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annotate src/share/vm/opto/matcher.hpp @ 4597:8bc6f680a88d
fixed visual studio project files
author | Christian Haeubl <christian.haeubl@oracle.com> |
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date | Tue, 14 Feb 2012 15:01:36 -0800 |
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0 | 1 /* |
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2 * Copyright (c) 1997, 2011, Oracle and/or its affiliates. All rights reserved. |
0 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #ifndef SHARE_VM_OPTO_MATCHER_HPP |
26 #define SHARE_VM_OPTO_MATCHER_HPP | |
27 | |
28 #include "libadt/vectset.hpp" | |
29 #include "memory/resourceArea.hpp" | |
30 #include "opto/node.hpp" | |
31 #include "opto/phaseX.hpp" | |
32 #include "opto/regmask.hpp" | |
33 | |
0 | 34 class Compile; |
35 class Node; | |
36 class MachNode; | |
37 class MachTypeNode; | |
38 class MachOper; | |
39 | |
40 //---------------------------Matcher------------------------------------------- | |
41 class Matcher : public PhaseTransform { | |
42 friend class VMStructs; | |
43 // Private arena of State objects | |
44 ResourceArea _states_arena; | |
45 | |
46 VectorSet _visited; // Visit bits | |
47 | |
48 // Used to control the Label pass | |
49 VectorSet _shared; // Shared Ideal Node | |
50 VectorSet _dontcare; // Nothing the matcher cares about | |
51 | |
52 // Private methods which perform the actual matching and reduction | |
53 // Walks the label tree, generating machine nodes | |
54 MachNode *ReduceInst( State *s, int rule, Node *&mem); | |
55 void ReduceInst_Chain_Rule( State *s, int rule, Node *&mem, MachNode *mach); | |
56 uint ReduceInst_Interior(State *s, int rule, Node *&mem, MachNode *mach, uint num_opnds); | |
57 void ReduceOper( State *s, int newrule, Node *&mem, MachNode *mach ); | |
58 | |
59 // If this node already matched using "rule", return the MachNode for it. | |
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60 MachNode* find_shared_node(Node* n, uint rule); |
0 | 61 |
62 // Convert a dense opcode number to an expanded rule number | |
63 const int *_reduceOp; | |
64 const int *_leftOp; | |
65 const int *_rightOp; | |
66 | |
67 // Map dense opcode number to info on when rule is swallowed constant. | |
68 const bool *_swallowed; | |
69 | |
70 // Map dense rule number to determine if this is an instruction chain rule | |
71 const uint _begin_inst_chain_rule; | |
72 const uint _end_inst_chain_rule; | |
73 | |
74 // We want to clone constants and possible CmpI-variants. | |
75 // If we do not clone CmpI, then we can have many instances of | |
76 // condition codes alive at once. This is OK on some chips and | |
77 // bad on others. Hence the machine-dependent table lookup. | |
78 const char *_must_clone; | |
79 | |
80 // Find shared Nodes, or Nodes that otherwise are Matcher roots | |
81 void find_shared( Node *n ); | |
82 | |
83 // Debug and profile information for nodes in old space: | |
84 GrowableArray<Node_Notes*>* _old_node_note_array; | |
85 | |
86 // Node labeling iterator for instruction selection | |
87 Node *Label_Root( const Node *n, State *svec, Node *control, const Node *mem ); | |
88 | |
89 Node *transform( Node *dummy ); | |
90 | |
91 Node_List &_proj_list; // For Machine nodes killing many values | |
92 | |
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93 Node_Array _shared_nodes; |
0 | 94 |
95 debug_only(Node_Array _old2new_map;) // Map roots of ideal-trees to machine-roots | |
222 | 96 debug_only(Node_Array _new2old_map;) // Maps machine nodes back to ideal |
0 | 97 |
98 // Accessors for the inherited field PhaseTransform::_nodes: | |
99 void grow_new_node_array(uint idx_limit) { | |
100 _nodes.map(idx_limit-1, NULL); | |
101 } | |
102 bool has_new_node(const Node* n) const { | |
103 return _nodes.at(n->_idx) != NULL; | |
104 } | |
105 Node* new_node(const Node* n) const { | |
106 assert(has_new_node(n), "set before get"); | |
107 return _nodes.at(n->_idx); | |
108 } | |
109 void set_new_node(const Node* n, Node *nn) { | |
110 assert(!has_new_node(n), "set only once"); | |
111 _nodes.map(n->_idx, nn); | |
112 } | |
113 | |
114 #ifdef ASSERT | |
115 // Make sure only new nodes are reachable from this node | |
116 void verify_new_nodes_only(Node* root); | |
216
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117 |
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118 Node* _mem_node; // Ideal memory node consumed by mach node |
0 | 119 #endif |
120 | |
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121 // Mach node for ConP #NULL |
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122 MachNode* _mach_null; |
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123 |
0 | 124 public: |
125 int LabelRootDepth; | |
126 static const int base2reg[]; // Map Types to machine register types | |
127 // Convert ideal machine register to a register mask for spill-loads | |
128 static const RegMask *idealreg2regmask[]; | |
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129 RegMask *idealreg2spillmask [_last_machine_leaf]; |
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130 RegMask *idealreg2debugmask [_last_machine_leaf]; |
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131 RegMask *idealreg2mhdebugmask[_last_machine_leaf]; |
0 | 132 void init_spill_mask( Node *ret ); |
133 // Convert machine register number to register mask | |
134 static uint mreg2regmask_max; | |
135 static RegMask mreg2regmask[]; | |
136 static RegMask STACK_ONLY_mask; | |
137 | |
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138 MachNode* mach_null() const { return _mach_null; } |
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139 |
0 | 140 bool is_shared( Node *n ) { return _shared.test(n->_idx) != 0; } |
141 void set_shared( Node *n ) { _shared.set(n->_idx); } | |
142 bool is_visited( Node *n ) { return _visited.test(n->_idx) != 0; } | |
143 void set_visited( Node *n ) { _visited.set(n->_idx); } | |
144 bool is_dontcare( Node *n ) { return _dontcare.test(n->_idx) != 0; } | |
145 void set_dontcare( Node *n ) { _dontcare.set(n->_idx); } | |
146 | |
147 // Mode bit to tell DFA and expand rules whether we are running after | |
148 // (or during) register selection. Usually, the matcher runs before, | |
149 // but it will also get called to generate post-allocation spill code. | |
150 // In this situation, it is a deadly error to attempt to allocate more | |
151 // temporary registers. | |
152 bool _allocation_started; | |
153 | |
154 // Machine register names | |
155 static const char *regName[]; | |
156 // Machine register encodings | |
157 static const unsigned char _regEncode[]; | |
158 // Machine Node names | |
159 const char **_ruleName; | |
160 // Rules that are cheaper to rematerialize than to spill | |
161 static const uint _begin_rematerialize; | |
162 static const uint _end_rematerialize; | |
163 | |
164 // An array of chars, from 0 to _last_Mach_Reg. | |
165 // No Save = 'N' (for register windows) | |
166 // Save on Entry = 'E' | |
167 // Save on Call = 'C' | |
168 // Always Save = 'A' (same as SOE + SOC) | |
169 const char *_register_save_policy; | |
170 const char *_c_reg_save_policy; | |
171 // Convert a machine register to a machine register type, so-as to | |
172 // properly match spill code. | |
173 const int *_register_save_type; | |
174 // Maps from machine register to boolean; true if machine register can | |
175 // be holding a call argument in some signature. | |
176 static bool can_be_java_arg( int reg ); | |
177 // Maps from machine register to boolean; true if machine register holds | |
178 // a spillable argument. | |
179 static bool is_spillable_arg( int reg ); | |
180 | |
181 // List of IfFalse or IfTrue Nodes that indicate a taken null test. | |
182 // List is valid in the post-matching space. | |
183 Node_List _null_check_tests; | |
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184 void collect_null_checks( Node *proj, Node *orig_proj ); |
0 | 185 void validate_null_checks( ); |
186 | |
187 Matcher( Node_List &proj_list ); | |
188 | |
189 // Select instructions for entire method | |
190 void match( ); | |
191 // Helper for match | |
192 OptoReg::Name warp_incoming_stk_arg( VMReg reg ); | |
193 | |
194 // Transform, then walk. Does implicit DCE while walking. | |
195 // Name changed from "transform" to avoid it being virtual. | |
196 Node *xform( Node *old_space_node, int Nodes ); | |
197 | |
198 // Match a single Ideal Node - turn it into a 1-Node tree; Label & Reduce. | |
199 MachNode *match_tree( const Node *n ); | |
200 MachNode *match_sfpt( SafePointNode *sfpt ); | |
201 // Helper for match_sfpt | |
202 OptoReg::Name warp_outgoing_stk_arg( VMReg reg, OptoReg::Name begin_out_arg_area, OptoReg::Name &out_arg_limit_per_call ); | |
203 | |
204 // Initialize first stack mask and related masks. | |
205 void init_first_stack_mask(); | |
206 | |
207 // If we should save-on-entry this register | |
208 bool is_save_on_entry( int reg ); | |
209 | |
210 // Fixup the save-on-entry registers | |
211 void Fixup_Save_On_Entry( ); | |
212 | |
213 // --- Frame handling --- | |
214 | |
215 // Register number of the stack slot corresponding to the incoming SP. | |
216 // Per the Big Picture in the AD file, it is: | |
217 // SharedInfo::stack0 + locks + in_preserve_stack_slots + pad2. | |
218 OptoReg::Name _old_SP; | |
219 | |
220 // Register number of the stack slot corresponding to the highest incoming | |
221 // argument on the stack. Per the Big Picture in the AD file, it is: | |
222 // _old_SP + out_preserve_stack_slots + incoming argument size. | |
223 OptoReg::Name _in_arg_limit; | |
224 | |
225 // Register number of the stack slot corresponding to the new SP. | |
226 // Per the Big Picture in the AD file, it is: | |
227 // _in_arg_limit + pad0 | |
228 OptoReg::Name _new_SP; | |
229 | |
230 // Register number of the stack slot corresponding to the highest outgoing | |
231 // argument on the stack. Per the Big Picture in the AD file, it is: | |
232 // _new_SP + max outgoing arguments of all calls | |
233 OptoReg::Name _out_arg_limit; | |
234 | |
235 OptoRegPair *_parm_regs; // Array of machine registers per argument | |
236 RegMask *_calling_convention_mask; // Array of RegMasks per argument | |
237 | |
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238 // Does matcher have a match rule for this ideal node? |
0 | 239 static const bool has_match_rule(int opcode); |
240 static const bool _hasMatchRule[_last_opcode]; | |
241 | |
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242 // Does matcher have a match rule for this ideal node and is the |
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243 // predicate (if there is one) true? |
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244 // NOTE: If this function is used more commonly in the future, ADLC |
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245 // should generate this one. |
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246 static const bool match_rule_supported(int opcode); |
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247 |
0 | 248 // Used to determine if we have fast l2f conversion |
249 // USII has it, USIII doesn't | |
250 static const bool convL2FSupported(void); | |
251 | |
252 // Vector width in bytes | |
253 static const uint vector_width_in_bytes(void); | |
254 | |
255 // Vector ideal reg | |
256 static const uint vector_ideal_reg(void); | |
257 | |
258 // Used to determine a "low complexity" 64-bit constant. (Zero is simple.) | |
259 // The standard of comparison is one (StoreL ConL) vs. two (StoreI ConI). | |
260 // Depends on the details of 64-bit constant generation on the CPU. | |
261 static const bool isSimpleConstant64(jlong con); | |
262 | |
263 // These calls are all generated by the ADLC | |
264 | |
265 // TRUE - grows up, FALSE - grows down (Intel) | |
266 virtual bool stack_direction() const; | |
267 | |
268 // Java-Java calling convention | |
269 // (what you use when Java calls Java) | |
270 | |
271 // Alignment of stack in bytes, standard Intel word alignment is 4. | |
272 // Sparc probably wants at least double-word (8). | |
273 static uint stack_alignment_in_bytes(); | |
274 // Alignment of stack, measured in stack slots. | |
275 // The size of stack slots is defined by VMRegImpl::stack_slot_size. | |
276 static uint stack_alignment_in_slots() { | |
277 return stack_alignment_in_bytes() / (VMRegImpl::stack_slot_size); | |
278 } | |
279 | |
280 // Array mapping arguments to registers. Argument 0 is usually the 'this' | |
281 // pointer. Registers can include stack-slots and regular registers. | |
282 static void calling_convention( BasicType *, VMRegPair *, uint len, bool is_outgoing ); | |
283 | |
284 // Convert a sig into a calling convention register layout | |
285 // and find interesting things about it. | |
286 static OptoReg::Name find_receiver( bool is_outgoing ); | |
287 // Return address register. On Intel it is a stack-slot. On PowerPC | |
288 // it is the Link register. On Sparc it is r31? | |
289 virtual OptoReg::Name return_addr() const; | |
290 RegMask _return_addr_mask; | |
291 // Return value register. On Intel it is EAX. On Sparc i0/o0. | |
292 static OptoRegPair return_value(int ideal_reg, bool is_outgoing); | |
293 static OptoRegPair c_return_value(int ideal_reg, bool is_outgoing); | |
294 RegMask _return_value_mask; | |
295 // Inline Cache Register | |
296 static OptoReg::Name inline_cache_reg(); | |
297 static int inline_cache_reg_encode(); | |
298 | |
299 // Register for DIVI projection of divmodI | |
300 static RegMask divI_proj_mask(); | |
301 // Register for MODI projection of divmodI | |
302 static RegMask modI_proj_mask(); | |
303 | |
304 // Register for DIVL projection of divmodL | |
305 static RegMask divL_proj_mask(); | |
306 // Register for MODL projection of divmodL | |
307 static RegMask modL_proj_mask(); | |
308 | |
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309 // Use hardware DIV instruction when it is faster than |
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310 // a code which use multiply for division by constant. |
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311 static bool use_asm_for_ldiv_by_con( jlong divisor ); |
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312 |
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313 static const RegMask method_handle_invoke_SP_save_mask(); |
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314 |
0 | 315 // Java-Interpreter calling convention |
316 // (what you use when calling between compiled-Java and Interpreted-Java | |
317 | |
318 // Number of callee-save + always-save registers | |
319 // Ignores frame pointer and "special" registers | |
320 static int number_of_saved_registers(); | |
321 | |
322 // The Method-klass-holder may be passed in the inline_cache_reg | |
323 // and then expanded into the inline_cache_reg and a method_oop register | |
324 | |
325 static OptoReg::Name interpreter_method_oop_reg(); | |
326 static int interpreter_method_oop_reg_encode(); | |
327 | |
328 static OptoReg::Name compiler_method_oop_reg(); | |
329 static const RegMask &compiler_method_oop_reg_mask(); | |
330 static int compiler_method_oop_reg_encode(); | |
331 | |
332 // Interpreter's Frame Pointer Register | |
333 static OptoReg::Name interpreter_frame_pointer_reg(); | |
334 | |
335 // Java-Native calling convention | |
336 // (what you use when intercalling between Java and C++ code) | |
337 | |
338 // Array mapping arguments to registers. Argument 0 is usually the 'this' | |
339 // pointer. Registers can include stack-slots and regular registers. | |
340 static void c_calling_convention( BasicType*, VMRegPair *, uint ); | |
341 // Frame pointer. The frame pointer is kept at the base of the stack | |
342 // and so is probably the stack pointer for most machines. On Intel | |
343 // it is ESP. On the PowerPC it is R1. On Sparc it is SP. | |
344 OptoReg::Name c_frame_pointer() const; | |
345 static RegMask c_frame_ptr_mask; | |
346 | |
347 // !!!!! Special stuff for building ScopeDescs | |
348 virtual int regnum_to_fpu_offset(int regnum); | |
349 | |
350 // Is this branch offset small enough to be addressed by a short branch? | |
3851 | 351 bool is_short_branch_offset(int rule, int br_size, int offset); |
0 | 352 |
353 // Optional scaling for the parameter to the ClearArray/CopyArray node. | |
354 static const bool init_array_count_is_in_bytes; | |
355 | |
356 // Threshold small size (in bytes) for a ClearArray/CopyArray node. | |
357 // Anything this size or smaller may get converted to discrete scalar stores. | |
358 static const int init_array_short_size; | |
359 | |
4047 | 360 // Some hardware needs 2 CMOV's for longs. |
361 static const int long_cmove_cost(); | |
362 | |
363 // Some hardware have expensive CMOV for float and double. | |
364 static const int float_cmove_cost(); | |
365 | |
0 | 366 // Should the Matcher clone shifts on addressing modes, expecting them to |
367 // be subsumed into complex addressing expressions or compute them into | |
368 // registers? True for Intel but false for most RISCs | |
369 static const bool clone_shift_expressions; | |
370 | |
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371 static bool narrow_oop_use_complex_address(); |
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372 |
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373 // Generate implicit null check for narrow oops if it can fold |
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374 // into address expression (x64). |
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375 // |
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376 // [R12 + narrow_oop_reg<<3 + offset] // fold into address expression |
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377 // NullCheck narrow_oop_reg |
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378 // |
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379 // When narrow oops can't fold into address expression (Sparc) and |
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380 // base is not null use decode_not_null and normal implicit null check. |
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381 // Note, decode_not_null node can be used here since it is referenced |
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382 // only on non null path but it requires special handling, see |
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383 // collect_null_checks(): |
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384 // |
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385 // decode_not_null narrow_oop_reg, oop_reg // 'shift' and 'add base' |
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386 // [oop_reg + offset] |
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387 // NullCheck oop_reg |
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388 // |
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389 // With Zero base and when narrow oops can not fold into address |
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390 // expression use normal implicit null check since only shift |
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391 // is needed to decode narrow oop. |
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392 // |
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393 // decode narrow_oop_reg, oop_reg // only 'shift' |
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394 // [oop_reg + offset] |
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395 // NullCheck oop_reg |
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396 // |
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397 inline static bool gen_narrow_oop_implicit_null_checks() { |
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398 return Universe::narrow_oop_use_implicit_null_checks() && |
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399 (narrow_oop_use_complex_address() || |
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400 Universe::narrow_oop_base() != NULL); |
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401 } |
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402 |
0 | 403 // Is it better to copy float constants, or load them directly from memory? |
404 // Intel can load a float constant from a direct address, requiring no | |
405 // extra registers. Most RISCs will have to materialize an address into a | |
406 // register first, so they may as well materialize the constant immediately. | |
407 static const bool rematerialize_float_constants; | |
408 | |
409 // If CPU can load and store mis-aligned doubles directly then no fixup is | |
410 // needed. Else we split the double into 2 integer pieces and move it | |
411 // piece-by-piece. Only happens when passing doubles into C code or when | |
412 // calling i2c adapters as the Java calling convention forces doubles to be | |
413 // aligned. | |
414 static const bool misaligned_doubles_ok; | |
415 | |
416 // Perform a platform dependent implicit null fixup. This is needed | |
417 // on windows95 to take care of some unusual register constraints. | |
418 void pd_implicit_null_fixup(MachNode *load, uint idx); | |
419 | |
420 // Advertise here if the CPU requires explicit rounding operations | |
421 // to implement the UseStrictFP mode. | |
422 static const bool strict_fp_requires_explicit_rounding; | |
423 | |
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424 // Are floats conerted to double when stored to stack during deoptimization? |
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425 static bool float_in_double(); |
0 | 426 // Do ints take an entire long register or just half? |
427 static const bool int_in_long; | |
428 | |
2401
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429 // Do the processor's shift instructions only use the low 5/6 bits |
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430 // of the count for 32/64 bit ints? If not we need to do the masking |
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431 // ourselves. |
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432 static const bool need_masked_shift_count; |
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433 |
0 | 434 // This routine is run whenever a graph fails to match. |
435 // If it returns, the compiler should bailout to interpreter without error. | |
436 // In non-product mode, SoftMatchFailure is false to detect non-canonical | |
437 // graphs. Print a message and exit. | |
438 static void soft_match_failure() { | |
439 if( SoftMatchFailure ) return; | |
440 else { fatal("SoftMatchFailure is not allowed except in product"); } | |
441 } | |
442 | |
443 // Check for a following volatile memory barrier without an | |
444 // intervening load and thus we don't need a barrier here. We | |
445 // retain the Node to act as a compiler ordering barrier. | |
446 static bool post_store_load_barrier(const Node* mb); | |
447 | |
448 | |
449 #ifdef ASSERT | |
450 void dump_old2new_map(); // machine-independent to machine-dependent | |
222 | 451 |
452 Node* find_old_node(Node* new_node) { | |
453 return _new2old_map[new_node->_idx]; | |
454 } | |
0 | 455 #endif |
456 }; | |
1972 | 457 |
458 #endif // SHARE_VM_OPTO_MATCHER_HPP |