Mercurial > hg > truffle
annotate src/share/vm/opto/node.hpp @ 2645:b2c1e959be46
Clean up around BlockBegin / StdEntry.
author | Thomas Wuerthinger <thomas@wuerthinger.net> |
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date | Wed, 11 May 2011 14:34:29 +0200 |
parents | 2f644f85485d |
children | e3cbc9ddd434 |
rev | line source |
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0 | 1 /* |
1972 | 2 * Copyright (c) 1997, 2010, 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 * | |
1552
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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_NODE_HPP |
26 #define SHARE_VM_OPTO_NODE_HPP | |
27 | |
28 #include "libadt/port.hpp" | |
29 #include "libadt/vectset.hpp" | |
30 #include "opto/compile.hpp" | |
31 #include "opto/type.hpp" | |
32 | |
0 | 33 // Portions of code courtesy of Clifford Click |
34 | |
35 // Optimization - Graph Style | |
36 | |
37 | |
38 class AbstractLockNode; | |
39 class AddNode; | |
40 class AddPNode; | |
41 class AliasInfo; | |
42 class AllocateArrayNode; | |
43 class AllocateNode; | |
44 class Block; | |
45 class Block_Array; | |
46 class BoolNode; | |
47 class BoxLockNode; | |
48 class CMoveNode; | |
49 class CallDynamicJavaNode; | |
50 class CallJavaNode; | |
51 class CallLeafNode; | |
52 class CallNode; | |
53 class CallRuntimeNode; | |
54 class CallStaticJavaNode; | |
55 class CatchNode; | |
56 class CatchProjNode; | |
57 class CheckCastPPNode; | |
1100
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58 class ClearArrayNode; |
0 | 59 class CmpNode; |
60 class CodeBuffer; | |
61 class ConstraintCastNode; | |
62 class ConNode; | |
63 class CountedLoopNode; | |
64 class CountedLoopEndNode; | |
168
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65 class DecodeNNode; |
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66 class EncodePNode; |
0 | 67 class FastLockNode; |
68 class FastUnlockNode; | |
69 class IfNode; | |
70 class InitializeNode; | |
71 class JVMState; | |
72 class JumpNode; | |
73 class JumpProjNode; | |
74 class LoadNode; | |
75 class LoadStoreNode; | |
76 class LockNode; | |
77 class LoopNode; | |
78 class MachCallDynamicJavaNode; | |
79 class MachCallJavaNode; | |
80 class MachCallLeafNode; | |
81 class MachCallNode; | |
82 class MachCallRuntimeNode; | |
83 class MachCallStaticJavaNode; | |
2008 | 84 class MachConstantBaseNode; |
85 class MachConstantNode; | |
0 | 86 class MachIfNode; |
87 class MachNode; | |
88 class MachNullCheckNode; | |
89 class MachReturnNode; | |
90 class MachSafePointNode; | |
91 class MachSpillCopyNode; | |
92 class MachTempNode; | |
93 class Matcher; | |
94 class MemBarNode; | |
95 class MemNode; | |
96 class MergeMemNode; | |
97 class MulNode; | |
98 class MultiNode; | |
99 class MultiBranchNode; | |
100 class NeverBranchNode; | |
101 class Node; | |
102 class Node_Array; | |
103 class Node_List; | |
104 class Node_Stack; | |
105 class NullCheckNode; | |
106 class OopMap; | |
33 | 107 class ParmNode; |
0 | 108 class PCTableNode; |
109 class PhaseCCP; | |
110 class PhaseGVN; | |
111 class PhaseIterGVN; | |
112 class PhaseRegAlloc; | |
113 class PhaseTransform; | |
114 class PhaseValues; | |
115 class PhiNode; | |
116 class Pipeline; | |
117 class ProjNode; | |
118 class RegMask; | |
119 class RegionNode; | |
120 class RootNode; | |
121 class SafePointNode; | |
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122 class SafePointScalarObjectNode; |
0 | 123 class StartNode; |
124 class State; | |
125 class StoreNode; | |
126 class SubNode; | |
127 class Type; | |
128 class TypeNode; | |
129 class UnlockNode; | |
130 class VectorSet; | |
131 class IfTrueNode; | |
132 class IfFalseNode; | |
133 typedef void (*NFunc)(Node&,void*); | |
134 extern "C" { | |
135 typedef int (*C_sort_func_t)(const void *, const void *); | |
136 } | |
137 | |
138 // The type of all node counts and indexes. | |
139 // It must hold at least 16 bits, but must also be fast to load and store. | |
140 // This type, if less than 32 bits, could limit the number of possible nodes. | |
141 // (To make this type platform-specific, move to globalDefinitions_xxx.hpp.) | |
142 typedef unsigned int node_idx_t; | |
143 | |
144 | |
145 #ifndef OPTO_DU_ITERATOR_ASSERT | |
146 #ifdef ASSERT | |
147 #define OPTO_DU_ITERATOR_ASSERT 1 | |
148 #else | |
149 #define OPTO_DU_ITERATOR_ASSERT 0 | |
150 #endif | |
151 #endif //OPTO_DU_ITERATOR_ASSERT | |
152 | |
153 #if OPTO_DU_ITERATOR_ASSERT | |
154 class DUIterator; | |
155 class DUIterator_Fast; | |
156 class DUIterator_Last; | |
157 #else | |
158 typedef uint DUIterator; | |
159 typedef Node** DUIterator_Fast; | |
160 typedef Node** DUIterator_Last; | |
161 #endif | |
162 | |
163 // Node Sentinel | |
164 #define NodeSentinel (Node*)-1 | |
165 | |
166 // Unknown count frequency | |
167 #define COUNT_UNKNOWN (-1.0f) | |
168 | |
169 //------------------------------Node------------------------------------------- | |
170 // Nodes define actions in the program. They create values, which have types. | |
171 // They are both vertices in a directed graph and program primitives. Nodes | |
172 // are labeled; the label is the "opcode", the primitive function in the lambda | |
173 // calculus sense that gives meaning to the Node. Node inputs are ordered (so | |
174 // that "a-b" is different from "b-a"). The inputs to a Node are the inputs to | |
175 // the Node's function. These inputs also define a Type equation for the Node. | |
176 // Solving these Type equations amounts to doing dataflow analysis. | |
177 // Control and data are uniformly represented in the graph. Finally, Nodes | |
178 // have a unique dense integer index which is used to index into side arrays | |
179 // whenever I have phase-specific information. | |
180 | |
181 class Node { | |
182 // Lots of restrictions on cloning Nodes | |
183 Node(const Node&); // not defined; linker error to use these | |
184 Node &operator=(const Node &rhs); | |
185 | |
186 public: | |
187 friend class Compile; | |
188 #if OPTO_DU_ITERATOR_ASSERT | |
189 friend class DUIterator_Common; | |
190 friend class DUIterator; | |
191 friend class DUIterator_Fast; | |
192 friend class DUIterator_Last; | |
193 #endif | |
194 | |
195 // Because Nodes come and go, I define an Arena of Node structures to pull | |
196 // from. This should allow fast access to node creation & deletion. This | |
197 // field is a local cache of a value defined in some "program fragment" for | |
198 // which these Nodes are just a part of. | |
199 | |
200 // New Operator that takes a Compile pointer, this will eventually | |
201 // be the "new" New operator. | |
202 inline void* operator new( size_t x, Compile* C) { | |
203 Node* n = (Node*)C->node_arena()->Amalloc_D(x); | |
204 #ifdef ASSERT | |
205 n->_in = (Node**)n; // magic cookie for assertion check | |
206 #endif | |
207 n->_out = (Node**)C; | |
208 return (void*)n; | |
209 } | |
210 | |
211 // New Operator that takes a Compile pointer, this will eventually | |
212 // be the "new" New operator. | |
213 inline void* operator new( size_t x, Compile* C, int y) { | |
214 Node* n = (Node*)C->node_arena()->Amalloc_D(x + y*sizeof(void*)); | |
215 n->_in = (Node**)(((char*)n) + x); | |
216 #ifdef ASSERT | |
217 n->_in[y-1] = n; // magic cookie for assertion check | |
218 #endif | |
219 n->_out = (Node**)C; | |
220 return (void*)n; | |
221 } | |
222 | |
223 // Delete is a NOP | |
224 void operator delete( void *ptr ) {} | |
225 // Fancy destructor; eagerly attempt to reclaim Node numberings and storage | |
226 void destruct(); | |
227 | |
228 // Create a new Node. Required is the number is of inputs required for | |
229 // semantic correctness. | |
230 Node( uint required ); | |
231 | |
232 // Create a new Node with given input edges. | |
233 // This version requires use of the "edge-count" new. | |
234 // E.g. new (C,3) FooNode( C, NULL, left, right ); | |
235 Node( Node *n0 ); | |
236 Node( Node *n0, Node *n1 ); | |
237 Node( Node *n0, Node *n1, Node *n2 ); | |
238 Node( Node *n0, Node *n1, Node *n2, Node *n3 ); | |
239 Node( Node *n0, Node *n1, Node *n2, Node *n3, Node *n4 ); | |
240 Node( Node *n0, Node *n1, Node *n2, Node *n3, Node *n4, Node *n5 ); | |
241 Node( Node *n0, Node *n1, Node *n2, Node *n3, | |
242 Node *n4, Node *n5, Node *n6 ); | |
243 | |
244 // Clone an inherited Node given only the base Node type. | |
245 Node* clone() const; | |
246 | |
247 // Clone a Node, immediately supplying one or two new edges. | |
248 // The first and second arguments, if non-null, replace in(1) and in(2), | |
249 // respectively. | |
250 Node* clone_with_data_edge(Node* in1, Node* in2 = NULL) const { | |
251 Node* nn = clone(); | |
252 if (in1 != NULL) nn->set_req(1, in1); | |
253 if (in2 != NULL) nn->set_req(2, in2); | |
254 return nn; | |
255 } | |
256 | |
257 private: | |
258 // Shared setup for the above constructors. | |
259 // Handles all interactions with Compile::current. | |
260 // Puts initial values in all Node fields except _idx. | |
261 // Returns the initial value for _idx, which cannot | |
262 // be initialized by assignment. | |
263 inline int Init(int req, Compile* C); | |
264 | |
265 //----------------- input edge handling | |
266 protected: | |
267 friend class PhaseCFG; // Access to address of _in array elements | |
268 Node **_in; // Array of use-def references to Nodes | |
269 Node **_out; // Array of def-use references to Nodes | |
270 | |
605 | 271 // Input edges are split into two categories. Required edges are required |
0 | 272 // for semantic correctness; order is important and NULLs are allowed. |
273 // Precedence edges are used to help determine execution order and are | |
274 // added, e.g., for scheduling purposes. They are unordered and not | |
275 // duplicated; they have no embedded NULLs. Edges from 0 to _cnt-1 | |
276 // are required, from _cnt to _max-1 are precedence edges. | |
277 node_idx_t _cnt; // Total number of required Node inputs. | |
278 | |
279 node_idx_t _max; // Actual length of input array. | |
280 | |
281 // Output edges are an unordered list of def-use edges which exactly | |
282 // correspond to required input edges which point from other nodes | |
283 // to this one. Thus the count of the output edges is the number of | |
284 // users of this node. | |
285 node_idx_t _outcnt; // Total number of Node outputs. | |
286 | |
287 node_idx_t _outmax; // Actual length of output array. | |
288 | |
289 // Grow the actual input array to the next larger power-of-2 bigger than len. | |
290 void grow( uint len ); | |
291 // Grow the output array to the next larger power-of-2 bigger than len. | |
292 void out_grow( uint len ); | |
293 | |
294 public: | |
295 // Each Node is assigned a unique small/dense number. This number is used | |
296 // to index into auxiliary arrays of data and bitvectors. | |
297 // It is declared const to defend against inadvertant assignment, | |
298 // since it is used by clients as a naked field. | |
299 const node_idx_t _idx; | |
300 | |
301 // Get the (read-only) number of input edges | |
302 uint req() const { return _cnt; } | |
303 uint len() const { return _max; } | |
304 // Get the (read-only) number of output edges | |
305 uint outcnt() const { return _outcnt; } | |
306 | |
307 #if OPTO_DU_ITERATOR_ASSERT | |
308 // Iterate over the out-edges of this node. Deletions are illegal. | |
309 inline DUIterator outs() const; | |
310 // Use this when the out array might have changed to suppress asserts. | |
311 inline DUIterator& refresh_out_pos(DUIterator& i) const; | |
312 // Does the node have an out at this position? (Used for iteration.) | |
313 inline bool has_out(DUIterator& i) const; | |
314 inline Node* out(DUIterator& i) const; | |
315 // Iterate over the out-edges of this node. All changes are illegal. | |
316 inline DUIterator_Fast fast_outs(DUIterator_Fast& max) const; | |
317 inline Node* fast_out(DUIterator_Fast& i) const; | |
318 // Iterate over the out-edges of this node, deleting one at a time. | |
319 inline DUIterator_Last last_outs(DUIterator_Last& min) const; | |
320 inline Node* last_out(DUIterator_Last& i) const; | |
321 // The inline bodies of all these methods are after the iterator definitions. | |
322 #else | |
323 // Iterate over the out-edges of this node. Deletions are illegal. | |
324 // This iteration uses integral indexes, to decouple from array reallocations. | |
325 DUIterator outs() const { return 0; } | |
326 // Use this when the out array might have changed to suppress asserts. | |
327 DUIterator refresh_out_pos(DUIterator i) const { return i; } | |
328 | |
329 // Reference to the i'th output Node. Error if out of bounds. | |
330 Node* out(DUIterator i) const { assert(i < _outcnt, "oob"); return _out[i]; } | |
331 // Does the node have an out at this position? (Used for iteration.) | |
332 bool has_out(DUIterator i) const { return i < _outcnt; } | |
333 | |
334 // Iterate over the out-edges of this node. All changes are illegal. | |
335 // This iteration uses a pointer internal to the out array. | |
336 DUIterator_Fast fast_outs(DUIterator_Fast& max) const { | |
337 Node** out = _out; | |
338 // Assign a limit pointer to the reference argument: | |
339 max = out + (ptrdiff_t)_outcnt; | |
340 // Return the base pointer: | |
341 return out; | |
342 } | |
343 Node* fast_out(DUIterator_Fast i) const { return *i; } | |
344 // Iterate over the out-edges of this node, deleting one at a time. | |
345 // This iteration uses a pointer internal to the out array. | |
346 DUIterator_Last last_outs(DUIterator_Last& min) const { | |
347 Node** out = _out; | |
348 // Assign a limit pointer to the reference argument: | |
349 min = out; | |
350 // Return the pointer to the start of the iteration: | |
351 return out + (ptrdiff_t)_outcnt - 1; | |
352 } | |
353 Node* last_out(DUIterator_Last i) const { return *i; } | |
354 #endif | |
355 | |
356 // Reference to the i'th input Node. Error if out of bounds. | |
357 Node* in(uint i) const { assert(i < _max,"oob"); return _in[i]; } | |
358 // Reference to the i'th output Node. Error if out of bounds. | |
359 // Use this accessor sparingly. We are going trying to use iterators instead. | |
360 Node* raw_out(uint i) const { assert(i < _outcnt,"oob"); return _out[i]; } | |
361 // Return the unique out edge. | |
362 Node* unique_out() const { assert(_outcnt==1,"not unique"); return _out[0]; } | |
363 // Delete out edge at position 'i' by moving last out edge to position 'i' | |
364 void raw_del_out(uint i) { | |
365 assert(i < _outcnt,"oob"); | |
366 assert(_outcnt > 0,"oob"); | |
367 #if OPTO_DU_ITERATOR_ASSERT | |
368 // Record that a change happened here. | |
369 debug_only(_last_del = _out[i]; ++_del_tick); | |
370 #endif | |
371 _out[i] = _out[--_outcnt]; | |
372 // Smash the old edge so it can't be used accidentally. | |
373 debug_only(_out[_outcnt] = (Node *)(uintptr_t)0xdeadbeef); | |
374 } | |
375 | |
376 #ifdef ASSERT | |
377 bool is_dead() const; | |
378 #define is_not_dead(n) ((n) == NULL || !VerifyIterativeGVN || !((n)->is_dead())) | |
379 #endif | |
380 | |
381 // Set a required input edge, also updates corresponding output edge | |
382 void add_req( Node *n ); // Append a NEW required input | |
383 void add_req_batch( Node* n, uint m ); // Append m NEW required inputs (all n). | |
384 void del_req( uint idx ); // Delete required edge & compact | |
385 void ins_req( uint i, Node *n ); // Insert a NEW required input | |
386 void set_req( uint i, Node *n ) { | |
387 assert( is_not_dead(n), "can not use dead node"); | |
388 assert( i < _cnt, "oob"); | |
389 assert( !VerifyHashTableKeys || _hash_lock == 0, | |
390 "remove node from hash table before modifying it"); | |
391 Node** p = &_in[i]; // cache this._in, across the del_out call | |
392 if (*p != NULL) (*p)->del_out((Node *)this); | |
393 (*p) = n; | |
394 if (n != NULL) n->add_out((Node *)this); | |
395 } | |
396 // Light version of set_req() to init inputs after node creation. | |
397 void init_req( uint i, Node *n ) { | |
398 assert( i == 0 && this == n || | |
399 is_not_dead(n), "can not use dead node"); | |
400 assert( i < _cnt, "oob"); | |
401 assert( !VerifyHashTableKeys || _hash_lock == 0, | |
402 "remove node from hash table before modifying it"); | |
403 assert( _in[i] == NULL, "sanity"); | |
404 _in[i] = n; | |
405 if (n != NULL) n->add_out((Node *)this); | |
406 } | |
407 // Find first occurrence of n among my edges: | |
408 int find_edge(Node* n); | |
409 int replace_edge(Node* old, Node* neww); | |
410 // NULL out all inputs to eliminate incoming Def-Use edges. | |
411 // Return the number of edges between 'n' and 'this' | |
412 int disconnect_inputs(Node *n); | |
413 | |
414 // Quickly, return true if and only if I am Compile::current()->top(). | |
415 bool is_top() const { | |
416 assert((this == (Node*) Compile::current()->top()) == (_out == NULL), ""); | |
417 return (_out == NULL); | |
418 } | |
419 // Reaffirm invariants for is_top. (Only from Compile::set_cached_top_node.) | |
420 void setup_is_top(); | |
421 | |
422 // Strip away casting. (It is depth-limited.) | |
423 Node* uncast() const; | |
424 | |
425 private: | |
426 static Node* uncast_helper(const Node* n); | |
427 | |
428 // Add an output edge to the end of the list | |
429 void add_out( Node *n ) { | |
430 if (is_top()) return; | |
431 if( _outcnt == _outmax ) out_grow(_outcnt); | |
432 _out[_outcnt++] = n; | |
433 } | |
434 // Delete an output edge | |
435 void del_out( Node *n ) { | |
436 if (is_top()) return; | |
437 Node** outp = &_out[_outcnt]; | |
438 // Find and remove n | |
439 do { | |
440 assert(outp > _out, "Missing Def-Use edge"); | |
441 } while (*--outp != n); | |
442 *outp = _out[--_outcnt]; | |
443 // Smash the old edge so it can't be used accidentally. | |
444 debug_only(_out[_outcnt] = (Node *)(uintptr_t)0xdeadbeef); | |
445 // Record that a change happened here. | |
446 #if OPTO_DU_ITERATOR_ASSERT | |
447 debug_only(_last_del = n; ++_del_tick); | |
448 #endif | |
449 } | |
450 | |
451 public: | |
452 // Globally replace this node by a given new node, updating all uses. | |
453 void replace_by(Node* new_node); | |
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454 // Globally replace this node by a given new node, updating all uses |
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455 // and cutting input edges of old node. |
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456 void subsume_by(Node* new_node) { |
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457 replace_by(new_node); |
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458 disconnect_inputs(NULL); |
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459 } |
0 | 460 void set_req_X( uint i, Node *n, PhaseIterGVN *igvn ); |
461 // Find the one non-null required input. RegionNode only | |
462 Node *nonnull_req() const; | |
463 // Add or remove precedence edges | |
464 void add_prec( Node *n ); | |
465 void rm_prec( uint i ); | |
466 void set_prec( uint i, Node *n ) { | |
467 assert( is_not_dead(n), "can not use dead node"); | |
468 assert( i >= _cnt, "not a precedence edge"); | |
469 if (_in[i] != NULL) _in[i]->del_out((Node *)this); | |
470 _in[i] = n; | |
471 if (n != NULL) n->add_out((Node *)this); | |
472 } | |
473 // Set this node's index, used by cisc_version to replace current node | |
474 void set_idx(uint new_idx) { | |
475 const node_idx_t* ref = &_idx; | |
476 *(node_idx_t*)ref = new_idx; | |
477 } | |
478 // Swap input edge order. (Edge indexes i1 and i2 are usually 1 and 2.) | |
479 void swap_edges(uint i1, uint i2) { | |
480 debug_only(uint check_hash = (VerifyHashTableKeys && _hash_lock) ? hash() : NO_HASH); | |
481 // Def-Use info is unchanged | |
482 Node* n1 = in(i1); | |
483 Node* n2 = in(i2); | |
484 _in[i1] = n2; | |
485 _in[i2] = n1; | |
486 // If this node is in the hash table, make sure it doesn't need a rehash. | |
487 assert(check_hash == NO_HASH || check_hash == hash(), "edge swap must preserve hash code"); | |
488 } | |
489 | |
490 // Iterators over input Nodes for a Node X are written as: | |
491 // for( i = 0; i < X.req(); i++ ) ... X[i] ... | |
492 // NOTE: Required edges can contain embedded NULL pointers. | |
493 | |
494 //----------------- Other Node Properties | |
495 | |
496 // Generate class id for some ideal nodes to avoid virtual query | |
497 // methods is_<Node>(). | |
498 // Class id is the set of bits corresponded to the node class and all its | |
499 // super classes so that queries for super classes are also valid. | |
500 // Subclasses of the same super class have different assigned bit | |
501 // (the third parameter in the macro DEFINE_CLASS_ID). | |
502 // Classes with deeper hierarchy are declared first. | |
503 // Classes with the same hierarchy depth are sorted by usage frequency. | |
504 // | |
505 // The query method masks the bits to cut off bits of subclasses | |
506 // and then compare the result with the class id | |
507 // (see the macro DEFINE_CLASS_QUERY below). | |
508 // | |
509 // Class_MachCall=30, ClassMask_MachCall=31 | |
510 // 12 8 4 0 | |
511 // 0 0 0 0 0 0 0 0 1 1 1 1 0 | |
512 // | | | | | |
513 // | | | Bit_Mach=2 | |
514 // | | Bit_MachReturn=4 | |
515 // | Bit_MachSafePoint=8 | |
516 // Bit_MachCall=16 | |
517 // | |
518 // Class_CountedLoop=56, ClassMask_CountedLoop=63 | |
519 // 12 8 4 0 | |
520 // 0 0 0 0 0 0 0 1 1 1 0 0 0 | |
521 // | | | | |
522 // | | Bit_Region=8 | |
523 // | Bit_Loop=16 | |
524 // Bit_CountedLoop=32 | |
525 | |
526 #define DEFINE_CLASS_ID(cl, supcl, subn) \ | |
527 Bit_##cl = (Class_##supcl == 0) ? 1 << subn : (Bit_##supcl) << (1 + subn) , \ | |
528 Class_##cl = Class_##supcl + Bit_##cl , \ | |
529 ClassMask_##cl = ((Bit_##cl << 1) - 1) , | |
530 | |
531 // This enum is used only for C2 ideal and mach nodes with is_<node>() methods | |
532 // so that it's values fits into 16 bits. | |
533 enum NodeClasses { | |
534 Bit_Node = 0x0000, | |
535 Class_Node = 0x0000, | |
536 ClassMask_Node = 0xFFFF, | |
537 | |
538 DEFINE_CLASS_ID(Multi, Node, 0) | |
539 DEFINE_CLASS_ID(SafePoint, Multi, 0) | |
540 DEFINE_CLASS_ID(Call, SafePoint, 0) | |
541 DEFINE_CLASS_ID(CallJava, Call, 0) | |
542 DEFINE_CLASS_ID(CallStaticJava, CallJava, 0) | |
543 DEFINE_CLASS_ID(CallDynamicJava, CallJava, 1) | |
544 DEFINE_CLASS_ID(CallRuntime, Call, 1) | |
545 DEFINE_CLASS_ID(CallLeaf, CallRuntime, 0) | |
546 DEFINE_CLASS_ID(Allocate, Call, 2) | |
547 DEFINE_CLASS_ID(AllocateArray, Allocate, 0) | |
548 DEFINE_CLASS_ID(AbstractLock, Call, 3) | |
549 DEFINE_CLASS_ID(Lock, AbstractLock, 0) | |
550 DEFINE_CLASS_ID(Unlock, AbstractLock, 1) | |
551 DEFINE_CLASS_ID(MultiBranch, Multi, 1) | |
552 DEFINE_CLASS_ID(PCTable, MultiBranch, 0) | |
553 DEFINE_CLASS_ID(Catch, PCTable, 0) | |
554 DEFINE_CLASS_ID(Jump, PCTable, 1) | |
555 DEFINE_CLASS_ID(If, MultiBranch, 1) | |
556 DEFINE_CLASS_ID(CountedLoopEnd, If, 0) | |
557 DEFINE_CLASS_ID(NeverBranch, MultiBranch, 2) | |
558 DEFINE_CLASS_ID(Start, Multi, 2) | |
559 DEFINE_CLASS_ID(MemBar, Multi, 3) | |
560 DEFINE_CLASS_ID(Initialize, MemBar, 0) | |
561 | |
562 DEFINE_CLASS_ID(Mach, Node, 1) | |
563 DEFINE_CLASS_ID(MachReturn, Mach, 0) | |
564 DEFINE_CLASS_ID(MachSafePoint, MachReturn, 0) | |
565 DEFINE_CLASS_ID(MachCall, MachSafePoint, 0) | |
566 DEFINE_CLASS_ID(MachCallJava, MachCall, 0) | |
567 DEFINE_CLASS_ID(MachCallStaticJava, MachCallJava, 0) | |
568 DEFINE_CLASS_ID(MachCallDynamicJava, MachCallJava, 1) | |
569 DEFINE_CLASS_ID(MachCallRuntime, MachCall, 1) | |
570 DEFINE_CLASS_ID(MachCallLeaf, MachCallRuntime, 0) | |
2008 | 571 DEFINE_CLASS_ID(MachSpillCopy, Mach, 1) |
572 DEFINE_CLASS_ID(MachNullCheck, Mach, 2) | |
573 DEFINE_CLASS_ID(MachIf, Mach, 3) | |
574 DEFINE_CLASS_ID(MachTemp, Mach, 4) | |
575 DEFINE_CLASS_ID(MachConstantBase, Mach, 5) | |
576 DEFINE_CLASS_ID(MachConstant, Mach, 6) | |
0 | 577 |
578 DEFINE_CLASS_ID(Proj, Node, 2) | |
579 DEFINE_CLASS_ID(CatchProj, Proj, 0) | |
580 DEFINE_CLASS_ID(JumpProj, Proj, 1) | |
581 DEFINE_CLASS_ID(IfTrue, Proj, 2) | |
582 DEFINE_CLASS_ID(IfFalse, Proj, 3) | |
33 | 583 DEFINE_CLASS_ID(Parm, Proj, 4) |
0 | 584 |
585 DEFINE_CLASS_ID(Region, Node, 3) | |
586 DEFINE_CLASS_ID(Loop, Region, 0) | |
587 DEFINE_CLASS_ID(Root, Loop, 0) | |
588 DEFINE_CLASS_ID(CountedLoop, Loop, 1) | |
589 | |
590 DEFINE_CLASS_ID(Sub, Node, 4) | |
591 DEFINE_CLASS_ID(Cmp, Sub, 0) | |
592 DEFINE_CLASS_ID(FastLock, Cmp, 0) | |
593 DEFINE_CLASS_ID(FastUnlock, Cmp, 1) | |
594 | |
595 DEFINE_CLASS_ID(Type, Node, 5) | |
596 DEFINE_CLASS_ID(Phi, Type, 0) | |
597 DEFINE_CLASS_ID(ConstraintCast, Type, 1) | |
598 DEFINE_CLASS_ID(CheckCastPP, Type, 2) | |
599 DEFINE_CLASS_ID(CMove, Type, 3) | |
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600 DEFINE_CLASS_ID(SafePointScalarObject, Type, 4) |
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601 DEFINE_CLASS_ID(DecodeN, Type, 5) |
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602 DEFINE_CLASS_ID(EncodeP, Type, 6) |
0 | 603 |
604 DEFINE_CLASS_ID(Mem, Node, 6) | |
605 DEFINE_CLASS_ID(Load, Mem, 0) | |
606 DEFINE_CLASS_ID(Store, Mem, 1) | |
607 DEFINE_CLASS_ID(LoadStore, Mem, 2) | |
608 | |
609 DEFINE_CLASS_ID(MergeMem, Node, 7) | |
610 DEFINE_CLASS_ID(Bool, Node, 8) | |
611 DEFINE_CLASS_ID(AddP, Node, 9) | |
612 DEFINE_CLASS_ID(BoxLock, Node, 10) | |
613 DEFINE_CLASS_ID(Add, Node, 11) | |
614 DEFINE_CLASS_ID(Mul, Node, 12) | |
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615 DEFINE_CLASS_ID(ClearArray, Node, 13) |
0 | 616 |
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617 _max_classes = ClassMask_ClearArray |
0 | 618 }; |
619 #undef DEFINE_CLASS_ID | |
620 | |
621 // Flags are sorted by usage frequency. | |
622 enum NodeFlags { | |
623 Flag_is_Copy = 0x01, // should be first bit to avoid shift | |
624 Flag_is_Call = Flag_is_Copy << 1, | |
625 Flag_rematerialize = Flag_is_Call << 1, | |
626 Flag_needs_anti_dependence_check = Flag_rematerialize << 1, | |
627 Flag_is_macro = Flag_needs_anti_dependence_check << 1, | |
628 Flag_is_Con = Flag_is_macro << 1, | |
629 Flag_is_cisc_alternate = Flag_is_Con << 1, | |
630 Flag_is_Branch = Flag_is_cisc_alternate << 1, | |
631 Flag_is_block_start = Flag_is_Branch << 1, | |
632 Flag_is_Goto = Flag_is_block_start << 1, | |
633 Flag_is_dead_loop_safe = Flag_is_Goto << 1, | |
634 Flag_may_be_short_branch = Flag_is_dead_loop_safe << 1, | |
635 Flag_is_safepoint_node = Flag_may_be_short_branch << 1, | |
636 Flag_is_pc_relative = Flag_is_safepoint_node << 1, | |
637 Flag_is_Vector = Flag_is_pc_relative << 1, | |
638 _max_flags = (Flag_is_Vector << 1) - 1 // allow flags combination | |
639 }; | |
640 | |
641 private: | |
642 jushort _class_id; | |
643 jushort _flags; | |
644 | |
645 protected: | |
646 // These methods should be called from constructors only. | |
647 void init_class_id(jushort c) { | |
648 assert(c <= _max_classes, "invalid node class"); | |
649 _class_id = c; // cast out const | |
650 } | |
651 void init_flags(jushort fl) { | |
652 assert(fl <= _max_flags, "invalid node flag"); | |
653 _flags |= fl; | |
654 } | |
655 void clear_flag(jushort fl) { | |
656 assert(fl <= _max_flags, "invalid node flag"); | |
657 _flags &= ~fl; | |
658 } | |
659 | |
660 public: | |
661 const jushort class_id() const { return _class_id; } | |
662 | |
663 const jushort flags() const { return _flags; } | |
664 | |
665 // Return a dense integer opcode number | |
666 virtual int Opcode() const; | |
667 | |
668 // Virtual inherited Node size | |
669 virtual uint size_of() const; | |
670 | |
671 // Other interesting Node properties | |
672 | |
673 // Special case: is_Call() returns true for both CallNode and MachCallNode. | |
674 bool is_Call() const { | |
675 return (_flags & Flag_is_Call) != 0; | |
676 } | |
677 | |
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678 CallNode* isa_Call() const { |
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679 return is_Call() ? as_Call() : NULL; |
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680 } |
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681 |
0 | 682 CallNode *as_Call() const { // Only for CallNode (not for MachCallNode) |
683 assert((_class_id & ClassMask_Call) == Class_Call, "invalid node class"); | |
684 return (CallNode*)this; | |
685 } | |
686 | |
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687 #define DEFINE_CLASS_QUERY(type) \ |
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688 bool is_##type() const { \ |
0 | 689 return ((_class_id & ClassMask_##type) == Class_##type); \ |
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690 } \ |
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691 type##Node *as_##type() const { \ |
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692 assert(is_##type(), "invalid node class"); \ |
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693 return (type##Node*)this; \ |
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694 } \ |
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695 type##Node* isa_##type() const { \ |
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696 return (is_##type()) ? as_##type() : NULL; \ |
0 | 697 } |
698 | |
699 DEFINE_CLASS_QUERY(AbstractLock) | |
700 DEFINE_CLASS_QUERY(Add) | |
701 DEFINE_CLASS_QUERY(AddP) | |
702 DEFINE_CLASS_QUERY(Allocate) | |
703 DEFINE_CLASS_QUERY(AllocateArray) | |
704 DEFINE_CLASS_QUERY(Bool) | |
705 DEFINE_CLASS_QUERY(BoxLock) | |
706 DEFINE_CLASS_QUERY(CallDynamicJava) | |
707 DEFINE_CLASS_QUERY(CallJava) | |
708 DEFINE_CLASS_QUERY(CallLeaf) | |
709 DEFINE_CLASS_QUERY(CallRuntime) | |
710 DEFINE_CLASS_QUERY(CallStaticJava) | |
711 DEFINE_CLASS_QUERY(Catch) | |
712 DEFINE_CLASS_QUERY(CatchProj) | |
713 DEFINE_CLASS_QUERY(CheckCastPP) | |
714 DEFINE_CLASS_QUERY(ConstraintCast) | |
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715 DEFINE_CLASS_QUERY(ClearArray) |
0 | 716 DEFINE_CLASS_QUERY(CMove) |
717 DEFINE_CLASS_QUERY(Cmp) | |
718 DEFINE_CLASS_QUERY(CountedLoop) | |
719 DEFINE_CLASS_QUERY(CountedLoopEnd) | |
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720 DEFINE_CLASS_QUERY(DecodeN) |
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721 DEFINE_CLASS_QUERY(EncodeP) |
0 | 722 DEFINE_CLASS_QUERY(FastLock) |
723 DEFINE_CLASS_QUERY(FastUnlock) | |
724 DEFINE_CLASS_QUERY(If) | |
725 DEFINE_CLASS_QUERY(IfFalse) | |
726 DEFINE_CLASS_QUERY(IfTrue) | |
727 DEFINE_CLASS_QUERY(Initialize) | |
728 DEFINE_CLASS_QUERY(Jump) | |
729 DEFINE_CLASS_QUERY(JumpProj) | |
730 DEFINE_CLASS_QUERY(Load) | |
731 DEFINE_CLASS_QUERY(LoadStore) | |
732 DEFINE_CLASS_QUERY(Lock) | |
733 DEFINE_CLASS_QUERY(Loop) | |
734 DEFINE_CLASS_QUERY(Mach) | |
735 DEFINE_CLASS_QUERY(MachCall) | |
736 DEFINE_CLASS_QUERY(MachCallDynamicJava) | |
737 DEFINE_CLASS_QUERY(MachCallJava) | |
738 DEFINE_CLASS_QUERY(MachCallLeaf) | |
739 DEFINE_CLASS_QUERY(MachCallRuntime) | |
740 DEFINE_CLASS_QUERY(MachCallStaticJava) | |
2008 | 741 DEFINE_CLASS_QUERY(MachConstantBase) |
742 DEFINE_CLASS_QUERY(MachConstant) | |
0 | 743 DEFINE_CLASS_QUERY(MachIf) |
744 DEFINE_CLASS_QUERY(MachNullCheck) | |
745 DEFINE_CLASS_QUERY(MachReturn) | |
746 DEFINE_CLASS_QUERY(MachSafePoint) | |
747 DEFINE_CLASS_QUERY(MachSpillCopy) | |
748 DEFINE_CLASS_QUERY(MachTemp) | |
749 DEFINE_CLASS_QUERY(Mem) | |
750 DEFINE_CLASS_QUERY(MemBar) | |
751 DEFINE_CLASS_QUERY(MergeMem) | |
752 DEFINE_CLASS_QUERY(Mul) | |
753 DEFINE_CLASS_QUERY(Multi) | |
754 DEFINE_CLASS_QUERY(MultiBranch) | |
33 | 755 DEFINE_CLASS_QUERY(Parm) |
0 | 756 DEFINE_CLASS_QUERY(PCTable) |
757 DEFINE_CLASS_QUERY(Phi) | |
758 DEFINE_CLASS_QUERY(Proj) | |
759 DEFINE_CLASS_QUERY(Region) | |
760 DEFINE_CLASS_QUERY(Root) | |
761 DEFINE_CLASS_QUERY(SafePoint) | |
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762 DEFINE_CLASS_QUERY(SafePointScalarObject) |
0 | 763 DEFINE_CLASS_QUERY(Start) |
764 DEFINE_CLASS_QUERY(Store) | |
765 DEFINE_CLASS_QUERY(Sub) | |
766 DEFINE_CLASS_QUERY(Type) | |
767 DEFINE_CLASS_QUERY(Unlock) | |
768 | |
769 #undef DEFINE_CLASS_QUERY | |
770 | |
771 // duplicate of is_MachSpillCopy() | |
772 bool is_SpillCopy () const { | |
773 return ((_class_id & ClassMask_MachSpillCopy) == Class_MachSpillCopy); | |
774 } | |
775 | |
776 bool is_Con () const { return (_flags & Flag_is_Con) != 0; } | |
777 bool is_Goto() const { return (_flags & Flag_is_Goto) != 0; } | |
778 // The data node which is safe to leave in dead loop during IGVN optimization. | |
779 bool is_dead_loop_safe() const { | |
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780 return is_Phi() || (is_Proj() && in(0) == NULL) || |
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781 ((_flags & (Flag_is_dead_loop_safe | Flag_is_Con)) != 0 && |
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782 (!is_Proj() || !in(0)->is_Allocate())); |
0 | 783 } |
784 | |
785 // is_Copy() returns copied edge index (0 or 1) | |
786 uint is_Copy() const { return (_flags & Flag_is_Copy); } | |
787 | |
788 virtual bool is_CFG() const { return false; } | |
789 | |
790 // If this node is control-dependent on a test, can it be | |
791 // rerouted to a dominating equivalent test? This is usually | |
792 // true of non-CFG nodes, but can be false for operations which | |
793 // depend for their correct sequencing on more than one test. | |
794 // (In that case, hoisting to a dominating test may silently | |
795 // skip some other important test.) | |
796 virtual bool depends_only_on_test() const { assert(!is_CFG(), ""); return true; }; | |
797 | |
798 // defined for MachNodes that match 'If' | 'Goto' | 'CountedLoopEnd' | |
799 bool is_Branch() const { return (_flags & Flag_is_Branch) != 0; } | |
800 | |
801 // When building basic blocks, I need to have a notion of block beginning | |
802 // Nodes, next block selector Nodes (block enders), and next block | |
803 // projections. These calls need to work on their machine equivalents. The | |
804 // Ideal beginning Nodes are RootNode, RegionNode and StartNode. | |
805 bool is_block_start() const { | |
806 if ( is_Region() ) | |
807 return this == (const Node*)in(0); | |
808 else | |
809 return (_flags & Flag_is_block_start) != 0; | |
810 } | |
811 | |
812 // The Ideal control projection Nodes are IfTrue/IfFalse, JumpProjNode, Root, | |
813 // Goto and Return. This call also returns the block ending Node. | |
814 virtual const Node *is_block_proj() const; | |
815 | |
816 // The node is a "macro" node which needs to be expanded before matching | |
817 bool is_macro() const { return (_flags & Flag_is_macro) != 0; } | |
818 | |
819 // Value is a vector of primitive values | |
820 bool is_Vector() const { return (_flags & Flag_is_Vector) != 0; } | |
821 | |
822 //----------------- Optimization | |
823 | |
824 // Get the worst-case Type output for this Node. | |
825 virtual const class Type *bottom_type() const; | |
826 | |
827 // If we find a better type for a node, try to record it permanently. | |
828 // Return true if this node actually changed. | |
829 // Be sure to do the hash_delete game in the "rehash" variant. | |
830 void raise_bottom_type(const Type* new_type); | |
831 | |
832 // Get the address type with which this node uses and/or defs memory, | |
833 // or NULL if none. The address type is conservatively wide. | |
834 // Returns non-null for calls, membars, loads, stores, etc. | |
835 // Returns TypePtr::BOTTOM if the node touches memory "broadly". | |
836 virtual const class TypePtr *adr_type() const { return NULL; } | |
837 | |
838 // Return an existing node which computes the same function as this node. | |
839 // The optimistic combined algorithm requires this to return a Node which | |
840 // is a small number of steps away (e.g., one of my inputs). | |
841 virtual Node *Identity( PhaseTransform *phase ); | |
842 | |
843 // Return the set of values this Node can take on at runtime. | |
844 virtual const Type *Value( PhaseTransform *phase ) const; | |
845 | |
846 // Return a node which is more "ideal" than the current node. | |
847 // The invariants on this call are subtle. If in doubt, read the | |
848 // treatise in node.cpp above the default implemention AND TEST WITH | |
849 // +VerifyIterativeGVN! | |
850 virtual Node *Ideal(PhaseGVN *phase, bool can_reshape); | |
851 | |
852 // Some nodes have specific Ideal subgraph transformations only if they are | |
853 // unique users of specific nodes. Such nodes should be put on IGVN worklist | |
854 // for the transformations to happen. | |
855 bool has_special_unique_user() const; | |
856 | |
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857 // Skip Proj and CatchProj nodes chains. Check for Null and Top. |
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858 Node* find_exact_control(Node* ctrl); |
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859 |
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860 // Check if 'this' node dominates or equal to 'sub'. |
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861 bool dominates(Node* sub, Node_List &nlist); |
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862 |
0 | 863 protected: |
864 bool remove_dead_region(PhaseGVN *phase, bool can_reshape); | |
865 public: | |
866 | |
867 // Idealize graph, using DU info. Done after constant propagation | |
868 virtual Node *Ideal_DU_postCCP( PhaseCCP *ccp ); | |
869 | |
870 // See if there is valid pipeline info | |
871 static const Pipeline *pipeline_class(); | |
872 virtual const Pipeline *pipeline() const; | |
873 | |
874 // Compute the latency from the def to this instruction of the ith input node | |
875 uint latency(uint i); | |
876 | |
877 // Hash & compare functions, for pessimistic value numbering | |
878 | |
879 // If the hash function returns the special sentinel value NO_HASH, | |
880 // the node is guaranteed never to compare equal to any other node. | |
605 | 881 // If we accidentally generate a hash with value NO_HASH the node |
0 | 882 // won't go into the table and we'll lose a little optimization. |
883 enum { NO_HASH = 0 }; | |
884 virtual uint hash() const; | |
885 virtual uint cmp( const Node &n ) const; | |
886 | |
887 // Operation appears to be iteratively computed (such as an induction variable) | |
888 // It is possible for this operation to return false for a loop-varying | |
889 // value, if it appears (by local graph inspection) to be computed by a simple conditional. | |
890 bool is_iteratively_computed(); | |
891 | |
892 // Determine if a node is Counted loop induction variable. | |
893 // The method is defined in loopnode.cpp. | |
894 const Node* is_loop_iv() const; | |
895 | |
896 // Return a node with opcode "opc" and same inputs as "this" if one can | |
897 // be found; Otherwise return NULL; | |
898 Node* find_similar(int opc); | |
899 | |
900 // Return the unique control out if only one. Null if none or more than one. | |
901 Node* unique_ctrl_out(); | |
902 | |
903 //----------------- Code Generation | |
904 | |
905 // Ideal register class for Matching. Zero means unmatched instruction | |
906 // (these are cloned instead of converted to machine nodes). | |
907 virtual uint ideal_reg() const; | |
908 | |
909 static const uint NotAMachineReg; // must be > max. machine register | |
910 | |
911 // Do we Match on this edge index or not? Generally false for Control | |
912 // and true for everything else. Weird for calls & returns. | |
913 virtual uint match_edge(uint idx) const; | |
914 | |
915 // Register class output is returned in | |
916 virtual const RegMask &out_RegMask() const; | |
917 // Register class input is expected in | |
918 virtual const RegMask &in_RegMask(uint) const; | |
919 // Should we clone rather than spill this instruction? | |
920 bool rematerialize() const; | |
921 | |
922 // Return JVM State Object if this Node carries debug info, or NULL otherwise | |
923 virtual JVMState* jvms() const; | |
924 | |
925 // Print as assembly | |
926 virtual void format( PhaseRegAlloc *, outputStream* st = tty ) const; | |
927 // Emit bytes starting at parameter 'ptr' | |
928 // Bump 'ptr' by the number of output bytes | |
929 virtual void emit(CodeBuffer &cbuf, PhaseRegAlloc *ra_) const; | |
930 // Size of instruction in bytes | |
931 virtual uint size(PhaseRegAlloc *ra_) const; | |
932 | |
933 // Convenience function to extract an integer constant from a node. | |
934 // If it is not an integer constant (either Con, CastII, or Mach), | |
935 // return value_if_unknown. | |
936 jint find_int_con(jint value_if_unknown) const { | |
937 const TypeInt* t = find_int_type(); | |
938 return (t != NULL && t->is_con()) ? t->get_con() : value_if_unknown; | |
939 } | |
940 // Return the constant, knowing it is an integer constant already | |
941 jint get_int() const { | |
942 const TypeInt* t = find_int_type(); | |
943 guarantee(t != NULL, "must be con"); | |
944 return t->get_con(); | |
945 } | |
946 // Here's where the work is done. Can produce non-constant int types too. | |
947 const TypeInt* find_int_type() const; | |
948 | |
949 // Same thing for long (and intptr_t, via type.hpp): | |
950 jlong get_long() const { | |
951 const TypeLong* t = find_long_type(); | |
952 guarantee(t != NULL, "must be con"); | |
953 return t->get_con(); | |
954 } | |
955 jlong find_long_con(jint value_if_unknown) const { | |
956 const TypeLong* t = find_long_type(); | |
957 return (t != NULL && t->is_con()) ? t->get_con() : value_if_unknown; | |
958 } | |
959 const TypeLong* find_long_type() const; | |
960 | |
961 // These guys are called by code generated by ADLC: | |
962 intptr_t get_ptr() const; | |
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963 intptr_t get_narrowcon() const; |
0 | 964 jdouble getd() const; |
965 jfloat getf() const; | |
966 | |
967 // Nodes which are pinned into basic blocks | |
968 virtual bool pinned() const { return false; } | |
969 | |
970 // Nodes which use memory without consuming it, hence need antidependences | |
971 // More specifically, needs_anti_dependence_check returns true iff the node | |
972 // (a) does a load, and (b) does not perform a store (except perhaps to a | |
973 // stack slot or some other unaliased location). | |
974 bool needs_anti_dependence_check() const; | |
975 | |
976 // Return which operand this instruction may cisc-spill. In other words, | |
977 // return operand position that can convert from reg to memory access | |
978 virtual int cisc_operand() const { return AdlcVMDeps::Not_cisc_spillable; } | |
979 bool is_cisc_alternate() const { return (_flags & Flag_is_cisc_alternate) != 0; } | |
980 | |
981 //----------------- Graph walking | |
982 public: | |
983 // Walk and apply member functions recursively. | |
984 // Supplied (this) pointer is root. | |
985 void walk(NFunc pre, NFunc post, void *env); | |
986 static void nop(Node &, void*); // Dummy empty function | |
987 static void packregion( Node &n, void* ); | |
988 private: | |
989 void walk_(NFunc pre, NFunc post, void *env, VectorSet &visited); | |
990 | |
991 //----------------- Printing, etc | |
992 public: | |
993 #ifndef PRODUCT | |
994 Node* find(int idx) const; // Search the graph for the given idx. | |
995 Node* find_ctrl(int idx) const; // Search control ancestors for the given idx. | |
996 void dump() const; // Print this node, | |
997 void dump(int depth) const; // Print this node, recursively to depth d | |
998 void dump_ctrl(int depth) const; // Print control nodes, to depth d | |
999 virtual void dump_req() const; // Print required-edge info | |
1000 virtual void dump_prec() const; // Print precedence-edge info | |
1001 virtual void dump_out() const; // Print the output edge info | |
1002 virtual void dump_spec(outputStream *st) const {}; // Print per-node info | |
1003 void verify_edges(Unique_Node_List &visited); // Verify bi-directional edges | |
1004 void verify() const; // Check Def-Use info for my subgraph | |
1005 static void verify_recur(const Node *n, int verify_depth, VectorSet &old_space, VectorSet &new_space); | |
1006 | |
1007 // This call defines a class-unique string used to identify class instances | |
1008 virtual const char *Name() const; | |
1009 | |
1010 void dump_format(PhaseRegAlloc *ra) const; // debug access to MachNode::format(...) | |
1011 // RegMask Print Functions | |
1012 void dump_in_regmask(int idx) { in_RegMask(idx).dump(); } | |
1013 void dump_out_regmask() { out_RegMask().dump(); } | |
1014 static int _in_dump_cnt; | |
1015 static bool in_dump() { return _in_dump_cnt > 0; } | |
1016 void fast_dump() const { | |
1017 tty->print("%4d: %-17s", _idx, Name()); | |
1018 for (uint i = 0; i < len(); i++) | |
1019 if (in(i)) | |
1020 tty->print(" %4d", in(i)->_idx); | |
1021 else | |
1022 tty->print(" NULL"); | |
1023 tty->print("\n"); | |
1024 } | |
1025 #endif | |
1026 #ifdef ASSERT | |
1027 void verify_construction(); | |
1028 bool verify_jvms(const JVMState* jvms) const; | |
1029 int _debug_idx; // Unique value assigned to every node. | |
1030 int debug_idx() const { return _debug_idx; } | |
1031 void set_debug_idx( int debug_idx ) { _debug_idx = debug_idx; } | |
1032 | |
1033 Node* _debug_orig; // Original version of this, if any. | |
1034 Node* debug_orig() const { return _debug_orig; } | |
1035 void set_debug_orig(Node* orig); // _debug_orig = orig | |
1036 | |
1037 int _hash_lock; // Barrier to modifications of nodes in the hash table | |
1038 void enter_hash_lock() { ++_hash_lock; assert(_hash_lock < 99, "in too many hash tables?"); } | |
1039 void exit_hash_lock() { --_hash_lock; assert(_hash_lock >= 0, "mispaired hash locks"); } | |
1040 | |
1041 static void init_NodeProperty(); | |
1042 | |
1043 #if OPTO_DU_ITERATOR_ASSERT | |
1044 const Node* _last_del; // The last deleted node. | |
1045 uint _del_tick; // Bumped when a deletion happens.. | |
1046 #endif | |
1047 #endif | |
1048 }; | |
1049 | |
1050 //----------------------------------------------------------------------------- | |
1051 // Iterators over DU info, and associated Node functions. | |
1052 | |
1053 #if OPTO_DU_ITERATOR_ASSERT | |
1054 | |
1055 // Common code for assertion checking on DU iterators. | |
1056 class DUIterator_Common VALUE_OBJ_CLASS_SPEC { | |
1057 #ifdef ASSERT | |
1058 protected: | |
1059 bool _vdui; // cached value of VerifyDUIterators | |
1060 const Node* _node; // the node containing the _out array | |
1061 uint _outcnt; // cached node->_outcnt | |
1062 uint _del_tick; // cached node->_del_tick | |
1063 Node* _last; // last value produced by the iterator | |
1064 | |
1065 void sample(const Node* node); // used by c'tor to set up for verifies | |
1066 void verify(const Node* node, bool at_end_ok = false); | |
1067 void verify_resync(); | |
1068 void reset(const DUIterator_Common& that); | |
1069 | |
1070 // The VDUI_ONLY macro protects code conditionalized on VerifyDUIterators | |
1071 #define I_VDUI_ONLY(i,x) { if ((i)._vdui) { x; } } | |
1072 #else | |
1073 #define I_VDUI_ONLY(i,x) { } | |
1074 #endif //ASSERT | |
1075 }; | |
1076 | |
1077 #define VDUI_ONLY(x) I_VDUI_ONLY(*this, x) | |
1078 | |
1079 // Default DU iterator. Allows appends onto the out array. | |
1080 // Allows deletion from the out array only at the current point. | |
1081 // Usage: | |
1082 // for (DUIterator i = x->outs(); x->has_out(i); i++) { | |
1083 // Node* y = x->out(i); | |
1084 // ... | |
1085 // } | |
1086 // Compiles in product mode to a unsigned integer index, which indexes | |
1087 // onto a repeatedly reloaded base pointer of x->_out. The loop predicate | |
1088 // also reloads x->_outcnt. If you delete, you must perform "--i" just | |
1089 // before continuing the loop. You must delete only the last-produced | |
1090 // edge. You must delete only a single copy of the last-produced edge, | |
1091 // or else you must delete all copies at once (the first time the edge | |
1092 // is produced by the iterator). | |
1093 class DUIterator : public DUIterator_Common { | |
1094 friend class Node; | |
1095 | |
1096 // This is the index which provides the product-mode behavior. | |
1097 // Whatever the product-mode version of the system does to the | |
1098 // DUI index is done to this index. All other fields in | |
1099 // this class are used only for assertion checking. | |
1100 uint _idx; | |
1101 | |
1102 #ifdef ASSERT | |
1103 uint _refresh_tick; // Records the refresh activity. | |
1104 | |
1105 void sample(const Node* node); // Initialize _refresh_tick etc. | |
1106 void verify(const Node* node, bool at_end_ok = false); | |
1107 void verify_increment(); // Verify an increment operation. | |
1108 void verify_resync(); // Verify that we can back up over a deletion. | |
1109 void verify_finish(); // Verify that the loop terminated properly. | |
1110 void refresh(); // Resample verification info. | |
1111 void reset(const DUIterator& that); // Resample after assignment. | |
1112 #endif | |
1113 | |
1114 DUIterator(const Node* node, int dummy_to_avoid_conversion) | |
1115 { _idx = 0; debug_only(sample(node)); } | |
1116 | |
1117 public: | |
1118 // initialize to garbage; clear _vdui to disable asserts | |
1119 DUIterator() | |
1120 { /*initialize to garbage*/ debug_only(_vdui = false); } | |
1121 | |
1122 void operator++(int dummy_to_specify_postfix_op) | |
1123 { _idx++; VDUI_ONLY(verify_increment()); } | |
1124 | |
1125 void operator--() | |
1126 { VDUI_ONLY(verify_resync()); --_idx; } | |
1127 | |
1128 ~DUIterator() | |
1129 { VDUI_ONLY(verify_finish()); } | |
1130 | |
1131 void operator=(const DUIterator& that) | |
1132 { _idx = that._idx; debug_only(reset(that)); } | |
1133 }; | |
1134 | |
1135 DUIterator Node::outs() const | |
1136 { return DUIterator(this, 0); } | |
1137 DUIterator& Node::refresh_out_pos(DUIterator& i) const | |
1138 { I_VDUI_ONLY(i, i.refresh()); return i; } | |
1139 bool Node::has_out(DUIterator& i) const | |
1140 { I_VDUI_ONLY(i, i.verify(this,true));return i._idx < _outcnt; } | |
1141 Node* Node::out(DUIterator& i) const | |
1142 { I_VDUI_ONLY(i, i.verify(this)); return debug_only(i._last=) _out[i._idx]; } | |
1143 | |
1144 | |
1145 // Faster DU iterator. Disallows insertions into the out array. | |
1146 // Allows deletion from the out array only at the current point. | |
1147 // Usage: | |
1148 // for (DUIterator_Fast imax, i = x->fast_outs(imax); i < imax; i++) { | |
1149 // Node* y = x->fast_out(i); | |
1150 // ... | |
1151 // } | |
1152 // Compiles in product mode to raw Node** pointer arithmetic, with | |
1153 // no reloading of pointers from the original node x. If you delete, | |
1154 // you must perform "--i; --imax" just before continuing the loop. | |
1155 // If you delete multiple copies of the same edge, you must decrement | |
1156 // imax, but not i, multiple times: "--i, imax -= num_edges". | |
1157 class DUIterator_Fast : public DUIterator_Common { | |
1158 friend class Node; | |
1159 friend class DUIterator_Last; | |
1160 | |
1161 // This is the pointer which provides the product-mode behavior. | |
1162 // Whatever the product-mode version of the system does to the | |
1163 // DUI pointer is done to this pointer. All other fields in | |
1164 // this class are used only for assertion checking. | |
1165 Node** _outp; | |
1166 | |
1167 #ifdef ASSERT | |
1168 void verify(const Node* node, bool at_end_ok = false); | |
1169 void verify_limit(); | |
1170 void verify_resync(); | |
1171 void verify_relimit(uint n); | |
1172 void reset(const DUIterator_Fast& that); | |
1173 #endif | |
1174 | |
1175 // Note: offset must be signed, since -1 is sometimes passed | |
1176 DUIterator_Fast(const Node* node, ptrdiff_t offset) | |
1177 { _outp = node->_out + offset; debug_only(sample(node)); } | |
1178 | |
1179 public: | |
1180 // initialize to garbage; clear _vdui to disable asserts | |
1181 DUIterator_Fast() | |
1182 { /*initialize to garbage*/ debug_only(_vdui = false); } | |
1183 | |
1184 void operator++(int dummy_to_specify_postfix_op) | |
1185 { _outp++; VDUI_ONLY(verify(_node, true)); } | |
1186 | |
1187 void operator--() | |
1188 { VDUI_ONLY(verify_resync()); --_outp; } | |
1189 | |
1190 void operator-=(uint n) // applied to the limit only | |
1191 { _outp -= n; VDUI_ONLY(verify_relimit(n)); } | |
1192 | |
1193 bool operator<(DUIterator_Fast& limit) { | |
1194 I_VDUI_ONLY(*this, this->verify(_node, true)); | |
1195 I_VDUI_ONLY(limit, limit.verify_limit()); | |
1196 return _outp < limit._outp; | |
1197 } | |
1198 | |
1199 void operator=(const DUIterator_Fast& that) | |
1200 { _outp = that._outp; debug_only(reset(that)); } | |
1201 }; | |
1202 | |
1203 DUIterator_Fast Node::fast_outs(DUIterator_Fast& imax) const { | |
1204 // Assign a limit pointer to the reference argument: | |
1205 imax = DUIterator_Fast(this, (ptrdiff_t)_outcnt); | |
1206 // Return the base pointer: | |
1207 return DUIterator_Fast(this, 0); | |
1208 } | |
1209 Node* Node::fast_out(DUIterator_Fast& i) const { | |
1210 I_VDUI_ONLY(i, i.verify(this)); | |
1211 return debug_only(i._last=) *i._outp; | |
1212 } | |
1213 | |
1214 | |
1215 // Faster DU iterator. Requires each successive edge to be removed. | |
1216 // Does not allow insertion of any edges. | |
1217 // Usage: | |
1218 // for (DUIterator_Last imin, i = x->last_outs(imin); i >= imin; i -= num_edges) { | |
1219 // Node* y = x->last_out(i); | |
1220 // ... | |
1221 // } | |
1222 // Compiles in product mode to raw Node** pointer arithmetic, with | |
1223 // no reloading of pointers from the original node x. | |
1224 class DUIterator_Last : private DUIterator_Fast { | |
1225 friend class Node; | |
1226 | |
1227 #ifdef ASSERT | |
1228 void verify(const Node* node, bool at_end_ok = false); | |
1229 void verify_limit(); | |
1230 void verify_step(uint num_edges); | |
1231 #endif | |
1232 | |
1233 // Note: offset must be signed, since -1 is sometimes passed | |
1234 DUIterator_Last(const Node* node, ptrdiff_t offset) | |
1235 : DUIterator_Fast(node, offset) { } | |
1236 | |
1237 void operator++(int dummy_to_specify_postfix_op) {} // do not use | |
1238 void operator<(int) {} // do not use | |
1239 | |
1240 public: | |
1241 DUIterator_Last() { } | |
1242 // initialize to garbage | |
1243 | |
1244 void operator--() | |
1245 { _outp--; VDUI_ONLY(verify_step(1)); } | |
1246 | |
1247 void operator-=(uint n) | |
1248 { _outp -= n; VDUI_ONLY(verify_step(n)); } | |
1249 | |
1250 bool operator>=(DUIterator_Last& limit) { | |
1251 I_VDUI_ONLY(*this, this->verify(_node, true)); | |
1252 I_VDUI_ONLY(limit, limit.verify_limit()); | |
1253 return _outp >= limit._outp; | |
1254 } | |
1255 | |
1256 void operator=(const DUIterator_Last& that) | |
1257 { DUIterator_Fast::operator=(that); } | |
1258 }; | |
1259 | |
1260 DUIterator_Last Node::last_outs(DUIterator_Last& imin) const { | |
1261 // Assign a limit pointer to the reference argument: | |
1262 imin = DUIterator_Last(this, 0); | |
1263 // Return the initial pointer: | |
1264 return DUIterator_Last(this, (ptrdiff_t)_outcnt - 1); | |
1265 } | |
1266 Node* Node::last_out(DUIterator_Last& i) const { | |
1267 I_VDUI_ONLY(i, i.verify(this)); | |
1268 return debug_only(i._last=) *i._outp; | |
1269 } | |
1270 | |
1271 #endif //OPTO_DU_ITERATOR_ASSERT | |
1272 | |
1273 #undef I_VDUI_ONLY | |
1274 #undef VDUI_ONLY | |
1275 | |
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1276 // An Iterator that truly follows the iterator pattern. Doesn't |
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1277 // support deletion but could be made to. |
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1278 // |
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1279 // for (SimpleDUIterator i(n); i.has_next(); i.next()) { |
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1280 // Node* m = i.get(); |
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1281 // |
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1282 class SimpleDUIterator : public StackObj { |
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1283 private: |
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1284 Node* node; |
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1285 DUIterator_Fast i; |
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1286 DUIterator_Fast imax; |
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1287 public: |
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1288 SimpleDUIterator(Node* n): node(n), i(n->fast_outs(imax)) {} |
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1289 bool has_next() { return i < imax; } |
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1290 void next() { i++; } |
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1291 Node* get() { return node->fast_out(i); } |
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1292 }; |
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1293 |
0 | 1294 |
1295 //----------------------------------------------------------------------------- | |
1296 // Map dense integer indices to Nodes. Uses classic doubling-array trick. | |
1297 // Abstractly provides an infinite array of Node*'s, initialized to NULL. | |
1298 // Note that the constructor just zeros things, and since I use Arena | |
1299 // allocation I do not need a destructor to reclaim storage. | |
1300 class Node_Array : public ResourceObj { | |
1301 protected: | |
1302 Arena *_a; // Arena to allocate in | |
1303 uint _max; | |
1304 Node **_nodes; | |
1305 void grow( uint i ); // Grow array node to fit | |
1306 public: | |
1307 Node_Array(Arena *a) : _a(a), _max(OptoNodeListSize) { | |
1308 _nodes = NEW_ARENA_ARRAY( a, Node *, OptoNodeListSize ); | |
1309 for( int i = 0; i < OptoNodeListSize; i++ ) { | |
1310 _nodes[i] = NULL; | |
1311 } | |
1312 } | |
1313 | |
1314 Node_Array(Node_Array *na) : _a(na->_a), _max(na->_max), _nodes(na->_nodes) {} | |
1315 Node *operator[] ( uint i ) const // Lookup, or NULL for not mapped | |
1316 { return (i<_max) ? _nodes[i] : (Node*)NULL; } | |
1317 Node *at( uint i ) const { assert(i<_max,"oob"); return _nodes[i]; } | |
1318 Node **adr() { return _nodes; } | |
1319 // Extend the mapping: index i maps to Node *n. | |
1320 void map( uint i, Node *n ) { if( i>=_max ) grow(i); _nodes[i] = n; } | |
1321 void insert( uint i, Node *n ); | |
1322 void remove( uint i ); // Remove, preserving order | |
1323 void sort( C_sort_func_t func); | |
1324 void reset( Arena *new_a ); // Zap mapping to empty; reclaim storage | |
1325 void clear(); // Set all entries to NULL, keep storage | |
1326 uint Size() const { return _max; } | |
1327 void dump() const; | |
1328 }; | |
1329 | |
1330 class Node_List : public Node_Array { | |
1331 uint _cnt; | |
1332 public: | |
1333 Node_List() : Node_Array(Thread::current()->resource_area()), _cnt(0) {} | |
1334 Node_List(Arena *a) : Node_Array(a), _cnt(0) {} | |
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1335 bool contains(Node* n) { |
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1336 for (uint e = 0; e < size(); e++) { |
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1337 if (at(e) == n) return true; |
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1338 } |
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1339 return false; |
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1340 } |
0 | 1341 void insert( uint i, Node *n ) { Node_Array::insert(i,n); _cnt++; } |
1342 void remove( uint i ) { Node_Array::remove(i); _cnt--; } | |
1343 void push( Node *b ) { map(_cnt++,b); } | |
1344 void yank( Node *n ); // Find and remove | |
1345 Node *pop() { return _nodes[--_cnt]; } | |
1346 Node *rpop() { Node *b = _nodes[0]; _nodes[0]=_nodes[--_cnt]; return b;} | |
1347 void clear() { _cnt = 0; Node_Array::clear(); } // retain storage | |
1348 uint size() const { return _cnt; } | |
1349 void dump() const; | |
1350 }; | |
1351 | |
1352 //------------------------------Unique_Node_List------------------------------- | |
1353 class Unique_Node_List : public Node_List { | |
1354 VectorSet _in_worklist; | |
1355 uint _clock_index; // Index in list where to pop from next | |
1356 public: | |
1357 Unique_Node_List() : Node_List(), _in_worklist(Thread::current()->resource_area()), _clock_index(0) {} | |
1358 Unique_Node_List(Arena *a) : Node_List(a), _in_worklist(a), _clock_index(0) {} | |
1359 | |
1360 void remove( Node *n ); | |
1361 bool member( Node *n ) { return _in_worklist.test(n->_idx) != 0; } | |
1362 VectorSet &member_set(){ return _in_worklist; } | |
1363 | |
1364 void push( Node *b ) { | |
1365 if( !_in_worklist.test_set(b->_idx) ) | |
1366 Node_List::push(b); | |
1367 } | |
1368 Node *pop() { | |
1369 if( _clock_index >= size() ) _clock_index = 0; | |
1370 Node *b = at(_clock_index); | |
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1371 map( _clock_index, Node_List::pop()); |
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1372 if (size() != 0) _clock_index++; // Always start from 0 |
0 | 1373 _in_worklist >>= b->_idx; |
1374 return b; | |
1375 } | |
1376 Node *remove( uint i ) { | |
1377 Node *b = Node_List::at(i); | |
1378 _in_worklist >>= b->_idx; | |
1379 map(i,Node_List::pop()); | |
1380 return b; | |
1381 } | |
1382 void yank( Node *n ) { _in_worklist >>= n->_idx; Node_List::yank(n); } | |
1383 void clear() { | |
1384 _in_worklist.Clear(); // Discards storage but grows automatically | |
1385 Node_List::clear(); | |
1386 _clock_index = 0; | |
1387 } | |
1388 | |
1389 // Used after parsing to remove useless nodes before Iterative GVN | |
1390 void remove_useless_nodes(VectorSet &useful); | |
1391 | |
1392 #ifndef PRODUCT | |
1393 void print_set() const { _in_worklist.print(); } | |
1394 #endif | |
1395 }; | |
1396 | |
1397 // Inline definition of Compile::record_for_igvn must be deferred to this point. | |
1398 inline void Compile::record_for_igvn(Node* n) { | |
1399 _for_igvn->push(n); | |
1400 } | |
1401 | |
1402 //------------------------------Node_Stack------------------------------------- | |
1403 class Node_Stack { | |
1404 protected: | |
1405 struct INode { | |
1406 Node *node; // Processed node | |
1407 uint indx; // Index of next node's child | |
1408 }; | |
1409 INode *_inode_top; // tos, stack grows up | |
1410 INode *_inode_max; // End of _inodes == _inodes + _max | |
1411 INode *_inodes; // Array storage for the stack | |
1412 Arena *_a; // Arena to allocate in | |
1413 void grow(); | |
1414 public: | |
1415 Node_Stack(int size) { | |
1416 size_t max = (size > OptoNodeListSize) ? size : OptoNodeListSize; | |
1417 _a = Thread::current()->resource_area(); | |
1418 _inodes = NEW_ARENA_ARRAY( _a, INode, max ); | |
1419 _inode_max = _inodes + max; | |
1420 _inode_top = _inodes - 1; // stack is empty | |
1421 } | |
1422 | |
1423 Node_Stack(Arena *a, int size) : _a(a) { | |
1424 size_t max = (size > OptoNodeListSize) ? size : OptoNodeListSize; | |
1425 _inodes = NEW_ARENA_ARRAY( _a, INode, max ); | |
1426 _inode_max = _inodes + max; | |
1427 _inode_top = _inodes - 1; // stack is empty | |
1428 } | |
1429 | |
1430 void pop() { | |
1431 assert(_inode_top >= _inodes, "node stack underflow"); | |
1432 --_inode_top; | |
1433 } | |
1434 void push(Node *n, uint i) { | |
1435 ++_inode_top; | |
1436 if (_inode_top >= _inode_max) grow(); | |
1437 INode *top = _inode_top; // optimization | |
1438 top->node = n; | |
1439 top->indx = i; | |
1440 } | |
1441 Node *node() const { | |
1442 return _inode_top->node; | |
1443 } | |
1444 Node* node_at(uint i) const { | |
1445 assert(_inodes + i <= _inode_top, "in range"); | |
1446 return _inodes[i].node; | |
1447 } | |
1448 uint index() const { | |
1449 return _inode_top->indx; | |
1450 } | |
247 | 1451 uint index_at(uint i) const { |
1452 assert(_inodes + i <= _inode_top, "in range"); | |
1453 return _inodes[i].indx; | |
1454 } | |
0 | 1455 void set_node(Node *n) { |
1456 _inode_top->node = n; | |
1457 } | |
1458 void set_index(uint i) { | |
1459 _inode_top->indx = i; | |
1460 } | |
1461 uint size_max() const { return (uint)pointer_delta(_inode_max, _inodes, sizeof(INode)); } // Max size | |
40 | 1462 uint size() const { return (uint)pointer_delta((_inode_top+1), _inodes, sizeof(INode)); } // Current size |
0 | 1463 bool is_nonempty() const { return (_inode_top >= _inodes); } |
1464 bool is_empty() const { return (_inode_top < _inodes); } | |
1465 void clear() { _inode_top = _inodes - 1; } // retain storage | |
1466 }; | |
1467 | |
1468 | |
1469 //-----------------------------Node_Notes-------------------------------------- | |
1470 // Debugging or profiling annotations loosely and sparsely associated | |
1471 // with some nodes. See Compile::node_notes_at for the accessor. | |
1472 class Node_Notes VALUE_OBJ_CLASS_SPEC { | |
1473 JVMState* _jvms; | |
1474 | |
1475 public: | |
1476 Node_Notes(JVMState* jvms = NULL) { | |
1477 _jvms = jvms; | |
1478 } | |
1479 | |
1480 JVMState* jvms() { return _jvms; } | |
1481 void set_jvms(JVMState* x) { _jvms = x; } | |
1482 | |
1483 // True if there is nothing here. | |
1484 bool is_clear() { | |
1485 return (_jvms == NULL); | |
1486 } | |
1487 | |
1488 // Make there be nothing here. | |
1489 void clear() { | |
1490 _jvms = NULL; | |
1491 } | |
1492 | |
1493 // Make a new, clean node notes. | |
1494 static Node_Notes* make(Compile* C) { | |
1495 Node_Notes* nn = NEW_ARENA_ARRAY(C->comp_arena(), Node_Notes, 1); | |
1496 nn->clear(); | |
1497 return nn; | |
1498 } | |
1499 | |
1500 Node_Notes* clone(Compile* C) { | |
1501 Node_Notes* nn = NEW_ARENA_ARRAY(C->comp_arena(), Node_Notes, 1); | |
1502 (*nn) = (*this); | |
1503 return nn; | |
1504 } | |
1505 | |
1506 // Absorb any information from source. | |
1507 bool update_from(Node_Notes* source) { | |
1508 bool changed = false; | |
1509 if (source != NULL) { | |
1510 if (source->jvms() != NULL) { | |
1511 set_jvms(source->jvms()); | |
1512 changed = true; | |
1513 } | |
1514 } | |
1515 return changed; | |
1516 } | |
1517 }; | |
1518 | |
1519 // Inlined accessors for Compile::node_nodes that require the preceding class: | |
1520 inline Node_Notes* | |
1521 Compile::locate_node_notes(GrowableArray<Node_Notes*>* arr, | |
1522 int idx, bool can_grow) { | |
1523 assert(idx >= 0, "oob"); | |
1524 int block_idx = (idx >> _log2_node_notes_block_size); | |
1525 int grow_by = (block_idx - (arr == NULL? 0: arr->length())); | |
1526 if (grow_by >= 0) { | |
1527 if (!can_grow) return NULL; | |
1528 grow_node_notes(arr, grow_by + 1); | |
1529 } | |
1530 // (Every element of arr is a sub-array of length _node_notes_block_size.) | |
1531 return arr->at(block_idx) + (idx & (_node_notes_block_size-1)); | |
1532 } | |
1533 | |
1534 inline bool | |
1535 Compile::set_node_notes_at(int idx, Node_Notes* value) { | |
1536 if (value == NULL || value->is_clear()) | |
1537 return false; // nothing to write => write nothing | |
1538 Node_Notes* loc = locate_node_notes(_node_note_array, idx, true); | |
1539 assert(loc != NULL, ""); | |
1540 return loc->update_from(value); | |
1541 } | |
1542 | |
1543 | |
1544 //------------------------------TypeNode--------------------------------------- | |
1545 // Node with a Type constant. | |
1546 class TypeNode : public Node { | |
1547 protected: | |
1548 virtual uint hash() const; // Check the type | |
1549 virtual uint cmp( const Node &n ) const; | |
1550 virtual uint size_of() const; // Size is bigger | |
1551 const Type* const _type; | |
1552 public: | |
1553 void set_type(const Type* t) { | |
1554 assert(t != NULL, "sanity"); | |
1555 debug_only(uint check_hash = (VerifyHashTableKeys && _hash_lock) ? hash() : NO_HASH); | |
1556 *(const Type**)&_type = t; // cast away const-ness | |
1557 // If this node is in the hash table, make sure it doesn't need a rehash. | |
1558 assert(check_hash == NO_HASH || check_hash == hash(), "type change must preserve hash code"); | |
1559 } | |
1560 const Type* type() const { assert(_type != NULL, "sanity"); return _type; }; | |
1561 TypeNode( const Type *t, uint required ) : Node(required), _type(t) { | |
1562 init_class_id(Class_Type); | |
1563 } | |
1564 virtual const Type *Value( PhaseTransform *phase ) const; | |
1565 virtual const Type *bottom_type() const; | |
1566 virtual uint ideal_reg() const; | |
1567 #ifndef PRODUCT | |
1568 virtual void dump_spec(outputStream *st) const; | |
1569 #endif | |
1570 }; | |
1972 | 1571 |
1572 #endif // SHARE_VM_OPTO_NODE_HPP |