Mercurial > hg > truffle
annotate src/share/vm/opto/connode.cpp @ 6800:9191895df19d
7200001: failed C1 OSR compile doesn't get recompiled with C2
Reviewed-by: kvn
author | twisti |
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date | Mon, 24 Sep 2012 17:59:24 -0700 |
parents | 7eca5de9e0b6 |
children | e626685e9f6c |
rev | line source |
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0 | 1 /* |
5901 | 2 * Copyright (c) 1997, 2012, Oracle and/or its affiliates. All rights reserved. |
0 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #include "precompiled.hpp" |
26 #include "memory/allocation.inline.hpp" | |
27 #include "opto/addnode.hpp" | |
28 #include "opto/compile.hpp" | |
29 #include "opto/connode.hpp" | |
30 #include "opto/machnode.hpp" | |
31 #include "opto/matcher.hpp" | |
32 #include "opto/memnode.hpp" | |
33 #include "opto/phaseX.hpp" | |
34 #include "opto/subnode.hpp" | |
35 #include "runtime/sharedRuntime.hpp" | |
0 | 36 |
1972 | 37 // Optimization - Graph Style |
0 | 38 |
39 //============================================================================= | |
40 //------------------------------hash------------------------------------------- | |
41 uint ConNode::hash() const { | |
42 return (uintptr_t)in(TypeFunc::Control) + _type->hash(); | |
43 } | |
44 | |
45 //------------------------------make------------------------------------------- | |
46 ConNode *ConNode::make( Compile* C, const Type *t ) { | |
47 switch( t->basic_type() ) { | |
48 case T_INT: return new (C, 1) ConINode( t->is_int() ); | |
49 case T_LONG: return new (C, 1) ConLNode( t->is_long() ); | |
50 case T_FLOAT: return new (C, 1) ConFNode( t->is_float_constant() ); | |
51 case T_DOUBLE: return new (C, 1) ConDNode( t->is_double_constant() ); | |
52 case T_VOID: return new (C, 1) ConNode ( Type::TOP ); | |
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53 case T_OBJECT: return new (C, 1) ConPNode( t->is_ptr() ); |
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54 case T_ARRAY: return new (C, 1) ConPNode( t->is_aryptr() ); |
0 | 55 case T_ADDRESS: return new (C, 1) ConPNode( t->is_ptr() ); |
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56 case T_NARROWOOP: return new (C, 1) ConNNode( t->is_narrowoop() ); |
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57 case T_METADATA: return new (C, 1) ConPNode( t->is_ptr() ); |
0 | 58 // Expected cases: TypePtr::NULL_PTR, any is_rawptr() |
59 // Also seen: AnyPtr(TopPTR *+top); from command line: | |
60 // r -XX:+PrintOpto -XX:CIStart=285 -XX:+CompileTheWorld -XX:CompileTheWorldStartAt=660 | |
61 // %%%% Stop using TypePtr::NULL_PTR to represent nulls: use either TypeRawPtr::NULL_PTR | |
62 // or else TypeOopPtr::NULL_PTR. Then set Type::_basic_type[AnyPtr] = T_ILLEGAL | |
63 } | |
64 ShouldNotReachHere(); | |
65 return NULL; | |
66 } | |
67 | |
68 //============================================================================= | |
69 /* | |
70 The major change is for CMoveP and StrComp. They have related but slightly | |
71 different problems. They both take in TWO oops which are both null-checked | |
72 independently before the using Node. After CCP removes the CastPP's they need | |
73 to pick up the guarding test edge - in this case TWO control edges. I tried | |
74 various solutions, all have problems: | |
75 | |
76 (1) Do nothing. This leads to a bug where we hoist a Load from a CMoveP or a | |
77 StrComp above a guarding null check. I've seen both cases in normal -Xcomp | |
78 testing. | |
79 | |
80 (2) Plug the control edge from 1 of the 2 oops in. Apparent problem here is | |
81 to figure out which test post-dominates. The real problem is that it doesn't | |
82 matter which one you pick. After you pick up, the dominating-test elider in | |
83 IGVN can remove the test and allow you to hoist up to the dominating test on | |
605 | 84 the chosen oop bypassing the test on the not-chosen oop. Seen in testing. |
0 | 85 Oops. |
86 | |
87 (3) Leave the CastPP's in. This makes the graph more accurate in some sense; | |
88 we get to keep around the knowledge that an oop is not-null after some test. | |
89 Alas, the CastPP's interfere with GVN (some values are the regular oop, some | |
90 are the CastPP of the oop, all merge at Phi's which cannot collapse, etc). | |
91 This cost us 10% on SpecJVM, even when I removed some of the more trivial | |
92 cases in the optimizer. Removing more useless Phi's started allowing Loads to | |
93 illegally float above null checks. I gave up on this approach. | |
94 | |
95 (4) Add BOTH control edges to both tests. Alas, too much code knows that | |
96 control edges are in slot-zero ONLY. Many quick asserts fail; no way to do | |
97 this one. Note that I really want to allow the CMoveP to float and add both | |
98 control edges to the dependent Load op - meaning I can select early but I | |
99 cannot Load until I pass both tests. | |
100 | |
101 (5) Do not hoist CMoveP and StrComp. To this end I added the v-call | |
102 depends_only_on_test(). No obvious performance loss on Spec, but we are | |
103 clearly conservative on CMoveP (also so on StrComp but that's unlikely to | |
104 matter ever). | |
105 | |
106 */ | |
107 | |
108 | |
109 //------------------------------Ideal------------------------------------------ | |
110 // Return a node which is more "ideal" than the current node. | |
111 // Move constants to the right. | |
112 Node *CMoveNode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
113 if( in(0) && remove_dead_region(phase, can_reshape) ) return this; | |
305 | 114 // Don't bother trying to transform a dead node |
115 if( in(0) && in(0)->is_top() ) return NULL; | |
0 | 116 assert( !phase->eqv(in(Condition), this) && |
117 !phase->eqv(in(IfFalse), this) && | |
118 !phase->eqv(in(IfTrue), this), "dead loop in CMoveNode::Ideal" ); | |
119 if( phase->type(in(Condition)) == Type::TOP ) | |
120 return NULL; // return NULL when Condition is dead | |
121 | |
122 if( in(IfFalse)->is_Con() && !in(IfTrue)->is_Con() ) { | |
123 if( in(Condition)->is_Bool() ) { | |
124 BoolNode* b = in(Condition)->as_Bool(); | |
125 BoolNode* b2 = b->negate(phase); | |
126 return make( phase->C, in(Control), phase->transform(b2), in(IfTrue), in(IfFalse), _type ); | |
127 } | |
128 } | |
129 return NULL; | |
130 } | |
131 | |
132 //------------------------------is_cmove_id------------------------------------ | |
133 // Helper function to check for CMOVE identity. Shared with PhiNode::Identity | |
134 Node *CMoveNode::is_cmove_id( PhaseTransform *phase, Node *cmp, Node *t, Node *f, BoolNode *b ) { | |
135 // Check for Cmp'ing and CMove'ing same values | |
136 if( (phase->eqv(cmp->in(1),f) && | |
137 phase->eqv(cmp->in(2),t)) || | |
138 // Swapped Cmp is OK | |
139 (phase->eqv(cmp->in(2),f) && | |
140 phase->eqv(cmp->in(1),t)) ) { | |
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141 // Give up this identity check for floating points because it may choose incorrect |
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142 // value around 0.0 and -0.0 |
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143 if ( cmp->Opcode()==Op_CmpF || cmp->Opcode()==Op_CmpD ) |
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144 return NULL; |
0 | 145 // Check for "(t==f)?t:f;" and replace with "f" |
146 if( b->_test._test == BoolTest::eq ) | |
147 return f; | |
148 // Allow the inverted case as well | |
149 // Check for "(t!=f)?t:f;" and replace with "t" | |
150 if( b->_test._test == BoolTest::ne ) | |
151 return t; | |
152 } | |
153 return NULL; | |
154 } | |
155 | |
156 //------------------------------Identity--------------------------------------- | |
157 // Conditional-move is an identity if both inputs are the same, or the test | |
158 // true or false. | |
159 Node *CMoveNode::Identity( PhaseTransform *phase ) { | |
160 if( phase->eqv(in(IfFalse),in(IfTrue)) ) // C-moving identical inputs? | |
161 return in(IfFalse); // Then it doesn't matter | |
162 if( phase->type(in(Condition)) == TypeInt::ZERO ) | |
163 return in(IfFalse); // Always pick left(false) input | |
164 if( phase->type(in(Condition)) == TypeInt::ONE ) | |
165 return in(IfTrue); // Always pick right(true) input | |
166 | |
167 // Check for CMove'ing a constant after comparing against the constant. | |
168 // Happens all the time now, since if we compare equality vs a constant in | |
169 // the parser, we "know" the variable is constant on one path and we force | |
170 // it. Thus code like "if( x==0 ) {/*EMPTY*/}" ends up inserting a | |
171 // conditional move: "x = (x==0)?0:x;". Yucko. This fix is slightly more | |
172 // general in that we don't need constants. | |
173 if( in(Condition)->is_Bool() ) { | |
174 BoolNode *b = in(Condition)->as_Bool(); | |
175 Node *cmp = b->in(1); | |
176 if( cmp->is_Cmp() ) { | |
177 Node *id = is_cmove_id( phase, cmp, in(IfTrue), in(IfFalse), b ); | |
178 if( id ) return id; | |
179 } | |
180 } | |
181 | |
182 return this; | |
183 } | |
184 | |
185 //------------------------------Value------------------------------------------ | |
186 // Result is the meet of inputs | |
187 const Type *CMoveNode::Value( PhaseTransform *phase ) const { | |
188 if( phase->type(in(Condition)) == Type::TOP ) | |
189 return Type::TOP; | |
190 return phase->type(in(IfFalse))->meet(phase->type(in(IfTrue))); | |
191 } | |
192 | |
193 //------------------------------make------------------------------------------- | |
194 // Make a correctly-flavored CMove. Since _type is directly determined | |
195 // from the inputs we do not need to specify it here. | |
196 CMoveNode *CMoveNode::make( Compile *C, Node *c, Node *bol, Node *left, Node *right, const Type *t ) { | |
197 switch( t->basic_type() ) { | |
198 case T_INT: return new (C, 4) CMoveINode( bol, left, right, t->is_int() ); | |
199 case T_FLOAT: return new (C, 4) CMoveFNode( bol, left, right, t ); | |
200 case T_DOUBLE: return new (C, 4) CMoveDNode( bol, left, right, t ); | |
201 case T_LONG: return new (C, 4) CMoveLNode( bol, left, right, t->is_long() ); | |
202 case T_OBJECT: return new (C, 4) CMovePNode( c, bol, left, right, t->is_oopptr() ); | |
203 case T_ADDRESS: return new (C, 4) CMovePNode( c, bol, left, right, t->is_ptr() ); | |
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204 case T_NARROWOOP: return new (C, 4) CMoveNNode( c, bol, left, right, t ); |
0 | 205 default: |
206 ShouldNotReachHere(); | |
207 return NULL; | |
208 } | |
209 } | |
210 | |
211 //============================================================================= | |
212 //------------------------------Ideal------------------------------------------ | |
213 // Return a node which is more "ideal" than the current node. | |
214 // Check for conversions to boolean | |
215 Node *CMoveINode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
216 // Try generic ideal's first | |
217 Node *x = CMoveNode::Ideal(phase, can_reshape); | |
218 if( x ) return x; | |
219 | |
220 // If zero is on the left (false-case, no-move-case) it must mean another | |
221 // constant is on the right (otherwise the shared CMove::Ideal code would | |
222 // have moved the constant to the right). This situation is bad for Intel | |
223 // and a don't-care for Sparc. It's bad for Intel because the zero has to | |
224 // be manifested in a register with a XOR which kills flags, which are live | |
225 // on input to the CMoveI, leading to a situation which causes excessive | |
226 // spilling on Intel. For Sparc, if the zero in on the left the Sparc will | |
227 // zero a register via G0 and conditionally-move the other constant. If the | |
228 // zero is on the right, the Sparc will load the first constant with a | |
229 // 13-bit set-lo and conditionally move G0. See bug 4677505. | |
230 if( phase->type(in(IfFalse)) == TypeInt::ZERO && !(phase->type(in(IfTrue)) == TypeInt::ZERO) ) { | |
231 if( in(Condition)->is_Bool() ) { | |
232 BoolNode* b = in(Condition)->as_Bool(); | |
233 BoolNode* b2 = b->negate(phase); | |
234 return make( phase->C, in(Control), phase->transform(b2), in(IfTrue), in(IfFalse), _type ); | |
235 } | |
236 } | |
237 | |
238 // Now check for booleans | |
239 int flip = 0; | |
240 | |
241 // Check for picking from zero/one | |
242 if( phase->type(in(IfFalse)) == TypeInt::ZERO && phase->type(in(IfTrue)) == TypeInt::ONE ) { | |
243 flip = 1 - flip; | |
244 } else if( phase->type(in(IfFalse)) == TypeInt::ONE && phase->type(in(IfTrue)) == TypeInt::ZERO ) { | |
245 } else return NULL; | |
246 | |
247 // Check for eq/ne test | |
248 if( !in(1)->is_Bool() ) return NULL; | |
249 BoolNode *bol = in(1)->as_Bool(); | |
250 if( bol->_test._test == BoolTest::eq ) { | |
251 } else if( bol->_test._test == BoolTest::ne ) { | |
252 flip = 1-flip; | |
253 } else return NULL; | |
254 | |
255 // Check for vs 0 or 1 | |
256 if( !bol->in(1)->is_Cmp() ) return NULL; | |
257 const CmpNode *cmp = bol->in(1)->as_Cmp(); | |
258 if( phase->type(cmp->in(2)) == TypeInt::ZERO ) { | |
259 } else if( phase->type(cmp->in(2)) == TypeInt::ONE ) { | |
260 // Allow cmp-vs-1 if the other input is bounded by 0-1 | |
261 if( phase->type(cmp->in(1)) != TypeInt::BOOL ) | |
262 return NULL; | |
263 flip = 1 - flip; | |
264 } else return NULL; | |
265 | |
266 // Convert to a bool (flipped) | |
267 // Build int->bool conversion | |
268 #ifndef PRODUCT | |
269 if( PrintOpto ) tty->print_cr("CMOV to I2B"); | |
270 #endif | |
271 Node *n = new (phase->C, 2) Conv2BNode( cmp->in(1) ); | |
272 if( flip ) | |
273 n = new (phase->C, 3) XorINode( phase->transform(n), phase->intcon(1) ); | |
274 | |
275 return n; | |
276 } | |
277 | |
278 //============================================================================= | |
279 //------------------------------Ideal------------------------------------------ | |
280 // Return a node which is more "ideal" than the current node. | |
281 // Check for absolute value | |
282 Node *CMoveFNode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
283 // Try generic ideal's first | |
284 Node *x = CMoveNode::Ideal(phase, can_reshape); | |
285 if( x ) return x; | |
286 | |
287 int cmp_zero_idx = 0; // Index of compare input where to look for zero | |
288 int phi_x_idx = 0; // Index of phi input where to find naked x | |
289 | |
290 // Find the Bool | |
291 if( !in(1)->is_Bool() ) return NULL; | |
292 BoolNode *bol = in(1)->as_Bool(); | |
293 // Check bool sense | |
294 switch( bol->_test._test ) { | |
295 case BoolTest::lt: cmp_zero_idx = 1; phi_x_idx = IfTrue; break; | |
296 case BoolTest::le: cmp_zero_idx = 2; phi_x_idx = IfFalse; break; | |
297 case BoolTest::gt: cmp_zero_idx = 2; phi_x_idx = IfTrue; break; | |
298 case BoolTest::ge: cmp_zero_idx = 1; phi_x_idx = IfFalse; break; | |
299 default: return NULL; break; | |
300 } | |
301 | |
302 // Find zero input of CmpF; the other input is being abs'd | |
303 Node *cmpf = bol->in(1); | |
304 if( cmpf->Opcode() != Op_CmpF ) return NULL; | |
305 Node *X = NULL; | |
306 bool flip = false; | |
307 if( phase->type(cmpf->in(cmp_zero_idx)) == TypeF::ZERO ) { | |
308 X = cmpf->in(3 - cmp_zero_idx); | |
309 } else if (phase->type(cmpf->in(3 - cmp_zero_idx)) == TypeF::ZERO) { | |
310 // The test is inverted, we should invert the result... | |
311 X = cmpf->in(cmp_zero_idx); | |
312 flip = true; | |
313 } else { | |
314 return NULL; | |
315 } | |
316 | |
317 // If X is found on the appropriate phi input, find the subtract on the other | |
318 if( X != in(phi_x_idx) ) return NULL; | |
319 int phi_sub_idx = phi_x_idx == IfTrue ? IfFalse : IfTrue; | |
320 Node *sub = in(phi_sub_idx); | |
321 | |
322 // Allow only SubF(0,X) and fail out for all others; NegF is not OK | |
323 if( sub->Opcode() != Op_SubF || | |
324 sub->in(2) != X || | |
325 phase->type(sub->in(1)) != TypeF::ZERO ) return NULL; | |
326 | |
327 Node *abs = new (phase->C, 2) AbsFNode( X ); | |
328 if( flip ) | |
329 abs = new (phase->C, 3) SubFNode(sub->in(1), phase->transform(abs)); | |
330 | |
331 return abs; | |
332 } | |
333 | |
334 //============================================================================= | |
335 //------------------------------Ideal------------------------------------------ | |
336 // Return a node which is more "ideal" than the current node. | |
337 // Check for absolute value | |
338 Node *CMoveDNode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
339 // Try generic ideal's first | |
340 Node *x = CMoveNode::Ideal(phase, can_reshape); | |
341 if( x ) return x; | |
342 | |
343 int cmp_zero_idx = 0; // Index of compare input where to look for zero | |
344 int phi_x_idx = 0; // Index of phi input where to find naked x | |
345 | |
346 // Find the Bool | |
347 if( !in(1)->is_Bool() ) return NULL; | |
348 BoolNode *bol = in(1)->as_Bool(); | |
349 // Check bool sense | |
350 switch( bol->_test._test ) { | |
351 case BoolTest::lt: cmp_zero_idx = 1; phi_x_idx = IfTrue; break; | |
352 case BoolTest::le: cmp_zero_idx = 2; phi_x_idx = IfFalse; break; | |
353 case BoolTest::gt: cmp_zero_idx = 2; phi_x_idx = IfTrue; break; | |
354 case BoolTest::ge: cmp_zero_idx = 1; phi_x_idx = IfFalse; break; | |
355 default: return NULL; break; | |
356 } | |
357 | |
358 // Find zero input of CmpD; the other input is being abs'd | |
359 Node *cmpd = bol->in(1); | |
360 if( cmpd->Opcode() != Op_CmpD ) return NULL; | |
361 Node *X = NULL; | |
362 bool flip = false; | |
363 if( phase->type(cmpd->in(cmp_zero_idx)) == TypeD::ZERO ) { | |
364 X = cmpd->in(3 - cmp_zero_idx); | |
365 } else if (phase->type(cmpd->in(3 - cmp_zero_idx)) == TypeD::ZERO) { | |
366 // The test is inverted, we should invert the result... | |
367 X = cmpd->in(cmp_zero_idx); | |
368 flip = true; | |
369 } else { | |
370 return NULL; | |
371 } | |
372 | |
373 // If X is found on the appropriate phi input, find the subtract on the other | |
374 if( X != in(phi_x_idx) ) return NULL; | |
375 int phi_sub_idx = phi_x_idx == IfTrue ? IfFalse : IfTrue; | |
376 Node *sub = in(phi_sub_idx); | |
377 | |
378 // Allow only SubD(0,X) and fail out for all others; NegD is not OK | |
379 if( sub->Opcode() != Op_SubD || | |
380 sub->in(2) != X || | |
381 phase->type(sub->in(1)) != TypeD::ZERO ) return NULL; | |
382 | |
383 Node *abs = new (phase->C, 2) AbsDNode( X ); | |
384 if( flip ) | |
385 abs = new (phase->C, 3) SubDNode(sub->in(1), phase->transform(abs)); | |
386 | |
387 return abs; | |
388 } | |
389 | |
390 | |
391 //============================================================================= | |
392 // If input is already higher or equal to cast type, then this is an identity. | |
393 Node *ConstraintCastNode::Identity( PhaseTransform *phase ) { | |
394 return phase->type(in(1))->higher_equal(_type) ? in(1) : this; | |
395 } | |
396 | |
397 //------------------------------Value------------------------------------------ | |
398 // Take 'join' of input and cast-up type | |
399 const Type *ConstraintCastNode::Value( PhaseTransform *phase ) const { | |
400 if( in(0) && phase->type(in(0)) == Type::TOP ) return Type::TOP; | |
401 const Type* ft = phase->type(in(1))->filter(_type); | |
402 | |
403 #ifdef ASSERT | |
404 // Previous versions of this function had some special case logic, | |
405 // which is no longer necessary. Make sure of the required effects. | |
406 switch (Opcode()) { | |
407 case Op_CastII: | |
408 { | |
409 const Type* t1 = phase->type(in(1)); | |
410 if( t1 == Type::TOP ) assert(ft == Type::TOP, "special case #1"); | |
411 const Type* rt = t1->join(_type); | |
412 if (rt->empty()) assert(ft == Type::TOP, "special case #2"); | |
413 break; | |
414 } | |
415 case Op_CastPP: | |
416 if (phase->type(in(1)) == TypePtr::NULL_PTR && | |
417 _type->isa_ptr() && _type->is_ptr()->_ptr == TypePtr::NotNull) | |
418 assert(ft == Type::TOP, "special case #3"); | |
419 break; | |
420 } | |
421 #endif //ASSERT | |
422 | |
423 return ft; | |
424 } | |
425 | |
426 //------------------------------Ideal------------------------------------------ | |
427 // Return a node which is more "ideal" than the current node. Strip out | |
428 // control copies | |
429 Node *ConstraintCastNode::Ideal(PhaseGVN *phase, bool can_reshape){ | |
430 return (in(0) && remove_dead_region(phase, can_reshape)) ? this : NULL; | |
431 } | |
432 | |
433 //------------------------------Ideal_DU_postCCP------------------------------- | |
434 // Throw away cast after constant propagation | |
435 Node *ConstraintCastNode::Ideal_DU_postCCP( PhaseCCP *ccp ) { | |
436 const Type *t = ccp->type(in(1)); | |
437 ccp->hash_delete(this); | |
438 set_type(t); // Turn into ID function | |
439 ccp->hash_insert(this); | |
440 return this; | |
441 } | |
442 | |
443 | |
444 //============================================================================= | |
445 | |
446 //------------------------------Ideal_DU_postCCP------------------------------- | |
447 // If not converting int->oop, throw away cast after constant propagation | |
448 Node *CastPPNode::Ideal_DU_postCCP( PhaseCCP *ccp ) { | |
449 const Type *t = ccp->type(in(1)); | |
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450 if (!t->isa_oop_ptr() || (in(1)->is_DecodeN() && Matcher::gen_narrow_oop_implicit_null_checks())) { |
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451 return NULL; // do not transform raw pointers or narrow oops |
0 | 452 } |
453 return ConstraintCastNode::Ideal_DU_postCCP(ccp); | |
454 } | |
455 | |
456 | |
457 | |
458 //============================================================================= | |
459 //------------------------------Identity--------------------------------------- | |
460 // If input is already higher or equal to cast type, then this is an identity. | |
461 Node *CheckCastPPNode::Identity( PhaseTransform *phase ) { | |
462 // Toned down to rescue meeting at a Phi 3 different oops all implementing | |
463 // the same interface. CompileTheWorld starting at 502, kd12rc1.zip. | |
464 return (phase->type(in(1)) == phase->type(this)) ? in(1) : this; | |
465 } | |
466 | |
467 // Determine whether "n" is a node which can cause an alias of one of its inputs. Node types | |
468 // which can create aliases are: CheckCastPP, Phi, and any store (if there is also a load from | |
469 // the location.) | |
470 // Note: this checks for aliases created in this compilation, not ones which may | |
471 // be potentially created at call sites. | |
472 static bool can_cause_alias(Node *n, PhaseTransform *phase) { | |
473 bool possible_alias = false; | |
474 | |
475 if (n->is_Store()) { | |
476 possible_alias = !n->as_Store()->value_never_loaded(phase); | |
477 } else { | |
478 int opc = n->Opcode(); | |
479 possible_alias = n->is_Phi() || | |
480 opc == Op_CheckCastPP || | |
481 opc == Op_StorePConditional || | |
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482 opc == Op_CompareAndSwapP || |
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483 opc == Op_CompareAndSwapN || |
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484 opc == Op_GetAndSetP || |
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485 opc == Op_GetAndSetN; |
0 | 486 } |
487 return possible_alias; | |
488 } | |
489 | |
490 //------------------------------Value------------------------------------------ | |
491 // Take 'join' of input and cast-up type, unless working with an Interface | |
492 const Type *CheckCastPPNode::Value( PhaseTransform *phase ) const { | |
493 if( in(0) && phase->type(in(0)) == Type::TOP ) return Type::TOP; | |
494 | |
495 const Type *inn = phase->type(in(1)); | |
496 if( inn == Type::TOP ) return Type::TOP; // No information yet | |
497 | |
498 const TypePtr *in_type = inn->isa_ptr(); | |
499 const TypePtr *my_type = _type->isa_ptr(); | |
500 const Type *result = _type; | |
501 if( in_type != NULL && my_type != NULL ) { | |
502 TypePtr::PTR in_ptr = in_type->ptr(); | |
503 if( in_ptr == TypePtr::Null ) { | |
504 result = in_type; | |
505 } else if( in_ptr == TypePtr::Constant ) { | |
506 // Casting a constant oop to an interface? | |
507 // (i.e., a String to a Comparable?) | |
508 // Then return the interface. | |
509 const TypeOopPtr *jptr = my_type->isa_oopptr(); | |
510 assert( jptr, "" ); | |
511 result = (jptr->klass()->is_interface() || !in_type->higher_equal(_type)) | |
512 ? my_type->cast_to_ptr_type( TypePtr::NotNull ) | |
513 : in_type; | |
514 } else { | |
515 result = my_type->cast_to_ptr_type( my_type->join_ptr(in_ptr) ); | |
516 } | |
517 } | |
518 return result; | |
519 | |
520 // JOIN NOT DONE HERE BECAUSE OF INTERFACE ISSUES. | |
521 // FIX THIS (DO THE JOIN) WHEN UNION TYPES APPEAR! | |
522 | |
523 // | |
524 // Remove this code after overnight run indicates no performance | |
525 // loss from not performing JOIN at CheckCastPPNode | |
526 // | |
527 // const TypeInstPtr *in_oop = in->isa_instptr(); | |
528 // const TypeInstPtr *my_oop = _type->isa_instptr(); | |
529 // // If either input is an 'interface', return destination type | |
530 // assert (in_oop == NULL || in_oop->klass() != NULL, ""); | |
531 // assert (my_oop == NULL || my_oop->klass() != NULL, ""); | |
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532 // if( (in_oop && in_oop->klass()->is_interface()) |
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533 // ||(my_oop && my_oop->klass()->is_interface()) ) { |
0 | 534 // TypePtr::PTR in_ptr = in->isa_ptr() ? in->is_ptr()->_ptr : TypePtr::BotPTR; |
535 // // Preserve cast away nullness for interfaces | |
536 // if( in_ptr == TypePtr::NotNull && my_oop && my_oop->_ptr == TypePtr::BotPTR ) { | |
537 // return my_oop->cast_to_ptr_type(TypePtr::NotNull); | |
538 // } | |
539 // return _type; | |
540 // } | |
541 // | |
542 // // Neither the input nor the destination type is an interface, | |
543 // | |
544 // // history: JOIN used to cause weird corner case bugs | |
545 // // return (in == TypeOopPtr::NULL_PTR) ? in : _type; | |
546 // // JOIN picks up NotNull in common instance-of/check-cast idioms, both oops. | |
547 // // JOIN does not preserve NotNull in other cases, e.g. RawPtr vs InstPtr | |
548 // const Type *join = in->join(_type); | |
549 // // Check if join preserved NotNull'ness for pointers | |
550 // if( join->isa_ptr() && _type->isa_ptr() ) { | |
551 // TypePtr::PTR join_ptr = join->is_ptr()->_ptr; | |
552 // TypePtr::PTR type_ptr = _type->is_ptr()->_ptr; | |
553 // // If there isn't any NotNull'ness to preserve | |
554 // // OR if join preserved NotNull'ness then return it | |
555 // if( type_ptr == TypePtr::BotPTR || type_ptr == TypePtr::Null || | |
556 // join_ptr == TypePtr::NotNull || join_ptr == TypePtr::Constant ) { | |
557 // return join; | |
558 // } | |
559 // // ELSE return same old type as before | |
560 // return _type; | |
561 // } | |
562 // // Not joining two pointers | |
563 // return join; | |
564 } | |
565 | |
566 //------------------------------Ideal------------------------------------------ | |
567 // Return a node which is more "ideal" than the current node. Strip out | |
568 // control copies | |
569 Node *CheckCastPPNode::Ideal(PhaseGVN *phase, bool can_reshape){ | |
570 return (in(0) && remove_dead_region(phase, can_reshape)) ? this : NULL; | |
571 } | |
572 | |
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573 |
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574 Node* DecodeNNode::Identity(PhaseTransform* phase) { |
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575 const Type *t = phase->type( in(1) ); |
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576 if( t == Type::TOP ) return in(1); |
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577 |
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578 if (in(1)->is_EncodeP()) { |
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579 // (DecodeN (EncodeP p)) -> p |
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580 return in(1)->in(1); |
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581 } |
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582 return this; |
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583 } |
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584 |
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585 const Type *DecodeNNode::Value( PhaseTransform *phase ) const { |
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586 const Type *t = phase->type( in(1) ); |
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587 if (t == Type::TOP) return Type::TOP; |
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588 if (t == TypeNarrowOop::NULL_PTR) return TypePtr::NULL_PTR; |
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589 |
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590 assert(t->isa_narrowoop(), "only narrowoop here"); |
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591 return t->make_ptr(); |
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592 } |
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593 |
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594 Node* EncodePNode::Identity(PhaseTransform* phase) { |
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595 const Type *t = phase->type( in(1) ); |
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596 if( t == Type::TOP ) return in(1); |
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597 |
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598 if (in(1)->is_DecodeN()) { |
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599 // (EncodeP (DecodeN p)) -> p |
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600 return in(1)->in(1); |
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601 } |
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602 return this; |
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603 } |
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604 |
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605 const Type *EncodePNode::Value( PhaseTransform *phase ) const { |
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606 const Type *t = phase->type( in(1) ); |
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607 if (t == Type::TOP) return Type::TOP; |
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608 if (t == TypePtr::NULL_PTR) return TypeNarrowOop::NULL_PTR; |
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609 |
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610 assert(t->isa_oop_ptr() || UseCompressedKlassPointers && t->isa_klassptr(), "only oopptr here"); |
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611 return t->make_narrowoop(); |
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612 } |
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613 |
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614 |
163 | 615 Node *EncodePNode::Ideal_DU_postCCP( PhaseCCP *ccp ) { |
616 return MemNode::Ideal_common_DU_postCCP(ccp, this, in(1)); | |
617 } | |
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618 |
0 | 619 //============================================================================= |
620 //------------------------------Identity--------------------------------------- | |
621 Node *Conv2BNode::Identity( PhaseTransform *phase ) { | |
622 const Type *t = phase->type( in(1) ); | |
623 if( t == Type::TOP ) return in(1); | |
624 if( t == TypeInt::ZERO ) return in(1); | |
625 if( t == TypeInt::ONE ) return in(1); | |
626 if( t == TypeInt::BOOL ) return in(1); | |
627 return this; | |
628 } | |
629 | |
630 //------------------------------Value------------------------------------------ | |
631 const Type *Conv2BNode::Value( PhaseTransform *phase ) const { | |
632 const Type *t = phase->type( in(1) ); | |
633 if( t == Type::TOP ) return Type::TOP; | |
634 if( t == TypeInt::ZERO ) return TypeInt::ZERO; | |
635 if( t == TypePtr::NULL_PTR ) return TypeInt::ZERO; | |
636 const TypePtr *tp = t->isa_ptr(); | |
637 if( tp != NULL ) { | |
638 if( tp->ptr() == TypePtr::AnyNull ) return Type::TOP; | |
639 if( tp->ptr() == TypePtr::Constant) return TypeInt::ONE; | |
640 if (tp->ptr() == TypePtr::NotNull) return TypeInt::ONE; | |
641 return TypeInt::BOOL; | |
642 } | |
643 if (t->base() != Type::Int) return TypeInt::BOOL; | |
644 const TypeInt *ti = t->is_int(); | |
645 if( ti->_hi < 0 || ti->_lo > 0 ) return TypeInt::ONE; | |
646 return TypeInt::BOOL; | |
647 } | |
648 | |
649 | |
650 // The conversions operations are all Alpha sorted. Please keep it that way! | |
651 //============================================================================= | |
652 //------------------------------Value------------------------------------------ | |
653 const Type *ConvD2FNode::Value( PhaseTransform *phase ) const { | |
654 const Type *t = phase->type( in(1) ); | |
655 if( t == Type::TOP ) return Type::TOP; | |
656 if( t == Type::DOUBLE ) return Type::FLOAT; | |
657 const TypeD *td = t->is_double_constant(); | |
658 return TypeF::make( (float)td->getd() ); | |
659 } | |
660 | |
661 //------------------------------Identity--------------------------------------- | |
662 // Float's can be converted to doubles with no loss of bits. Hence | |
663 // converting a float to a double and back to a float is a NOP. | |
664 Node *ConvD2FNode::Identity(PhaseTransform *phase) { | |
665 return (in(1)->Opcode() == Op_ConvF2D) ? in(1)->in(1) : this; | |
666 } | |
667 | |
668 //============================================================================= | |
669 //------------------------------Value------------------------------------------ | |
670 const Type *ConvD2INode::Value( PhaseTransform *phase ) const { | |
671 const Type *t = phase->type( in(1) ); | |
672 if( t == Type::TOP ) return Type::TOP; | |
673 if( t == Type::DOUBLE ) return TypeInt::INT; | |
674 const TypeD *td = t->is_double_constant(); | |
675 return TypeInt::make( SharedRuntime::d2i( td->getd() ) ); | |
676 } | |
677 | |
678 //------------------------------Ideal------------------------------------------ | |
679 // If converting to an int type, skip any rounding nodes | |
680 Node *ConvD2INode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
681 if( in(1)->Opcode() == Op_RoundDouble ) | |
682 set_req(1,in(1)->in(1)); | |
683 return NULL; | |
684 } | |
685 | |
686 //------------------------------Identity--------------------------------------- | |
687 // Int's can be converted to doubles with no loss of bits. Hence | |
688 // converting an integer to a double and back to an integer is a NOP. | |
689 Node *ConvD2INode::Identity(PhaseTransform *phase) { | |
690 return (in(1)->Opcode() == Op_ConvI2D) ? in(1)->in(1) : this; | |
691 } | |
692 | |
693 //============================================================================= | |
694 //------------------------------Value------------------------------------------ | |
695 const Type *ConvD2LNode::Value( PhaseTransform *phase ) const { | |
696 const Type *t = phase->type( in(1) ); | |
697 if( t == Type::TOP ) return Type::TOP; | |
698 if( t == Type::DOUBLE ) return TypeLong::LONG; | |
699 const TypeD *td = t->is_double_constant(); | |
700 return TypeLong::make( SharedRuntime::d2l( td->getd() ) ); | |
701 } | |
702 | |
703 //------------------------------Identity--------------------------------------- | |
704 Node *ConvD2LNode::Identity(PhaseTransform *phase) { | |
705 // Remove ConvD2L->ConvL2D->ConvD2L sequences. | |
706 if( in(1) ->Opcode() == Op_ConvL2D && | |
707 in(1)->in(1)->Opcode() == Op_ConvD2L ) | |
708 return in(1)->in(1); | |
709 return this; | |
710 } | |
711 | |
712 //------------------------------Ideal------------------------------------------ | |
713 // If converting to an int type, skip any rounding nodes | |
714 Node *ConvD2LNode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
715 if( in(1)->Opcode() == Op_RoundDouble ) | |
716 set_req(1,in(1)->in(1)); | |
717 return NULL; | |
718 } | |
719 | |
720 //============================================================================= | |
721 //------------------------------Value------------------------------------------ | |
722 const Type *ConvF2DNode::Value( PhaseTransform *phase ) const { | |
723 const Type *t = phase->type( in(1) ); | |
724 if( t == Type::TOP ) return Type::TOP; | |
725 if( t == Type::FLOAT ) return Type::DOUBLE; | |
726 const TypeF *tf = t->is_float_constant(); | |
727 return TypeD::make( (double)tf->getf() ); | |
728 } | |
729 | |
730 //============================================================================= | |
731 //------------------------------Value------------------------------------------ | |
732 const Type *ConvF2INode::Value( PhaseTransform *phase ) const { | |
733 const Type *t = phase->type( in(1) ); | |
734 if( t == Type::TOP ) return Type::TOP; | |
735 if( t == Type::FLOAT ) return TypeInt::INT; | |
736 const TypeF *tf = t->is_float_constant(); | |
737 return TypeInt::make( SharedRuntime::f2i( tf->getf() ) ); | |
738 } | |
739 | |
740 //------------------------------Identity--------------------------------------- | |
741 Node *ConvF2INode::Identity(PhaseTransform *phase) { | |
742 // Remove ConvF2I->ConvI2F->ConvF2I sequences. | |
743 if( in(1) ->Opcode() == Op_ConvI2F && | |
744 in(1)->in(1)->Opcode() == Op_ConvF2I ) | |
745 return in(1)->in(1); | |
746 return this; | |
747 } | |
748 | |
749 //------------------------------Ideal------------------------------------------ | |
750 // If converting to an int type, skip any rounding nodes | |
751 Node *ConvF2INode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
752 if( in(1)->Opcode() == Op_RoundFloat ) | |
753 set_req(1,in(1)->in(1)); | |
754 return NULL; | |
755 } | |
756 | |
757 //============================================================================= | |
758 //------------------------------Value------------------------------------------ | |
759 const Type *ConvF2LNode::Value( PhaseTransform *phase ) const { | |
760 const Type *t = phase->type( in(1) ); | |
761 if( t == Type::TOP ) return Type::TOP; | |
762 if( t == Type::FLOAT ) return TypeLong::LONG; | |
763 const TypeF *tf = t->is_float_constant(); | |
764 return TypeLong::make( SharedRuntime::f2l( tf->getf() ) ); | |
765 } | |
766 | |
767 //------------------------------Identity--------------------------------------- | |
768 Node *ConvF2LNode::Identity(PhaseTransform *phase) { | |
769 // Remove ConvF2L->ConvL2F->ConvF2L sequences. | |
770 if( in(1) ->Opcode() == Op_ConvL2F && | |
771 in(1)->in(1)->Opcode() == Op_ConvF2L ) | |
772 return in(1)->in(1); | |
773 return this; | |
774 } | |
775 | |
776 //------------------------------Ideal------------------------------------------ | |
777 // If converting to an int type, skip any rounding nodes | |
778 Node *ConvF2LNode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
779 if( in(1)->Opcode() == Op_RoundFloat ) | |
780 set_req(1,in(1)->in(1)); | |
781 return NULL; | |
782 } | |
783 | |
784 //============================================================================= | |
785 //------------------------------Value------------------------------------------ | |
786 const Type *ConvI2DNode::Value( PhaseTransform *phase ) const { | |
787 const Type *t = phase->type( in(1) ); | |
788 if( t == Type::TOP ) return Type::TOP; | |
789 const TypeInt *ti = t->is_int(); | |
790 if( ti->is_con() ) return TypeD::make( (double)ti->get_con() ); | |
791 return bottom_type(); | |
792 } | |
793 | |
794 //============================================================================= | |
795 //------------------------------Value------------------------------------------ | |
796 const Type *ConvI2FNode::Value( PhaseTransform *phase ) const { | |
797 const Type *t = phase->type( in(1) ); | |
798 if( t == Type::TOP ) return Type::TOP; | |
799 const TypeInt *ti = t->is_int(); | |
800 if( ti->is_con() ) return TypeF::make( (float)ti->get_con() ); | |
801 return bottom_type(); | |
802 } | |
803 | |
804 //------------------------------Identity--------------------------------------- | |
805 Node *ConvI2FNode::Identity(PhaseTransform *phase) { | |
806 // Remove ConvI2F->ConvF2I->ConvI2F sequences. | |
807 if( in(1) ->Opcode() == Op_ConvF2I && | |
808 in(1)->in(1)->Opcode() == Op_ConvI2F ) | |
809 return in(1)->in(1); | |
810 return this; | |
811 } | |
812 | |
813 //============================================================================= | |
814 //------------------------------Value------------------------------------------ | |
815 const Type *ConvI2LNode::Value( PhaseTransform *phase ) const { | |
816 const Type *t = phase->type( in(1) ); | |
817 if( t == Type::TOP ) return Type::TOP; | |
818 const TypeInt *ti = t->is_int(); | |
819 const Type* tl = TypeLong::make(ti->_lo, ti->_hi, ti->_widen); | |
820 // Join my declared type against my incoming type. | |
821 tl = tl->filter(_type); | |
822 return tl; | |
823 } | |
824 | |
825 #ifdef _LP64 | |
826 static inline bool long_ranges_overlap(jlong lo1, jlong hi1, | |
827 jlong lo2, jlong hi2) { | |
828 // Two ranges overlap iff one range's low point falls in the other range. | |
829 return (lo2 <= lo1 && lo1 <= hi2) || (lo1 <= lo2 && lo2 <= hi1); | |
830 } | |
831 #endif | |
832 | |
833 //------------------------------Ideal------------------------------------------ | |
834 Node *ConvI2LNode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
835 const TypeLong* this_type = this->type()->is_long(); | |
836 Node* this_changed = NULL; | |
837 | |
838 // If _major_progress, then more loop optimizations follow. Do NOT | |
839 // remove this node's type assertion until no more loop ops can happen. | |
840 // The progress bit is set in the major loop optimizations THEN comes the | |
841 // call to IterGVN and any chance of hitting this code. Cf. Opaque1Node. | |
842 if (can_reshape && !phase->C->major_progress()) { | |
843 const TypeInt* in_type = phase->type(in(1))->isa_int(); | |
844 if (in_type != NULL && this_type != NULL && | |
845 (in_type->_lo != this_type->_lo || | |
846 in_type->_hi != this_type->_hi)) { | |
847 // Although this WORSENS the type, it increases GVN opportunities, | |
848 // because I2L nodes with the same input will common up, regardless | |
849 // of slightly differing type assertions. Such slight differences | |
850 // arise routinely as a result of loop unrolling, so this is a | |
851 // post-unrolling graph cleanup. Choose a type which depends only | |
852 // on my input. (Exception: Keep a range assertion of >=0 or <0.) | |
853 jlong lo1 = this_type->_lo; | |
854 jlong hi1 = this_type->_hi; | |
855 int w1 = this_type->_widen; | |
856 if (lo1 != (jint)lo1 || | |
857 hi1 != (jint)hi1 || | |
858 lo1 > hi1) { | |
859 // Overflow leads to wraparound, wraparound leads to range saturation. | |
860 lo1 = min_jint; hi1 = max_jint; | |
861 } else if (lo1 >= 0) { | |
862 // Keep a range assertion of >=0. | |
863 lo1 = 0; hi1 = max_jint; | |
864 } else if (hi1 < 0) { | |
865 // Keep a range assertion of <0. | |
866 lo1 = min_jint; hi1 = -1; | |
867 } else { | |
868 lo1 = min_jint; hi1 = max_jint; | |
869 } | |
870 const TypeLong* wtype = TypeLong::make(MAX2((jlong)in_type->_lo, lo1), | |
871 MIN2((jlong)in_type->_hi, hi1), | |
872 MAX2((int)in_type->_widen, w1)); | |
873 if (wtype != type()) { | |
874 set_type(wtype); | |
875 // Note: this_type still has old type value, for the logic below. | |
876 this_changed = this; | |
877 } | |
878 } | |
879 } | |
880 | |
881 #ifdef _LP64 | |
882 // Convert ConvI2L(AddI(x, y)) to AddL(ConvI2L(x), ConvI2L(y)) , | |
883 // but only if x and y have subranges that cannot cause 32-bit overflow, | |
884 // under the assumption that x+y is in my own subrange this->type(). | |
885 | |
886 // This assumption is based on a constraint (i.e., type assertion) | |
887 // established in Parse::array_addressing or perhaps elsewhere. | |
888 // This constraint has been adjoined to the "natural" type of | |
889 // the incoming argument in(0). We know (because of runtime | |
890 // checks) - that the result value I2L(x+y) is in the joined range. | |
891 // Hence we can restrict the incoming terms (x, y) to values such | |
892 // that their sum also lands in that range. | |
893 | |
894 // This optimization is useful only on 64-bit systems, where we hope | |
895 // the addition will end up subsumed in an addressing mode. | |
896 // It is necessary to do this when optimizing an unrolled array | |
897 // copy loop such as x[i++] = y[i++]. | |
898 | |
899 // On 32-bit systems, it's better to perform as much 32-bit math as | |
900 // possible before the I2L conversion, because 32-bit math is cheaper. | |
901 // There's no common reason to "leak" a constant offset through the I2L. | |
902 // Addressing arithmetic will not absorb it as part of a 64-bit AddL. | |
903 | |
904 Node* z = in(1); | |
905 int op = z->Opcode(); | |
906 if (op == Op_AddI || op == Op_SubI) { | |
907 Node* x = z->in(1); | |
908 Node* y = z->in(2); | |
909 assert (x != z && y != z, "dead loop in ConvI2LNode::Ideal"); | |
910 if (phase->type(x) == Type::TOP) return this_changed; | |
911 if (phase->type(y) == Type::TOP) return this_changed; | |
912 const TypeInt* tx = phase->type(x)->is_int(); | |
913 const TypeInt* ty = phase->type(y)->is_int(); | |
914 const TypeLong* tz = this_type; | |
915 jlong xlo = tx->_lo; | |
916 jlong xhi = tx->_hi; | |
917 jlong ylo = ty->_lo; | |
918 jlong yhi = ty->_hi; | |
919 jlong zlo = tz->_lo; | |
920 jlong zhi = tz->_hi; | |
921 jlong vbit = CONST64(1) << BitsPerInt; | |
922 int widen = MAX2(tx->_widen, ty->_widen); | |
923 if (op == Op_SubI) { | |
924 jlong ylo0 = ylo; | |
925 ylo = -yhi; | |
926 yhi = -ylo0; | |
927 } | |
928 // See if x+y can cause positive overflow into z+2**32 | |
929 if (long_ranges_overlap(xlo+ylo, xhi+yhi, zlo+vbit, zhi+vbit)) { | |
930 return this_changed; | |
931 } | |
932 // See if x+y can cause negative overflow into z-2**32 | |
933 if (long_ranges_overlap(xlo+ylo, xhi+yhi, zlo-vbit, zhi-vbit)) { | |
934 return this_changed; | |
935 } | |
936 // Now it's always safe to assume x+y does not overflow. | |
937 // This is true even if some pairs x,y might cause overflow, as long | |
938 // as that overflow value cannot fall into [zlo,zhi]. | |
939 | |
940 // Confident that the arithmetic is "as if infinite precision", | |
941 // we can now use z's range to put constraints on those of x and y. | |
942 // The "natural" range of x [xlo,xhi] can perhaps be narrowed to a | |
943 // more "restricted" range by intersecting [xlo,xhi] with the | |
944 // range obtained by subtracting y's range from the asserted range | |
945 // of the I2L conversion. Here's the interval arithmetic algebra: | |
946 // x == z-y == [zlo,zhi]-[ylo,yhi] == [zlo,zhi]+[-yhi,-ylo] | |
947 // => x in [zlo-yhi, zhi-ylo] | |
948 // => x in [zlo-yhi, zhi-ylo] INTERSECT [xlo,xhi] | |
949 // => x in [xlo MAX zlo-yhi, xhi MIN zhi-ylo] | |
950 jlong rxlo = MAX2(xlo, zlo - yhi); | |
951 jlong rxhi = MIN2(xhi, zhi - ylo); | |
952 // And similarly, x changing place with y: | |
953 jlong rylo = MAX2(ylo, zlo - xhi); | |
954 jlong ryhi = MIN2(yhi, zhi - xlo); | |
955 if (rxlo > rxhi || rylo > ryhi) { | |
956 return this_changed; // x or y is dying; don't mess w/ it | |
957 } | |
958 if (op == Op_SubI) { | |
959 jlong rylo0 = rylo; | |
960 rylo = -ryhi; | |
961 ryhi = -rylo0; | |
962 } | |
963 | |
964 Node* cx = phase->transform( new (phase->C, 2) ConvI2LNode(x, TypeLong::make(rxlo, rxhi, widen)) ); | |
965 Node* cy = phase->transform( new (phase->C, 2) ConvI2LNode(y, TypeLong::make(rylo, ryhi, widen)) ); | |
966 switch (op) { | |
967 case Op_AddI: return new (phase->C, 3) AddLNode(cx, cy); | |
968 case Op_SubI: return new (phase->C, 3) SubLNode(cx, cy); | |
969 default: ShouldNotReachHere(); | |
970 } | |
971 } | |
972 #endif //_LP64 | |
973 | |
974 return this_changed; | |
975 } | |
976 | |
977 //============================================================================= | |
978 //------------------------------Value------------------------------------------ | |
979 const Type *ConvL2DNode::Value( PhaseTransform *phase ) const { | |
980 const Type *t = phase->type( in(1) ); | |
981 if( t == Type::TOP ) return Type::TOP; | |
982 const TypeLong *tl = t->is_long(); | |
983 if( tl->is_con() ) return TypeD::make( (double)tl->get_con() ); | |
984 return bottom_type(); | |
985 } | |
986 | |
987 //============================================================================= | |
988 //------------------------------Value------------------------------------------ | |
989 const Type *ConvL2FNode::Value( PhaseTransform *phase ) const { | |
990 const Type *t = phase->type( in(1) ); | |
991 if( t == Type::TOP ) return Type::TOP; | |
992 const TypeLong *tl = t->is_long(); | |
993 if( tl->is_con() ) return TypeF::make( (float)tl->get_con() ); | |
994 return bottom_type(); | |
995 } | |
996 | |
997 //============================================================================= | |
998 //----------------------------Identity----------------------------------------- | |
999 Node *ConvL2INode::Identity( PhaseTransform *phase ) { | |
1000 // Convert L2I(I2L(x)) => x | |
1001 if (in(1)->Opcode() == Op_ConvI2L) return in(1)->in(1); | |
1002 return this; | |
1003 } | |
1004 | |
1005 //------------------------------Value------------------------------------------ | |
1006 const Type *ConvL2INode::Value( PhaseTransform *phase ) const { | |
1007 const Type *t = phase->type( in(1) ); | |
1008 if( t == Type::TOP ) return Type::TOP; | |
1009 const TypeLong *tl = t->is_long(); | |
1010 if (tl->is_con()) | |
1011 // Easy case. | |
1012 return TypeInt::make((jint)tl->get_con()); | |
1013 return bottom_type(); | |
1014 } | |
1015 | |
1016 //------------------------------Ideal------------------------------------------ | |
1017 // Return a node which is more "ideal" than the current node. | |
1018 // Blow off prior masking to int | |
1019 Node *ConvL2INode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
1020 Node *andl = in(1); | |
1021 uint andl_op = andl->Opcode(); | |
1022 if( andl_op == Op_AndL ) { | |
1023 // Blow off prior masking to int | |
1024 if( phase->type(andl->in(2)) == TypeLong::make( 0xFFFFFFFF ) ) { | |
1025 set_req(1,andl->in(1)); | |
1026 return this; | |
1027 } | |
1028 } | |
1029 | |
1030 // Swap with a prior add: convL2I(addL(x,y)) ==> addI(convL2I(x),convL2I(y)) | |
1031 // This replaces an 'AddL' with an 'AddI'. | |
1032 if( andl_op == Op_AddL ) { | |
1033 // Don't do this for nodes which have more than one user since | |
1034 // we'll end up computing the long add anyway. | |
1035 if (andl->outcnt() > 1) return NULL; | |
1036 | |
1037 Node* x = andl->in(1); | |
1038 Node* y = andl->in(2); | |
1039 assert( x != andl && y != andl, "dead loop in ConvL2INode::Ideal" ); | |
1040 if (phase->type(x) == Type::TOP) return NULL; | |
1041 if (phase->type(y) == Type::TOP) return NULL; | |
1042 Node *add1 = phase->transform(new (phase->C, 2) ConvL2INode(x)); | |
1043 Node *add2 = phase->transform(new (phase->C, 2) ConvL2INode(y)); | |
1044 return new (phase->C, 3) AddINode(add1,add2); | |
1045 } | |
1046 | |
36 | 1047 // Disable optimization: LoadL->ConvL2I ==> LoadI. |
1048 // It causes problems (sizes of Load and Store nodes do not match) | |
1049 // in objects initialization code and Escape Analysis. | |
0 | 1050 return NULL; |
1051 } | |
1052 | |
1053 //============================================================================= | |
1054 //------------------------------Value------------------------------------------ | |
1055 const Type *CastX2PNode::Value( PhaseTransform *phase ) const { | |
1056 const Type* t = phase->type(in(1)); | |
5901 | 1057 if (t == Type::TOP) return Type::TOP; |
0 | 1058 if (t->base() == Type_X && t->singleton()) { |
1059 uintptr_t bits = (uintptr_t) t->is_intptr_t()->get_con(); | |
1060 if (bits == 0) return TypePtr::NULL_PTR; | |
1061 return TypeRawPtr::make((address) bits); | |
1062 } | |
1063 return CastX2PNode::bottom_type(); | |
1064 } | |
1065 | |
1066 //------------------------------Idealize--------------------------------------- | |
1067 static inline bool fits_in_int(const Type* t, bool but_not_min_int = false) { | |
1068 if (t == Type::TOP) return false; | |
1069 const TypeX* tl = t->is_intptr_t(); | |
1070 jint lo = min_jint; | |
1071 jint hi = max_jint; | |
1072 if (but_not_min_int) ++lo; // caller wants to negate the value w/o overflow | |
1073 return (tl->_lo >= lo) && (tl->_hi <= hi); | |
1074 } | |
1075 | |
1076 static inline Node* addP_of_X2P(PhaseGVN *phase, | |
1077 Node* base, | |
1078 Node* dispX, | |
1079 bool negate = false) { | |
1080 if (negate) { | |
1081 dispX = new (phase->C, 3) SubXNode(phase->MakeConX(0), phase->transform(dispX)); | |
1082 } | |
1083 return new (phase->C, 4) AddPNode(phase->C->top(), | |
1084 phase->transform(new (phase->C, 2) CastX2PNode(base)), | |
1085 phase->transform(dispX)); | |
1086 } | |
1087 | |
1088 Node *CastX2PNode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
1089 // convert CastX2P(AddX(x, y)) to AddP(CastX2P(x), y) if y fits in an int | |
1090 int op = in(1)->Opcode(); | |
1091 Node* x; | |
1092 Node* y; | |
1093 switch (op) { | |
1094 case Op_SubX: | |
1095 x = in(1)->in(1); | |
995
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1096 // Avoid ideal transformations ping-pong between this and AddP for raw pointers. |
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1097 if (phase->find_intptr_t_con(x, -1) == 0) |
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1098 break; |
0 | 1099 y = in(1)->in(2); |
1100 if (fits_in_int(phase->type(y), true)) { | |
1101 return addP_of_X2P(phase, x, y, true); | |
1102 } | |
1103 break; | |
1104 case Op_AddX: | |
1105 x = in(1)->in(1); | |
1106 y = in(1)->in(2); | |
1107 if (fits_in_int(phase->type(y))) { | |
1108 return addP_of_X2P(phase, x, y); | |
1109 } | |
1110 if (fits_in_int(phase->type(x))) { | |
1111 return addP_of_X2P(phase, y, x); | |
1112 } | |
1113 break; | |
1114 } | |
1115 return NULL; | |
1116 } | |
1117 | |
1118 //------------------------------Identity--------------------------------------- | |
1119 Node *CastX2PNode::Identity( PhaseTransform *phase ) { | |
1120 if (in(1)->Opcode() == Op_CastP2X) return in(1)->in(1); | |
1121 return this; | |
1122 } | |
1123 | |
1124 //============================================================================= | |
1125 //------------------------------Value------------------------------------------ | |
1126 const Type *CastP2XNode::Value( PhaseTransform *phase ) const { | |
1127 const Type* t = phase->type(in(1)); | |
5901 | 1128 if (t == Type::TOP) return Type::TOP; |
0 | 1129 if (t->base() == Type::RawPtr && t->singleton()) { |
1130 uintptr_t bits = (uintptr_t) t->is_rawptr()->get_con(); | |
1131 return TypeX::make(bits); | |
1132 } | |
1133 return CastP2XNode::bottom_type(); | |
1134 } | |
1135 | |
1136 Node *CastP2XNode::Ideal(PhaseGVN *phase, bool can_reshape) { | |
1137 return (in(0) && remove_dead_region(phase, can_reshape)) ? this : NULL; | |
1138 } | |
1139 | |
1140 //------------------------------Identity--------------------------------------- | |
1141 Node *CastP2XNode::Identity( PhaseTransform *phase ) { | |
1142 if (in(1)->Opcode() == Op_CastX2P) return in(1)->in(1); | |
1143 return this; | |
1144 } | |
1145 | |
1146 | |
1147 //============================================================================= | |
1148 //------------------------------Identity--------------------------------------- | |
1149 // Remove redundant roundings | |
1150 Node *RoundFloatNode::Identity( PhaseTransform *phase ) { | |
1151 assert(Matcher::strict_fp_requires_explicit_rounding, "should only generate for Intel"); | |
1152 // Do not round constants | |
1153 if (phase->type(in(1))->base() == Type::FloatCon) return in(1); | |
1154 int op = in(1)->Opcode(); | |
1155 // Redundant rounding | |
1156 if( op == Op_RoundFloat ) return in(1); | |
1157 // Already rounded | |
1158 if( op == Op_Parm ) return in(1); | |
1159 if( op == Op_LoadF ) return in(1); | |
1160 return this; | |
1161 } | |
1162 | |
1163 //------------------------------Value------------------------------------------ | |
1164 const Type *RoundFloatNode::Value( PhaseTransform *phase ) const { | |
1165 return phase->type( in(1) ); | |
1166 } | |
1167 | |
1168 //============================================================================= | |
1169 //------------------------------Identity--------------------------------------- | |
1170 // Remove redundant roundings. Incoming arguments are already rounded. | |
1171 Node *RoundDoubleNode::Identity( PhaseTransform *phase ) { | |
1172 assert(Matcher::strict_fp_requires_explicit_rounding, "should only generate for Intel"); | |
1173 // Do not round constants | |
1174 if (phase->type(in(1))->base() == Type::DoubleCon) return in(1); | |
1175 int op = in(1)->Opcode(); | |
1176 // Redundant rounding | |
1177 if( op == Op_RoundDouble ) return in(1); | |
1178 // Already rounded | |
1179 if( op == Op_Parm ) return in(1); | |
1180 if( op == Op_LoadD ) return in(1); | |
1181 if( op == Op_ConvF2D ) return in(1); | |
1182 if( op == Op_ConvI2D ) return in(1); | |
1183 return this; | |
1184 } | |
1185 | |
1186 //------------------------------Value------------------------------------------ | |
1187 const Type *RoundDoubleNode::Value( PhaseTransform *phase ) const { | |
1188 return phase->type( in(1) ); | |
1189 } | |
1190 | |
1191 | |
1192 //============================================================================= | |
1193 // Do not allow value-numbering | |
1194 uint Opaque1Node::hash() const { return NO_HASH; } | |
1195 uint Opaque1Node::cmp( const Node &n ) const { | |
1196 return (&n == this); // Always fail except on self | |
1197 } | |
1198 | |
1199 //------------------------------Identity--------------------------------------- | |
1200 // If _major_progress, then more loop optimizations follow. Do NOT remove | |
1201 // the opaque Node until no more loop ops can happen. Note the timing of | |
1202 // _major_progress; it's set in the major loop optimizations THEN comes the | |
1203 // call to IterGVN and any chance of hitting this code. Hence there's no | |
1204 // phase-ordering problem with stripping Opaque1 in IGVN followed by some | |
1205 // more loop optimizations that require it. | |
1206 Node *Opaque1Node::Identity( PhaseTransform *phase ) { | |
1207 return phase->C->major_progress() ? this : in(1); | |
1208 } | |
1209 | |
1210 //============================================================================= | |
1211 // A node to prevent unwanted optimizations. Allows constant folding. Stops | |
1212 // value-numbering, most Ideal calls or Identity functions. This Node is | |
1213 // specifically designed to prevent the pre-increment value of a loop trip | |
1214 // counter from being live out of the bottom of the loop (hence causing the | |
1215 // pre- and post-increment values both being live and thus requiring an extra | |
1216 // temp register and an extra move). If we "accidentally" optimize through | |
1217 // this kind of a Node, we'll get slightly pessimal, but correct, code. Thus | |
1218 // it's OK to be slightly sloppy on optimizations here. | |
1219 | |
1220 // Do not allow value-numbering | |
1221 uint Opaque2Node::hash() const { return NO_HASH; } | |
1222 uint Opaque2Node::cmp( const Node &n ) const { | |
1223 return (&n == this); // Always fail except on self | |
1224 } | |
1225 | |
1226 | |
1227 //------------------------------Value------------------------------------------ | |
1228 const Type *MoveL2DNode::Value( PhaseTransform *phase ) const { | |
1229 const Type *t = phase->type( in(1) ); | |
1230 if( t == Type::TOP ) return Type::TOP; | |
1231 const TypeLong *tl = t->is_long(); | |
1232 if( !tl->is_con() ) return bottom_type(); | |
1233 JavaValue v; | |
1234 v.set_jlong(tl->get_con()); | |
1235 return TypeD::make( v.get_jdouble() ); | |
1236 } | |
1237 | |
1238 //------------------------------Value------------------------------------------ | |
1239 const Type *MoveI2FNode::Value( PhaseTransform *phase ) const { | |
1240 const Type *t = phase->type( in(1) ); | |
1241 if( t == Type::TOP ) return Type::TOP; | |
1242 const TypeInt *ti = t->is_int(); | |
1243 if( !ti->is_con() ) return bottom_type(); | |
1244 JavaValue v; | |
1245 v.set_jint(ti->get_con()); | |
1246 return TypeF::make( v.get_jfloat() ); | |
1247 } | |
1248 | |
1249 //------------------------------Value------------------------------------------ | |
1250 const Type *MoveF2INode::Value( PhaseTransform *phase ) const { | |
1251 const Type *t = phase->type( in(1) ); | |
1252 if( t == Type::TOP ) return Type::TOP; | |
1253 if( t == Type::FLOAT ) return TypeInt::INT; | |
1254 const TypeF *tf = t->is_float_constant(); | |
1255 JavaValue v; | |
1256 v.set_jfloat(tf->getf()); | |
1257 return TypeInt::make( v.get_jint() ); | |
1258 } | |
1259 | |
1260 //------------------------------Value------------------------------------------ | |
1261 const Type *MoveD2LNode::Value( PhaseTransform *phase ) const { | |
1262 const Type *t = phase->type( in(1) ); | |
1263 if( t == Type::TOP ) return Type::TOP; | |
1264 if( t == Type::DOUBLE ) return TypeLong::LONG; | |
1265 const TypeD *td = t->is_double_constant(); | |
1266 JavaValue v; | |
1267 v.set_jdouble(td->getd()); | |
1268 return TypeLong::make( v.get_jlong() ); | |
1269 } | |
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1270 |
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1271 //------------------------------Value------------------------------------------ |
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1272 const Type* CountLeadingZerosINode::Value(PhaseTransform* phase) const { |
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1273 const Type* t = phase->type(in(1)); |
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1274 if (t == Type::TOP) return Type::TOP; |
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1275 const TypeInt* ti = t->isa_int(); |
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1276 if (ti && ti->is_con()) { |
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1277 jint i = ti->get_con(); |
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1278 // HD, Figure 5-6 |
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1279 if (i == 0) |
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1280 return TypeInt::make(BitsPerInt); |
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1281 int n = 1; |
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1282 unsigned int x = i; |
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1283 if (x >> 16 == 0) { n += 16; x <<= 16; } |
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1284 if (x >> 24 == 0) { n += 8; x <<= 8; } |
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1285 if (x >> 28 == 0) { n += 4; x <<= 4; } |
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1286 if (x >> 30 == 0) { n += 2; x <<= 2; } |
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1287 n -= x >> 31; |
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1288 return TypeInt::make(n); |
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1289 } |
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1290 return TypeInt::INT; |
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1291 } |
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1292 |
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1293 //------------------------------Value------------------------------------------ |
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1294 const Type* CountLeadingZerosLNode::Value(PhaseTransform* phase) const { |
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1295 const Type* t = phase->type(in(1)); |
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1296 if (t == Type::TOP) return Type::TOP; |
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1297 const TypeLong* tl = t->isa_long(); |
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1298 if (tl && tl->is_con()) { |
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1299 jlong l = tl->get_con(); |
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1300 // HD, Figure 5-6 |
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1301 if (l == 0) |
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1302 return TypeInt::make(BitsPerLong); |
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1303 int n = 1; |
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1304 unsigned int x = (((julong) l) >> 32); |
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1305 if (x == 0) { n += 32; x = (int) l; } |
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1306 if (x >> 16 == 0) { n += 16; x <<= 16; } |
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1307 if (x >> 24 == 0) { n += 8; x <<= 8; } |
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1308 if (x >> 28 == 0) { n += 4; x <<= 4; } |
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1309 if (x >> 30 == 0) { n += 2; x <<= 2; } |
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1310 n -= x >> 31; |
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1311 return TypeInt::make(n); |
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1312 } |
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1313 return TypeInt::INT; |
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1314 } |
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1315 |
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1316 //------------------------------Value------------------------------------------ |
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1317 const Type* CountTrailingZerosINode::Value(PhaseTransform* phase) const { |
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1318 const Type* t = phase->type(in(1)); |
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1319 if (t == Type::TOP) return Type::TOP; |
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1320 const TypeInt* ti = t->isa_int(); |
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1321 if (ti && ti->is_con()) { |
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1322 jint i = ti->get_con(); |
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1323 // HD, Figure 5-14 |
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1324 int y; |
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1325 if (i == 0) |
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1326 return TypeInt::make(BitsPerInt); |
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1327 int n = 31; |
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1328 y = i << 16; if (y != 0) { n = n - 16; i = y; } |
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1329 y = i << 8; if (y != 0) { n = n - 8; i = y; } |
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1330 y = i << 4; if (y != 0) { n = n - 4; i = y; } |
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1331 y = i << 2; if (y != 0) { n = n - 2; i = y; } |
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1332 y = i << 1; if (y != 0) { n = n - 1; } |
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1333 return TypeInt::make(n); |
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1334 } |
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1335 return TypeInt::INT; |
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1336 } |
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1337 |
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1338 //------------------------------Value------------------------------------------ |
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1339 const Type* CountTrailingZerosLNode::Value(PhaseTransform* phase) const { |
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1340 const Type* t = phase->type(in(1)); |
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1341 if (t == Type::TOP) return Type::TOP; |
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1342 const TypeLong* tl = t->isa_long(); |
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1343 if (tl && tl->is_con()) { |
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1344 jlong l = tl->get_con(); |
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1345 // HD, Figure 5-14 |
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1346 int x, y; |
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1347 if (l == 0) |
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1348 return TypeInt::make(BitsPerLong); |
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1349 int n = 63; |
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1350 y = (int) l; if (y != 0) { n = n - 32; x = y; } else x = (((julong) l) >> 32); |
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1351 y = x << 16; if (y != 0) { n = n - 16; x = y; } |
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1352 y = x << 8; if (y != 0) { n = n - 8; x = y; } |
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1353 y = x << 4; if (y != 0) { n = n - 4; x = y; } |
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1354 y = x << 2; if (y != 0) { n = n - 2; x = y; } |
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1355 y = x << 1; if (y != 0) { n = n - 1; } |
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1356 return TypeInt::make(n); |
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1357 } |
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1358 return TypeInt::INT; |
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1359 } |