::Address)->in(AddPNode::Address)->is_AddP() && |
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1675 m->in(MemNode::Address)->in(AddPNode::Address)->in(AddPNode::Address)->is_DecodeNarrowPtr())) { |
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1676 mach_at = m->adr_type(); |
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1677 } |
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1678 if (m->adr_type() != mach_at) { |
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1679 m->dump(); |
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1680 tty->print_cr("mach:"); |
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1681 mach->dump(1); |
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1682 } |
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1683 assert(m->adr_type() == mach_at, "matcher should not change adr type"); |
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1684 } |
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1685 #endif |
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1686 } |
0 | 1687 |
1688 // If the _leaf is an AddP, insert the base edge | |
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1689 if( leaf->is_AddP() ) |
0 | 1690 mach->ins_req(AddPNode::Base,leaf->in(AddPNode::Base)); |
1691 | |
1692 uint num_proj = _proj_list.size(); | |
1693 | |
1694 // Perform any 1-to-many expansions required | |
1203 | 1695 MachNode *ex = mach->Expand(s,_proj_list, mem); |
0 | 1696 if( ex != mach ) { |
1697 assert(ex->ideal_reg() == mach->ideal_reg(), "ideal types should match"); | |
1698 if( ex->in(1)->is_Con() ) | |
1699 ex->in(1)->set_req(0, C->root()); | |
1700 // Remove old node from the graph | |
1701 for( uint i=0; i<mach->req(); i++ ) { | |
1702 mach->set_req(i,NULL); | |
1703 } | |
222 | 1704 #ifdef ASSERT |
1705 _new2old_map.map(ex->_idx, s->_leaf); | |
1706 #endif | |
0 | 1707 } |
1708 | |
1709 // PhaseChaitin::fixup_spills will sometimes generate spill code | |
1710 // via the matcher. By the time, nodes have been wired into the CFG, | |
1711 // and any further nodes generated by expand rules will be left hanging | |
1712 // in space, and will not get emitted as output code. Catch this. | |
1713 // Also, catch any new register allocation constraints ("projections") | |
1714 // generated belatedly during spill code generation. | |
1715 if (_allocation_started) { | |
1716 guarantee(ex == mach, "no expand rules during spill generation"); | |
1717 guarantee(_proj_list.size() == num_proj, "no allocation during spill generation"); | |
1718 } | |
1719 | |
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1720 if (leaf->is_Con() || leaf->is_DecodeNarrowPtr()) { |
0 | 1721 // Record the con for sharing |
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1722 _shared_nodes.map(leaf->_idx, ex); |
0 | 1723 } |
1724 | |
1725 return ex; | |
1726 } | |
1727 | |
1728 void Matcher::ReduceInst_Chain_Rule( State *s, int rule, Node *&mem, MachNode *mach ) { | |
1729 // 'op' is what I am expecting to receive | |
1730 int op = _leftOp[rule]; | |
1731 // Operand type to catch childs result | |
1732 // This is what my child will give me. | |
1733 int opnd_class_instance = s->_rule[op]; | |
1734 // Choose between operand class or not. | |
605 | 1735 // This is what I will receive. |
0 | 1736 int catch_op = (FIRST_OPERAND_CLASS <= op && op < NUM_OPERANDS) ? opnd_class_instance : op; |
1737 // New rule for child. Chase operand classes to get the actual rule. | |
1738 int newrule = s->_rule[catch_op]; | |
1739 | |
1740 if( newrule < NUM_OPERANDS ) { | |
1741 // Chain from operand or operand class, may be output of shared node | |
1742 assert( 0 <= opnd_class_instance && opnd_class_instance < NUM_OPERANDS, | |
1743 "Bad AD file: Instruction chain rule must chain from operand"); | |
1744 // Insert operand into array of operands for this instruction | |
1745 mach->_opnds[1] = s->MachOperGenerator( opnd_class_instance, C ); | |
1746 | |
1747 ReduceOper( s, newrule, mem, mach ); | |
1748 } else { | |
1749 // Chain from the result of an instruction | |
1750 assert( newrule >= _LAST_MACH_OPER, "Do NOT chain from internal operand"); | |
1751 mach->_opnds[1] = s->MachOperGenerator( _reduceOp[catch_op], C ); | |
1752 Node *mem1 = (Node*)1; | |
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1753 debug_only(Node *save_mem_node = _mem_node;) |
0 | 1754 mach->add_req( ReduceInst(s, newrule, mem1) ); |
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1755 debug_only(_mem_node = save_mem_node;) |
0 | 1756 } |
1757 return; | |
1758 } | |
1759 | |
1760 | |
1761 uint Matcher::ReduceInst_Interior( State *s, int rule, Node *&mem, MachNode *mach, uint num_opnds ) { | |
1762 if( s->_leaf->is_Load() ) { | |
1763 Node *mem2 = s->_leaf->in(MemNode::Memory); | |
1764 assert( mem == (Node*)1 || mem == mem2, "multiple Memories being matched at once?" ); | |
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1765 debug_only( if( mem == (Node*)1 ) _mem_node = s->_leaf;) |
0 | 1766 mem = mem2; |
1767 } | |
1768 if( s->_leaf->in(0) != NULL && s->_leaf->req() > 1) { | |
1769 if( mach->in(0) == NULL ) | |
1770 mach->set_req(0, s->_leaf->in(0)); | |
1771 } | |
1772 | |
1773 // Now recursively walk the state tree & add operand list. | |
1774 for( uint i=0; i<2; i++ ) { // binary tree | |
1775 State *newstate = s->_kids[i]; | |
1776 if( newstate == NULL ) break; // Might only have 1 child | |
1777 // 'op' is what I am expecting to receive | |
1778 int op; | |
1779 if( i == 0 ) { | |
1780 op = _leftOp[rule]; | |
1781 } else { | |
1782 op = _rightOp[rule]; | |
1783 } | |
1784 // Operand type to catch childs result | |
1785 // This is what my child will give me. | |
1786 int opnd_class_instance = newstate->_rule[op]; | |
1787 // Choose between operand class or not. | |
1788 // This is what I will receive. | |
1789 int catch_op = (op >= FIRST_OPERAND_CLASS && op < NUM_OPERANDS) ? opnd_class_instance : op; | |
1790 // New rule for child. Chase operand classes to get the actual rule. | |
1791 int newrule = newstate->_rule[catch_op]; | |
1792 | |
1793 if( newrule < NUM_OPERANDS ) { // Operand/operandClass or internalOp/instruction? | |
1794 // Operand/operandClass | |
1795 // Insert operand into array of operands for this instruction | |
1796 mach->_opnds[num_opnds++] = newstate->MachOperGenerator( opnd_class_instance, C ); | |
1797 ReduceOper( newstate, newrule, mem, mach ); | |
1798 | |
1799 } else { // Child is internal operand or new instruction | |
1800 if( newrule < _LAST_MACH_OPER ) { // internal operand or instruction? | |
1801 // internal operand --> call ReduceInst_Interior | |
1802 // Interior of complex instruction. Do nothing but recurse. | |
1803 num_opnds = ReduceInst_Interior( newstate, newrule, mem, mach, num_opnds ); | |
1804 } else { | |
1805 // instruction --> call build operand( ) to catch result | |
1806 // --> ReduceInst( newrule ) | |
1807 mach->_opnds[num_opnds++] = s->MachOperGenerator( _reduceOp[catch_op], C ); | |
1808 Node *mem1 = (Node*)1; | |
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1809 debug_only(Node *save_mem_node = _mem_node;) |
0 | 1810 mach->add_req( ReduceInst( newstate, newrule, mem1 ) ); |
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1811 debug_only(_mem_node = save_mem_node;) |
0 | 1812 } |
1813 } | |
1814 assert( mach->_opnds[num_opnds-1], "" ); | |
1815 } | |
1816 return num_opnds; | |
1817 } | |
1818 | |
1819 // This routine walks the interior of possible complex operands. | |
1820 // At each point we check our children in the match tree: | |
1821 // (1) No children - | |
1822 // We are a leaf; add _leaf field as an input to the MachNode | |
1823 // (2) Child is an internal operand - | |
1824 // Skip over it ( do nothing ) | |
1825 // (3) Child is an instruction - | |
1826 // Call ReduceInst recursively and | |
1827 // and instruction as an input to the MachNode | |
1828 void Matcher::ReduceOper( State *s, int rule, Node *&mem, MachNode *mach ) { | |
1829 assert( rule < _LAST_MACH_OPER, "called with operand rule" ); | |
1830 State *kid = s->_kids[0]; | |
1831 assert( kid == NULL || s->_leaf->in(0) == NULL, "internal operands have no control" ); | |
1832 | |
1833 // Leaf? And not subsumed? | |
1834 if( kid == NULL && !_swallowed[rule] ) { | |
1835 mach->add_req( s->_leaf ); // Add leaf pointer | |
1836 return; // Bail out | |
1837 } | |
1838 | |
1839 if( s->_leaf->is_Load() ) { | |
1840 assert( mem == (Node*)1, "multiple Memories being matched at once?" ); | |
1841 mem = s->_leaf->in(MemNode::Memory); | |
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1842 debug_only(_mem_node = s->_leaf;) |
0 | 1843 } |
1844 if( s->_leaf->in(0) && s->_leaf->req() > 1) { | |
1845 if( !mach->in(0) ) | |
1846 mach->set_req(0,s->_leaf->in(0)); | |
1847 else { | |
1848 assert( s->_leaf->in(0) == mach->in(0), "same instruction, differing controls?" ); | |
1849 } | |
1850 } | |
1851 | |
1852 for( uint i=0; kid != NULL && i<2; kid = s->_kids[1], i++ ) { // binary tree | |
1853 int newrule; | |
10405 | 1854 if( i == 0) |
0 | 1855 newrule = kid->_rule[_leftOp[rule]]; |
1856 else | |
1857 newrule = kid->_rule[_rightOp[rule]]; | |
1858 | |
1859 if( newrule < _LAST_MACH_OPER ) { // Operand or instruction? | |
1860 // Internal operand; recurse but do nothing else | |
1861 ReduceOper( kid, newrule, mem, mach ); | |
1862 | |
1863 } else { // Child is a new instruction | |
1864 // Reduce the instruction, and add a direct pointer from this | |
1865 // machine instruction to the newly reduced one. | |
1866 Node *mem1 = (Node*)1; | |
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1867 debug_only(Node *save_mem_node = _mem_node;) |
0 | 1868 mach->add_req( ReduceInst( kid, newrule, mem1 ) ); |
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1869 debug_only(_mem_node = save_mem_node;) |
0 | 1870 } |
1871 } | |
1872 } | |
1873 | |
1874 | |
1875 // ------------------------------------------------------------------------- | |
1876 // Java-Java calling convention | |
1877 // (what you use when Java calls Java) | |
1878 | |
1879 //------------------------------find_receiver---------------------------------- | |
1880 // For a given signature, return the OptoReg for parameter 0. | |
1881 OptoReg::Name Matcher::find_receiver( bool is_outgoing ) { | |
1882 VMRegPair regs; | |
1883 BasicType sig_bt = T_OBJECT; | |
1884 calling_convention(&sig_bt, ®s, 1, is_outgoing); | |
1885 // Return argument 0 register. In the LP64 build pointers | |
1886 // take 2 registers, but the VM wants only the 'main' name. | |
1887 return OptoReg::as_OptoReg(regs.first()); | |
1888 } | |
1889 | |
1890 // A method-klass-holder may be passed in the inline_cache_reg | |
1891 // and then expanded into the inline_cache_reg and a method_oop register | |
1892 // defined in ad_<arch>.cpp | |
1893 | |
1894 | |
1895 //------------------------------find_shared------------------------------------ | |
1896 // Set bits if Node is shared or otherwise a root | |
1897 void Matcher::find_shared( Node *n ) { | |
1898 // Allocate stack of size C->unique() * 2 to avoid frequent realloc | |
1899 MStack mstack(C->unique() * 2); | |
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1900 // Mark nodes as address_visited if they are inputs to an address expression |
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1901 VectorSet address_visited(Thread::current()->resource_area()); |
0 | 1902 mstack.push(n, Visit); // Don't need to pre-visit root node |
1903 while (mstack.is_nonempty()) { | |
1904 n = mstack.node(); // Leave node on stack | |
1905 Node_State nstate = mstack.state(); | |
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1906 uint nop = n->Opcode(); |
0 | 1907 if (nstate == Pre_Visit) { |
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1908 if (address_visited.test(n->_idx)) { // Visited in address already? |
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1909 // Flag as visited and shared now. |
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1910 set_visited(n); |
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1911 } |
0 | 1912 if (is_visited(n)) { // Visited already? |
1913 // Node is shared and has no reason to clone. Flag it as shared. | |
1914 // This causes it to match into a register for the sharing. | |
1915 set_shared(n); // Flag as shared and | |
1916 mstack.pop(); // remove node from stack | |
1917 continue; | |
1918 } | |
1919 nstate = Visit; // Not already visited; so visit now | |
1920 } | |
1921 if (nstate == Visit) { | |
1922 mstack.set_state(Post_Visit); | |
1923 set_visited(n); // Flag as visited now | |
1924 bool mem_op = false; | |
1925 | |
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1926 switch( nop ) { // Handle some opcodes special |
0 | 1927 case Op_Phi: // Treat Phis as shared roots |
1928 case Op_Parm: | |
1929 case Op_Proj: // All handled specially during matching | |
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1930 case Op_SafePointScalarObject: |
0 | 1931 set_shared(n); |
1932 set_dontcare(n); | |
1933 break; | |
1934 case Op_If: | |
1935 case Op_CountedLoopEnd: | |
1936 mstack.set_state(Alt_Post_Visit); // Alternative way | |
1937 // Convert (If (Bool (CmpX A B))) into (If (Bool) (CmpX A B)). Helps | |
1938 // with matching cmp/branch in 1 instruction. The Matcher needs the | |
1939 // Bool and CmpX side-by-side, because it can only get at constants | |
1940 // that are at the leaves of Match trees, and the Bool's condition acts | |
1941 // as a constant here. | |
1942 mstack.push(n->in(1), Visit); // Clone the Bool | |
1943 mstack.push(n->in(0), Pre_Visit); // Visit control input | |
1944 continue; // while (mstack.is_nonempty()) | |
1945 case Op_ConvI2D: // These forms efficiently match with a prior | |
1946 case Op_ConvI2F: // Load but not a following Store | |
1947 if( n->in(1)->is_Load() && // Prior load | |
1948 n->outcnt() == 1 && // Not already shared | |
1949 n->unique_out()->is_Store() ) // Following store | |
1950 set_shared(n); // Force it to be a root | |
1951 break; | |
1952 case Op_ReverseBytesI: | |
1953 case Op_ReverseBytesL: | |
1954 if( n->in(1)->is_Load() && // Prior load | |
1955 n->outcnt() == 1 ) // Not already shared | |
1956 set_shared(n); // Force it to be a root | |
1957 break; | |
1958 case Op_BoxLock: // Cant match until we get stack-regs in ADLC | |
1959 case Op_IfFalse: | |
1960 case Op_IfTrue: | |
1961 case Op_MachProj: | |
1962 case Op_MergeMem: | |
1963 case Op_Catch: | |
1964 case Op_CatchProj: | |
1965 case Op_CProj: | |
1966 case Op_JumpProj: | |
1967 case Op_JProj: | |
1968 case Op_NeverBranch: | |
1969 set_dontcare(n); | |
1970 break; | |
1971 case Op_Jump: | |
4064
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1972 mstack.push(n->in(1), Pre_Visit); // Switch Value (could be shared) |
0 | 1973 mstack.push(n->in(0), Pre_Visit); // Visit Control input |
1974 continue; // while (mstack.is_nonempty()) | |
1975 case Op_StrComp: | |
681 | 1976 case Op_StrEquals: |
1977 case Op_StrIndexOf: | |
169
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1978 case Op_AryEq: |
7637
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1979 case Op_EncodeISOArray: |
0 | 1980 set_shared(n); // Force result into register (it will be anyways) |
1981 break; | |
1982 case Op_ConP: { // Convert pointers above the centerline to NUL | |
1983 TypeNode *tn = n->as_Type(); // Constants derive from type nodes | |
1984 const TypePtr* tp = tn->type()->is_ptr(); | |
1985 if (tp->_ptr == TypePtr::AnyNull) { | |
1986 tn->set_type(TypePtr::NULL_PTR); | |
1987 } | |
1988 break; | |
1989 } | |
163 | 1990 case Op_ConN: { // Convert narrow pointers above the centerline to NUL |
1991 TypeNode *tn = n->as_Type(); // Constants derive from type nodes | |
221
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1992 const TypePtr* tp = tn->type()->make_ptr(); |
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1993 if (tp && tp->_ptr == TypePtr::AnyNull) { |
163 | 1994 tn->set_type(TypeNarrowOop::NULL_PTR); |
1995 } | |
1996 break; | |
1997 } | |
0 | 1998 case Op_Binary: // These are introduced in the Post_Visit state. |
1999 ShouldNotReachHere(); | |
2000 break; | |
2001 case Op_ClearArray: | |
2002 case Op_SafePoint: | |
2003 mem_op = true; | |
2004 break; | |
1061
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2005 default: |
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2006 if( n->is_Store() ) { |
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2007 // Do match stores, despite no ideal reg |
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2008 mem_op = true; |
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6896370: CTW fails share/vm/opto/matcher.cpp:1475 "duplicating node that's already been matched"
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2009 break; |
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2010 } |
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2011 if( n->is_Mem() ) { // Loads and LoadStores |
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6896370: CTW fails share/vm/opto/matcher.cpp:1475 "duplicating node that's already been matched"
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2012 mem_op = true; |
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6896370: CTW fails share/vm/opto/matcher.cpp:1475 "duplicating node that's already been matched"
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2013 // Loads must be root of match tree due to prior load conflict |
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2014 if( C->subsume_loads() == false ) |
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2015 set_shared(n); |
0 | 2016 } |
2017 // Fall into default case | |
2018 if( !n->ideal_reg() ) | |
2019 set_dontcare(n); // Unmatchable Nodes | |
2020 } // end_switch | |
2021 | |
2022 for(int i = n->req() - 1; i >= 0; --i) { // For my children | |
2023 Node *m = n->in(i); // Get ith input | |
2024 if (m == NULL) continue; // Ignore NULLs | |
2025 uint mop = m->Opcode(); | |
2026 | |
2027 // Must clone all producers of flags, or we will not match correctly. | |
2028 // Suppose a compare setting int-flags is shared (e.g., a switch-tree) | |
2029 // then it will match into an ideal Op_RegFlags. Alas, the fp-flags | |
2030 // are also there, so we may match a float-branch to int-flags and | |
2031 // expect the allocator to haul the flags from the int-side to the | |
2032 // fp-side. No can do. | |
2033 if( _must_clone[mop] ) { | |
2034 mstack.push(m, Visit); | |
2035 continue; // for(int i = ...) | |
2036 } | |
2037 | |
6848
8e47bac5643a
7054512: Compress class pointers after perm gen removal
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2038 if( mop == Op_AddP && m->in(AddPNode::Base)->is_DecodeNarrowPtr()) { |
1061
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6896370: CTW fails share/vm/opto/matcher.cpp:1475 "duplicating node that's already been matched"
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|
2039 // Bases used in addresses must be shared but since |
09572fede9d1
6896370: CTW fails share/vm/opto/matcher.cpp:1475 "duplicating node that's already been matched"
kvn
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|
2040 // they are shared through a DecodeN they may appear |
09572fede9d1
6896370: CTW fails share/vm/opto/matcher.cpp:1475 "duplicating node that's already been matched"
kvn
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2041 // to have a single use so force sharing here. |
09572fede9d1
6896370: CTW fails share/vm/opto/matcher.cpp:1475 "duplicating node that's already been matched"
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|
2042 set_shared(m->in(AddPNode::Base)->in(1)); |
09572fede9d1
6896370: CTW fails share/vm/opto/matcher.cpp:1475 "duplicating node that's already been matched"
kvn
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|
2043 } |
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6896370: CTW fails share/vm/opto/matcher.cpp:1475 "duplicating node that's already been matched"
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|
2044 |
09572fede9d1
6896370: CTW fails share/vm/opto/matcher.cpp:1475 "duplicating node that's already been matched"
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|
2045 // Clone addressing expressions as they are "free" in memory access instructions |
0 | 2046 if( mem_op && i == MemNode::Address && mop == Op_AddP ) { |
586
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
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|
2047 // Some inputs for address expression are not put on stack |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
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|
2048 // to avoid marking them as shared and forcing them into register |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
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changeset
|
2049 // if they are used only in address expressions. |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2050 // But they should be marked as shared if there are other uses |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
parents:
558
diff
changeset
|
2051 // besides address expressions. |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
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|
2052 |
0 | 2053 Node *off = m->in(AddPNode::Offset); |
586
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
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|
2054 if( off->is_Con() && |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
parents:
558
diff
changeset
|
2055 // When there are other uses besides address expressions |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2056 // put it on stack and mark as shared. |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2057 !is_visited(m) ) { |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2058 address_visited.test_set(m->_idx); // Flag as address_visited |
0 | 2059 Node *adr = m->in(AddPNode::Address); |
2060 | |
2061 // Intel, ARM and friends can handle 2 adds in addressing mode | |
168
7793bd37a336
6705887: Compressed Oops: generate x64 addressing and implicit null checks with narrow oops
kvn
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diff
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|
2062 if( clone_shift_expressions && adr->is_AddP() && |
0 | 2063 // AtomicAdd is not an addressing expression. |
2064 // Cheap to find it by looking for screwy base. | |
586
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
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|
2065 !adr->in(AddPNode::Base)->is_top() && |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2066 // Are there other uses besides address expressions? |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2067 !is_visited(adr) ) { |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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diff
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|
2068 address_visited.set(adr->_idx); // Flag as address_visited |
0 | 2069 Node *shift = adr->in(AddPNode::Offset); |
2070 // Check for shift by small constant as well | |
2071 if( shift->Opcode() == Op_LShiftX && shift->in(2)->is_Con() && | |
586
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2072 shift->in(2)->get_int() <= 3 && |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
parents:
558
diff
changeset
|
2073 // Are there other uses besides address expressions? |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
parents:
558
diff
changeset
|
2074 !is_visited(shift) ) { |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
parents:
558
diff
changeset
|
2075 address_visited.set(shift->_idx); // Flag as address_visited |
0 | 2076 mstack.push(shift->in(2), Visit); |
586
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2077 Node *conv = shift->in(1); |
0 | 2078 #ifdef _LP64 |
2079 // Allow Matcher to match the rule which bypass | |
2080 // ConvI2L operation for an array index on LP64 | |
2081 // if the index value is positive. | |
586
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2082 if( conv->Opcode() == Op_ConvI2L && |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2083 conv->as_Type()->type()->is_long()->_lo >= 0 && |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
parents:
558
diff
changeset
|
2084 // Are there other uses besides address expressions? |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
parents:
558
diff
changeset
|
2085 !is_visited(conv) ) { |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
parents:
558
diff
changeset
|
2086 address_visited.set(conv->_idx); // Flag as address_visited |
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2087 mstack.push(conv->in(1), Pre_Visit); |
0 | 2088 } else |
2089 #endif | |
586
6bea93606c11
6791572: assert("duplicating node that's already been matched")
kvn
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558
diff
changeset
|
2090 mstack.push(conv, Pre_Visit); |
0 | 2091 } else { |
2092 mstack.push(shift, Pre_Visit); | |
2093 } | |
2094 mstack.push(adr->in(AddPNode::Address), Pre_Visit); | |
2095 mstack.push(adr->in(AddPNode::Base), Pre_Visit); | |
2096 } else { // Sparc, Alpha, PPC and friends | |
2097 mstack.push(adr, Pre_Visit); | |
2098 } | |
2099 | |
2100 // Clone X+offset as it also folds into most addressing expressions | |
2101 mstack.push(off, Visit); | |
2102 mstack.push(m->in(AddPNode::Base), Pre_Visit); | |
2103 continue; // for(int i = ...) | |
2104 } // if( off->is_Con() ) | |
2105 } // if( mem_op && | |
2106 mstack.push(m, Pre_Visit); | |
2107 } // for(int i = ...) | |
2108 } | |
2109 else if (nstate == Alt_Post_Visit) { | |
2110 mstack.pop(); // Remove node from stack | |
2111 // We cannot remove the Cmp input from the Bool here, as the Bool may be | |
2112 // shared and all users of the Bool need to move the Cmp in parallel. | |
2113 // This leaves both the Bool and the If pointing at the Cmp. To | |
2114 // prevent the Matcher from trying to Match the Cmp along both paths | |
2115 // BoolNode::match_edge always returns a zero. | |
2116 | |
2117 // We reorder the Op_If in a pre-order manner, so we can visit without | |
605 | 2118 // accidentally sharing the Cmp (the Bool and the If make 2 users). |
0 | 2119 n->add_req( n->in(1)->in(1) ); // Add the Cmp next to the Bool |
2120 } | |
2121 else if (nstate == Post_Visit) { | |
2122 mstack.pop(); // Remove node from stack | |
2123 | |
2124 // Now hack a few special opcodes | |
2125 switch( n->Opcode() ) { // Handle some opcodes special | |
2126 case Op_StorePConditional: | |
420
a1980da045cc
6462850: generate biased locking code in C2 ideal graph
kvn
parents:
368
diff
changeset
|
2127 case Op_StoreIConditional: |
0 | 2128 case Op_StoreLConditional: |
2129 case Op_CompareAndSwapI: | |
2130 case Op_CompareAndSwapL: | |
113
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
63
diff
changeset
|
2131 case Op_CompareAndSwapP: |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
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63
diff
changeset
|
2132 case Op_CompareAndSwapN: { // Convert trinary to binary-tree |
0 | 2133 Node *newval = n->in(MemNode::ValueIn ); |
6795
7eca5de9e0b6
7023898: Intrinsify AtomicLongFieldUpdater.getAndIncrement()
roland
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6725
diff
changeset
|
2134 Node *oldval = n->in(LoadStoreConditionalNode::ExpectedIn); |
6804
e626685e9f6c
7193318: C2: remove number of inputs requirement from Node's new operator
kvn
parents:
6795
diff
changeset
|
2135 Node *pair = new (C) BinaryNode( oldval, newval ); |
0 | 2136 n->set_req(MemNode::ValueIn,pair); |
6795
7eca5de9e0b6
7023898: Intrinsify AtomicLongFieldUpdater.getAndIncrement()
roland
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6725
diff
changeset
|
2137 n->del_req(LoadStoreConditionalNode::ExpectedIn); |
0 | 2138 break; |
2139 } | |
2140 case Op_CMoveD: // Convert trinary to binary-tree | |
2141 case Op_CMoveF: | |
2142 case Op_CMoveI: | |
2143 case Op_CMoveL: | |
164
c436414a719e
6703890: Compressed Oops: add LoadNKlass node to generate narrow oops (32-bits) compare instructions
kvn
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163
diff
changeset
|
2144 case Op_CMoveN: |
0 | 2145 case Op_CMoveP: { |
2146 // Restructure into a binary tree for Matching. It's possible that | |
2147 // we could move this code up next to the graph reshaping for IfNodes | |
2148 // or vice-versa, but I do not want to debug this for Ladybird. | |
2149 // 10/2/2000 CNC. | |
6804
e626685e9f6c
7193318: C2: remove number of inputs requirement from Node's new operator
kvn
parents:
6795
diff
changeset
|
2150 Node *pair1 = new (C) BinaryNode(n->in(1),n->in(1)->in(1)); |
0 | 2151 n->set_req(1,pair1); |
6804
e626685e9f6c
7193318: C2: remove number of inputs requirement from Node's new operator
kvn
parents:
6795
diff
changeset
|
2152 Node *pair2 = new (C) BinaryNode(n->in(2),n->in(3)); |
0 | 2153 n->set_req(2,pair2); |
2154 n->del_req(3); | |
2155 break; | |
2156 } | |
3345 | 2157 case Op_LoopLimit: { |
6804
e626685e9f6c
7193318: C2: remove number of inputs requirement from Node's new operator
kvn
parents:
6795
diff
changeset
|
2158 Node *pair1 = new (C) BinaryNode(n->in(1),n->in(2)); |
3345 | 2159 n->set_req(1,pair1); |
2160 n->set_req(2,n->in(3)); | |
2161 n->del_req(3); | |
2162 break; | |
2163 } | |
986
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2164 case Op_StrEquals: { |
6804
e626685e9f6c
7193318: C2: remove number of inputs requirement from Node's new operator
kvn
parents:
6795
diff
changeset
|
2165 Node *pair1 = new (C) BinaryNode(n->in(2),n->in(3)); |
986
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2166 n->set_req(2,pair1); |
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2167 n->set_req(3,n->in(4)); |
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2168 n->del_req(4); |
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2169 break; |
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2170 } |
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2171 case Op_StrComp: |
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2172 case Op_StrIndexOf: { |
6804
e626685e9f6c
7193318: C2: remove number of inputs requirement from Node's new operator
kvn
parents:
6795
diff
changeset
|
2173 Node *pair1 = new (C) BinaryNode(n->in(2),n->in(3)); |
986
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2174 n->set_req(2,pair1); |
6804
e626685e9f6c
7193318: C2: remove number of inputs requirement from Node's new operator
kvn
parents:
6795
diff
changeset
|
2175 Node *pair2 = new (C) BinaryNode(n->in(4),n->in(5)); |
986
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2176 n->set_req(3,pair2); |
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2177 n->del_req(5); |
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2178 n->del_req(4); |
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2179 break; |
62001a362ce9
6827605: new String intrinsics may prevent EA scalar replacement
kvn
parents:
851
diff
changeset
|
2180 } |
7637
b30b3c2a0cf2
6896617: Optimize sun.nio.cs.ISO_8859_1$Encode.encodeArrayLoop() on x86
kvn
parents:
7196
diff
changeset
|
2181 case Op_EncodeISOArray: { |
b30b3c2a0cf2
6896617: Optimize sun.nio.cs.ISO_8859_1$Encode.encodeArrayLoop() on x86
kvn
parents:
7196
diff
changeset
|
2182 // Restructure into a binary tree for Matching. |
b30b3c2a0cf2
6896617: Optimize sun.nio.cs.ISO_8859_1$Encode.encodeArrayLoop() on x86
kvn
parents:
7196
diff
changeset
|
2183 Node* pair = new (C) BinaryNode(n->in(3), n->in(4)); |
b30b3c2a0cf2
6896617: Optimize sun.nio.cs.ISO_8859_1$Encode.encodeArrayLoop() on x86
kvn
parents:
7196
diff
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|
2184 n->set_req(3, pair); |
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2185 n->del_req(4); |
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2186 break; |
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2187 } |
0 | 2188 default: |
2189 break; | |
2190 } | |
2191 } | |
2192 else { | |
2193 ShouldNotReachHere(); | |
2194 } | |
2195 } // end of while (mstack.is_nonempty()) | |
2196 } | |
2197 | |
2198 #ifdef ASSERT | |
2199 // machine-independent root to machine-dependent root | |
2200 void Matcher::dump_old2new_map() { | |
2201 _old2new_map.dump(); | |
2202 } | |
2203 #endif | |
2204 | |
2205 //---------------------------collect_null_checks------------------------------- | |
2206 // Find null checks in the ideal graph; write a machine-specific node for | |
2207 // it. Used by later implicit-null-check handling. Actually collects | |
2208 // either an IfTrue or IfFalse for the common NOT-null path, AND the ideal | |
2209 // value being tested. | |
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2210 void Matcher::collect_null_checks( Node *proj, Node *orig_proj ) { |
0 | 2211 Node *iff = proj->in(0); |
2212 if( iff->Opcode() == Op_If ) { | |
2213 // During matching If's have Bool & Cmp side-by-side | |
2214 BoolNode *b = iff->in(1)->as_Bool(); | |
2215 Node *cmp = iff->in(2); | |
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2216 int opc = cmp->Opcode(); |
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2217 if (opc != Op_CmpP && opc != Op_CmpN) return; |
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2218 |
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2219 const Type* ct = cmp->in(2)->bottom_type(); |
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2220 if (ct == TypePtr::NULL_PTR || |
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2221 (opc == Op_CmpN && ct == TypeNarrowOop::NULL_PTR)) { |
0 | 2222 |
368
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2223 bool push_it = false; |
113
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2224 if( proj->Opcode() == Op_IfTrue ) { |
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2225 extern int all_null_checks_found; |
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2226 all_null_checks_found++; |
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2227 if( b->_test._test == BoolTest::ne ) { |
368
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2228 push_it = true; |
113
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2229 } |
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2230 } else { |
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2231 assert( proj->Opcode() == Op_IfFalse, "" ); |
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2232 if( b->_test._test == BoolTest::eq ) { |
368
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2233 push_it = true; |
0 | 2234 } |
2235 } | |
368
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2236 if( push_it ) { |
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2237 _null_check_tests.push(proj); |
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2238 Node* val = cmp->in(1); |
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2239 #ifdef _LP64 |
1575
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2240 if (val->bottom_type()->isa_narrowoop() && |
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2241 !Matcher::narrow_oop_use_complex_address()) { |
368
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2242 // |
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2243 // Look for DecodeN node which should be pinned to orig_proj. |
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2244 // On platforms (Sparc) which can not handle 2 adds |
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2245 // in addressing mode we have to keep a DecodeN node and |
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2246 // use it to do implicit NULL check in address. |
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2247 // |
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2248 // DecodeN node was pinned to non-null path (orig_proj) during |
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2249 // CastPP transformation in final_graph_reshaping_impl(). |
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2250 // |
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2251 uint cnt = orig_proj->outcnt(); |
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2252 for (uint i = 0; i < orig_proj->outcnt(); i++) { |
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2253 Node* d = orig_proj->raw_out(i); |
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2254 if (d->is_DecodeN() && d->in(1) == val) { |
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2255 val = d; |
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2256 val->set_req(0, NULL); // Unpin now. |
1575
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2257 // Mark this as special case to distinguish from |
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2258 // a regular case: CmpP(DecodeN, NULL). |
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2259 val = (Node*)(((intptr_t)val) | 1); |
368
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2260 break; |
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2261 } |
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2262 } |
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2263 } |
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2264 #endif |
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2265 _null_check_tests.push(val); |
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2266 } |
0 | 2267 } |
2268 } | |
2269 } | |
2270 | |
2271 //---------------------------validate_null_checks------------------------------ | |
2272 // Its possible that the value being NULL checked is not the root of a match | |
2273 // tree. If so, I cannot use the value in an implicit null check. | |
2274 void Matcher::validate_null_checks( ) { | |
2275 uint cnt = _null_check_tests.size(); | |
2276 for( uint i=0; i < cnt; i+=2 ) { | |
2277 Node *test = _null_check_tests[i]; | |
2278 Node *val = _null_check_tests[i+1]; | |
1575
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2279 bool is_decoden = ((intptr_t)val) & 1; |
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2280 val = (Node*)(((intptr_t)val) & ~1); |
0 | 2281 if (has_new_node(val)) { |
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2282 Node* new_val = new_node(val); |
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2283 if (is_decoden) { |
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2284 assert(val->is_DecodeNarrowPtr() && val->in(0) == NULL, "sanity"); |
1575
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2285 // Note: new_val may have a control edge if |
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2286 // the original ideal node DecodeN was matched before |
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2287 // it was unpinned in Matcher::collect_null_checks(). |
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2288 // Unpin the mach node and mark it. |
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2289 new_val->set_req(0, NULL); |
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2290 new_val = (Node*)(((intptr_t)new_val) | 1); |
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2291 } |
0 | 2292 // Is a match-tree root, so replace with the matched value |
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2293 _null_check_tests.map(i+1, new_val); |
0 | 2294 } else { |
2295 // Yank from candidate list | |
2296 _null_check_tests.map(i+1,_null_check_tests[--cnt]); | |
2297 _null_check_tests.map(i,_null_check_tests[--cnt]); | |
2298 _null_check_tests.pop(); | |
2299 _null_check_tests.pop(); | |
2300 i-=2; | |
2301 } | |
2302 } | |
2303 } | |
2304 | |
2305 // Used by the DFA in dfa_xxx.cpp. Check for a following barrier or | |
2306 // atomic instruction acting as a store_load barrier without any | |
2307 // intervening volatile load, and thus we don't need a barrier here. | |
2308 // We retain the Node to act as a compiler ordering barrier. | |
2309 bool Matcher::post_store_load_barrier(const Node *vmb) { | |
2310 Compile *C = Compile::current(); | |
2311 assert( vmb->is_MemBar(), "" ); | |
2312 assert( vmb->Opcode() != Op_MemBarAcquire, "" ); | |
2313 const MemBarNode *mem = (const MemBarNode*)vmb; | |
2314 | |
2315 // Get the Proj node, ctrl, that can be used to iterate forward | |
2316 Node *ctrl = NULL; | |
2317 DUIterator_Fast imax, i = mem->fast_outs(imax); | |
2318 while( true ) { | |
2319 ctrl = mem->fast_out(i); // Throw out-of-bounds if proj not found | |
2320 assert( ctrl->is_Proj(), "only projections here" ); | |
2321 ProjNode *proj = (ProjNode*)ctrl; | |
2322 if( proj->_con == TypeFunc::Control && | |
2323 !C->node_arena()->contains(ctrl) ) // Unmatched old-space only | |
2324 break; | |
2325 i++; | |
2326 } | |
2327 | |
2328 for( DUIterator_Fast jmax, j = ctrl->fast_outs(jmax); j < jmax; j++ ) { | |
2329 Node *x = ctrl->fast_out(j); | |
2330 int xop = x->Opcode(); | |
2331 | |
2332 // We don't need current barrier if we see another or a lock | |
2333 // before seeing volatile load. | |
2334 // | |
2335 // Op_Fastunlock previously appeared in the Op_* list below. | |
2336 // With the advent of 1-0 lock operations we're no longer guaranteed | |
2337 // that a monitor exit operation contains a serializing instruction. | |
2338 | |
2339 if (xop == Op_MemBarVolatile || | |
2340 xop == Op_FastLock || | |
2341 xop == Op_CompareAndSwapL || | |
2342 xop == Op_CompareAndSwapP || | |
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2343 xop == Op_CompareAndSwapN || |
0 | 2344 xop == Op_CompareAndSwapI) |
2345 return true; | |
2346 | |
2347 if (x->is_MemBar()) { | |
2348 // We must retain this membar if there is an upcoming volatile | |
2349 // load, which will be preceded by acquire membar. | |
2350 if (xop == Op_MemBarAcquire) | |
2351 return false; | |
2352 // For other kinds of barriers, check by pretending we | |
2353 // are them, and seeing if we can be removed. | |
2354 else | |
2355 return post_store_load_barrier((const MemBarNode*)x); | |
2356 } | |
2357 | |
2358 // Delicate code to detect case of an upcoming fastlock block | |
2359 if( x->is_If() && x->req() > 1 && | |
2360 !C->node_arena()->contains(x) ) { // Unmatched old-space only | |
2361 Node *iff = x; | |
2362 Node *bol = iff->in(1); | |
2363 // The iff might be some random subclass of If or bol might be Con-Top | |
2364 if (!bol->is_Bool()) return false; | |
2365 assert( bol->req() > 1, "" ); | |
2366 return (bol->in(1)->Opcode() == Op_FastUnlock); | |
2367 } | |
2368 // probably not necessary to check for these | |
2369 if (x->is_Call() || x->is_SafePoint() || x->is_block_proj()) | |
2370 return false; | |
2371 } | |
2372 return false; | |
2373 } | |
2374 | |
2375 //============================================================================= | |
2376 //---------------------------State--------------------------------------------- | |
2377 State::State(void) { | |
2378 #ifdef ASSERT | |
2379 _id = 0; | |
2380 _kids[0] = _kids[1] = (State*)(intptr_t) CONST64(0xcafebabecafebabe); | |
2381 _leaf = (Node*)(intptr_t) CONST64(0xbaadf00dbaadf00d); | |
2382 //memset(_cost, -1, sizeof(_cost)); | |
2383 //memset(_rule, -1, sizeof(_rule)); | |
2384 #endif | |
2385 memset(_valid, 0, sizeof(_valid)); | |
2386 } | |
2387 | |
2388 #ifdef ASSERT | |
2389 State::~State() { | |
2390 _id = 99; | |
2391 _kids[0] = _kids[1] = (State*)(intptr_t) CONST64(0xcafebabecafebabe); | |
2392 _leaf = (Node*)(intptr_t) CONST64(0xbaadf00dbaadf00d); | |
2393 memset(_cost, -3, sizeof(_cost)); | |
2394 memset(_rule, -3, sizeof(_rule)); | |
2395 } | |
2396 #endif | |
2397 | |
2398 #ifndef PRODUCT | |
2399 //---------------------------dump---------------------------------------------- | |
2400 void State::dump() { | |
2401 tty->print("\n"); | |
2402 dump(0); | |
2403 } | |
2404 | |
2405 void State::dump(int depth) { | |
2406 for( int j = 0; j < depth; j++ ) | |
2407 tty->print(" "); | |
2408 tty->print("--N: "); | |
2409 _leaf->dump(); | |
2410 uint i; | |
2411 for( i = 0; i < _LAST_MACH_OPER; i++ ) | |
2412 // Check for valid entry | |
2413 if( valid(i) ) { | |
2414 for( int j = 0; j < depth; j++ ) | |
2415 tty->print(" "); | |
2416 assert(_cost[i] != max_juint, "cost must be a valid value"); | |
2417 assert(_rule[i] < _last_Mach_Node, "rule[i] must be valid rule"); | |
2418 tty->print_cr("%s %d %s", | |
2419 ruleName[i], _cost[i], ruleName[_rule[i]] ); | |
2420 } | |
2421 tty->print_cr(""); | |
2422 | |
2423 for( i=0; i<2; i++ ) | |
2424 if( _kids[i] ) | |
2425 _kids[i]->dump(depth+1); | |
2426 } | |
2427 #endif |