Mercurial > hg > truffle
annotate src/cpu/ppc/vm/templateTable_ppc_64.cpp @ 21310:3bc3865789b1
Apply NarrowableArithmeticNode marker interface to the correct node classes.
author | Roland Schatz <roland.schatz@oracle.com> |
---|---|
date | Mon, 11 May 2015 17:41:46 +0200 |
parents | c5e86c5cd22e |
children |
rev | line source |
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17804 | 1 /* |
2 * Copyright (c) 2014, Oracle and/or its affiliates. All rights reserved. | |
3 * Copyright 2013, 2014 SAP AG. All rights reserved. | |
4 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. | |
5 * | |
6 * This code is free software; you can redistribute it and/or modify it | |
7 * under the terms of the GNU General Public License version 2 only, as | |
8 * published by the Free Software Foundation. | |
9 * | |
10 * This code is distributed in the hope that it will be useful, but WITHOUT | |
11 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
12 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
13 * version 2 for more details (a copy is included in the LICENSE file that | |
14 * accompanied this code). | |
15 * | |
16 * You should have received a copy of the GNU General Public License version | |
17 * 2 along with this work; if not, write to the Free Software Foundation, | |
18 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
19 * | |
20 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA | |
21 * or visit www.oracle.com if you need additional information or have any | |
22 * questions. | |
23 * | |
24 */ | |
25 | |
26 #include "precompiled.hpp" | |
27 #include "asm/macroAssembler.inline.hpp" | |
28 #include "interpreter/interpreter.hpp" | |
29 #include "interpreter/interpreterRuntime.hpp" | |
30 #include "interpreter/templateInterpreter.hpp" | |
31 #include "interpreter/templateTable.hpp" | |
32 #include "memory/universe.inline.hpp" | |
33 #include "oops/objArrayKlass.hpp" | |
34 #include "oops/oop.inline.hpp" | |
35 #include "prims/methodHandles.hpp" | |
36 #include "runtime/sharedRuntime.hpp" | |
37 #include "runtime/stubRoutines.hpp" | |
38 #include "runtime/synchronizer.hpp" | |
39 #include "utilities/macros.hpp" | |
40 | |
41 #ifndef CC_INTERP | |
42 | |
43 #undef __ | |
44 #define __ _masm-> | |
45 | |
46 // ============================================================================ | |
47 // Misc helpers | |
48 | |
49 // Do an oop store like *(base + index) = val OR *(base + offset) = val | |
50 // (only one of both variants is possible at the same time). | |
51 // Index can be noreg. | |
52 // Kills: | |
53 // Rbase, Rtmp | |
54 static void do_oop_store(InterpreterMacroAssembler* _masm, | |
55 Register Rbase, | |
56 RegisterOrConstant offset, | |
57 Register Rval, // Noreg means always null. | |
58 Register Rtmp1, | |
59 Register Rtmp2, | |
60 Register Rtmp3, | |
61 BarrierSet::Name barrier, | |
62 bool precise, | |
63 bool check_null) { | |
64 assert_different_registers(Rtmp1, Rtmp2, Rtmp3, Rval, Rbase); | |
65 | |
66 switch (barrier) { | |
17917 | 67 #if INCLUDE_ALL_GCS |
17804 | 68 case BarrierSet::G1SATBCT: |
69 case BarrierSet::G1SATBCTLogging: | |
70 { | |
71 // Load and record the previous value. | |
72 __ g1_write_barrier_pre(Rbase, offset, | |
73 Rtmp3, /* holder of pre_val ? */ | |
74 Rtmp1, Rtmp2, false /* frame */); | |
75 | |
76 Label Lnull, Ldone; | |
77 if (Rval != noreg) { | |
78 if (check_null) { | |
79 __ cmpdi(CCR0, Rval, 0); | |
80 __ beq(CCR0, Lnull); | |
81 } | |
82 __ store_heap_oop_not_null(Rval, offset, Rbase, /*Rval must stay uncompressed.*/ Rtmp1); | |
83 // Mark the card. | |
84 if (!(offset.is_constant() && offset.as_constant() == 0) && precise) { | |
85 __ add(Rbase, offset, Rbase); | |
86 } | |
87 __ g1_write_barrier_post(Rbase, Rval, Rtmp1, Rtmp2, Rtmp3, /*filtered (fast path)*/ &Ldone); | |
88 if (check_null) { __ b(Ldone); } | |
89 } | |
90 | |
91 if (Rval == noreg || check_null) { // Store null oop. | |
92 Register Rnull = Rval; | |
93 __ bind(Lnull); | |
94 if (Rval == noreg) { | |
95 Rnull = Rtmp1; | |
96 __ li(Rnull, 0); | |
97 } | |
98 if (UseCompressedOops) { | |
99 __ stw(Rnull, offset, Rbase); | |
100 } else { | |
101 __ std(Rnull, offset, Rbase); | |
102 } | |
103 } | |
104 __ bind(Ldone); | |
105 } | |
106 break; | |
17917 | 107 #endif // INCLUDE_ALL_GCS |
17804 | 108 case BarrierSet::CardTableModRef: |
109 case BarrierSet::CardTableExtension: | |
110 { | |
111 Label Lnull, Ldone; | |
112 if (Rval != noreg) { | |
113 if (check_null) { | |
114 __ cmpdi(CCR0, Rval, 0); | |
115 __ beq(CCR0, Lnull); | |
116 } | |
117 __ store_heap_oop_not_null(Rval, offset, Rbase, /*Rval should better stay uncompressed.*/ Rtmp1); | |
118 // Mark the card. | |
119 if (!(offset.is_constant() && offset.as_constant() == 0) && precise) { | |
120 __ add(Rbase, offset, Rbase); | |
121 } | |
122 __ card_write_barrier_post(Rbase, Rval, Rtmp1); | |
123 if (check_null) { | |
124 __ b(Ldone); | |
125 } | |
126 } | |
127 | |
128 if (Rval == noreg || check_null) { // Store null oop. | |
129 Register Rnull = Rval; | |
130 __ bind(Lnull); | |
131 if (Rval == noreg) { | |
132 Rnull = Rtmp1; | |
133 __ li(Rnull, 0); | |
134 } | |
135 if (UseCompressedOops) { | |
136 __ stw(Rnull, offset, Rbase); | |
137 } else { | |
138 __ std(Rnull, offset, Rbase); | |
139 } | |
140 } | |
141 __ bind(Ldone); | |
142 } | |
143 break; | |
144 case BarrierSet::ModRef: | |
145 case BarrierSet::Other: | |
146 ShouldNotReachHere(); | |
147 break; | |
148 default: | |
149 ShouldNotReachHere(); | |
150 } | |
151 } | |
152 | |
153 // ============================================================================ | |
154 // Platform-dependent initialization | |
155 | |
156 void TemplateTable::pd_initialize() { | |
157 // No ppc64 specific initialization. | |
158 } | |
159 | |
160 Address TemplateTable::at_bcp(int offset) { | |
161 // Not used on ppc. | |
162 ShouldNotReachHere(); | |
163 return Address(); | |
164 } | |
165 | |
166 // Patches the current bytecode (ptr to it located in bcp) | |
167 // in the bytecode stream with a new one. | |
168 void TemplateTable::patch_bytecode(Bytecodes::Code new_bc, Register Rnew_bc, Register Rtemp, bool load_bc_into_bc_reg /*=true*/, int byte_no) { | |
169 // With sharing on, may need to test method flag. | |
170 if (!RewriteBytecodes) return; | |
171 Label L_patch_done; | |
172 | |
173 switch (new_bc) { | |
174 case Bytecodes::_fast_aputfield: | |
175 case Bytecodes::_fast_bputfield: | |
176 case Bytecodes::_fast_cputfield: | |
177 case Bytecodes::_fast_dputfield: | |
178 case Bytecodes::_fast_fputfield: | |
179 case Bytecodes::_fast_iputfield: | |
180 case Bytecodes::_fast_lputfield: | |
181 case Bytecodes::_fast_sputfield: | |
182 { | |
183 // We skip bytecode quickening for putfield instructions when | |
184 // the put_code written to the constant pool cache is zero. | |
185 // This is required so that every execution of this instruction | |
186 // calls out to InterpreterRuntime::resolve_get_put to do | |
187 // additional, required work. | |
188 assert(byte_no == f1_byte || byte_no == f2_byte, "byte_no out of range"); | |
189 assert(load_bc_into_bc_reg, "we use bc_reg as temp"); | |
190 __ get_cache_and_index_at_bcp(Rtemp /* dst = cache */, 1); | |
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191 // ((*(cache+indices))>>((1+byte_no)*8))&0xFF: |
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192 #if defined(VM_LITTLE_ENDIAN) |
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193 __ lbz(Rnew_bc, in_bytes(ConstantPoolCache::base_offset() + ConstantPoolCacheEntry::indices_offset()) + 1 + byte_no, Rtemp); |
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194 #else |
17804 | 195 __ lbz(Rnew_bc, in_bytes(ConstantPoolCache::base_offset() + ConstantPoolCacheEntry::indices_offset()) + 7 - (1 + byte_no), Rtemp); |
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196 #endif |
17804 | 197 __ cmpwi(CCR0, Rnew_bc, 0); |
198 __ li(Rnew_bc, (unsigned int)(unsigned char)new_bc); | |
199 __ beq(CCR0, L_patch_done); | |
200 // __ isync(); // acquire not needed | |
201 break; | |
202 } | |
203 | |
204 default: | |
205 assert(byte_no == -1, "sanity"); | |
206 if (load_bc_into_bc_reg) { | |
207 __ li(Rnew_bc, (unsigned int)(unsigned char)new_bc); | |
208 } | |
209 } | |
210 | |
211 if (JvmtiExport::can_post_breakpoint()) { | |
212 Label L_fast_patch; | |
213 __ lbz(Rtemp, 0, R14_bcp); | |
214 __ cmpwi(CCR0, Rtemp, (unsigned int)(unsigned char)Bytecodes::_breakpoint); | |
215 __ bne(CCR0, L_fast_patch); | |
216 // Perform the quickening, slowly, in the bowels of the breakpoint table. | |
217 __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::set_original_bytecode_at), R19_method, R14_bcp, Rnew_bc); | |
218 __ b(L_patch_done); | |
219 __ bind(L_fast_patch); | |
220 } | |
221 | |
222 // Patch bytecode. | |
223 __ stb(Rnew_bc, 0, R14_bcp); | |
224 | |
225 __ bind(L_patch_done); | |
226 } | |
227 | |
228 // ============================================================================ | |
229 // Individual instructions | |
230 | |
231 void TemplateTable::nop() { | |
232 transition(vtos, vtos); | |
233 // Nothing to do. | |
234 } | |
235 | |
236 void TemplateTable::shouldnotreachhere() { | |
237 transition(vtos, vtos); | |
238 __ stop("shouldnotreachhere bytecode"); | |
239 } | |
240 | |
241 void TemplateTable::aconst_null() { | |
242 transition(vtos, atos); | |
243 __ li(R17_tos, 0); | |
244 } | |
245 | |
246 void TemplateTable::iconst(int value) { | |
247 transition(vtos, itos); | |
248 assert(value >= -1 && value <= 5, ""); | |
249 __ li(R17_tos, value); | |
250 } | |
251 | |
252 void TemplateTable::lconst(int value) { | |
253 transition(vtos, ltos); | |
254 assert(value >= -1 && value <= 5, ""); | |
255 __ li(R17_tos, value); | |
256 } | |
257 | |
258 void TemplateTable::fconst(int value) { | |
259 transition(vtos, ftos); | |
260 static float zero = 0.0; | |
261 static float one = 1.0; | |
262 static float two = 2.0; | |
263 switch (value) { | |
264 default: ShouldNotReachHere(); | |
265 case 0: { | |
17917 | 266 int simm16_offset = __ load_const_optimized(R11_scratch1, (address*)&zero, R0, true); |
17804 | 267 __ lfs(F15_ftos, simm16_offset, R11_scratch1); |
268 break; | |
269 } | |
270 case 1: { | |
17917 | 271 int simm16_offset = __ load_const_optimized(R11_scratch1, (address*)&one, R0, true); |
17804 | 272 __ lfs(F15_ftos, simm16_offset, R11_scratch1); |
273 break; | |
274 } | |
275 case 2: { | |
17917 | 276 int simm16_offset = __ load_const_optimized(R11_scratch1, (address*)&two, R0, true); |
17804 | 277 __ lfs(F15_ftos, simm16_offset, R11_scratch1); |
278 break; | |
279 } | |
280 } | |
281 } | |
282 | |
283 void TemplateTable::dconst(int value) { | |
284 transition(vtos, dtos); | |
285 static double zero = 0.0; | |
286 static double one = 1.0; | |
287 switch (value) { | |
288 case 0: { | |
17917 | 289 int simm16_offset = __ load_const_optimized(R11_scratch1, (address*)&zero, R0, true); |
17804 | 290 __ lfd(F15_ftos, simm16_offset, R11_scratch1); |
291 break; | |
292 } | |
293 case 1: { | |
17917 | 294 int simm16_offset = __ load_const_optimized(R11_scratch1, (address*)&one, R0, true); |
17804 | 295 __ lfd(F15_ftos, simm16_offset, R11_scratch1); |
296 break; | |
297 } | |
298 default: ShouldNotReachHere(); | |
299 } | |
300 } | |
301 | |
302 void TemplateTable::bipush() { | |
303 transition(vtos, itos); | |
304 __ lbz(R17_tos, 1, R14_bcp); | |
305 __ extsb(R17_tos, R17_tos); | |
306 } | |
307 | |
308 void TemplateTable::sipush() { | |
309 transition(vtos, itos); | |
310 __ get_2_byte_integer_at_bcp(1, R17_tos, InterpreterMacroAssembler::Signed); | |
311 } | |
312 | |
313 void TemplateTable::ldc(bool wide) { | |
314 Register Rscratch1 = R11_scratch1, | |
315 Rscratch2 = R12_scratch2, | |
316 Rcpool = R3_ARG1; | |
317 | |
318 transition(vtos, vtos); | |
319 Label notInt, notClass, exit; | |
320 | |
321 __ get_cpool_and_tags(Rcpool, Rscratch2); // Set Rscratch2 = &tags. | |
322 if (wide) { // Read index. | |
323 __ get_2_byte_integer_at_bcp(1, Rscratch1, InterpreterMacroAssembler::Unsigned); | |
324 } else { | |
325 __ lbz(Rscratch1, 1, R14_bcp); | |
326 } | |
327 | |
328 const int base_offset = ConstantPool::header_size() * wordSize; | |
329 const int tags_offset = Array<u1>::base_offset_in_bytes(); | |
330 | |
331 // Get type from tags. | |
332 __ addi(Rscratch2, Rscratch2, tags_offset); | |
333 __ lbzx(Rscratch2, Rscratch2, Rscratch1); | |
334 | |
335 __ cmpwi(CCR0, Rscratch2, JVM_CONSTANT_UnresolvedClass); // Unresolved class? | |
336 __ cmpwi(CCR1, Rscratch2, JVM_CONSTANT_UnresolvedClassInError); // Unresolved class in error state? | |
337 __ cror(/*CR0 eq*/2, /*CR1 eq*/4+2, /*CR0 eq*/2); | |
338 | |
339 // Resolved class - need to call vm to get java mirror of the class. | |
340 __ cmpwi(CCR1, Rscratch2, JVM_CONSTANT_Class); | |
341 __ crnor(/*CR0 eq*/2, /*CR1 eq*/4+2, /*CR0 eq*/2); // Neither resolved class nor unresolved case from above? | |
342 __ beq(CCR0, notClass); | |
343 | |
344 __ li(R4, wide ? 1 : 0); | |
345 call_VM(R17_tos, CAST_FROM_FN_PTR(address, InterpreterRuntime::ldc), R4); | |
346 __ push(atos); | |
347 __ b(exit); | |
348 | |
349 __ align(32, 12); | |
350 __ bind(notClass); | |
351 __ addi(Rcpool, Rcpool, base_offset); | |
352 __ sldi(Rscratch1, Rscratch1, LogBytesPerWord); | |
353 __ cmpdi(CCR0, Rscratch2, JVM_CONSTANT_Integer); | |
354 __ bne(CCR0, notInt); | |
355 __ lwax(R17_tos, Rcpool, Rscratch1); | |
356 __ push(itos); | |
357 __ b(exit); | |
358 | |
359 __ align(32, 12); | |
360 __ bind(notInt); | |
361 #ifdef ASSERT | |
362 // String and Object are rewritten to fast_aldc | |
363 __ cmpdi(CCR0, Rscratch2, JVM_CONSTANT_Float); | |
364 __ asm_assert_eq("unexpected type", 0x8765); | |
365 #endif | |
366 __ lfsx(F15_ftos, Rcpool, Rscratch1); | |
367 __ push(ftos); | |
368 | |
369 __ align(32, 12); | |
370 __ bind(exit); | |
371 } | |
372 | |
373 // Fast path for caching oop constants. | |
374 void TemplateTable::fast_aldc(bool wide) { | |
375 transition(vtos, atos); | |
376 | |
377 int index_size = wide ? sizeof(u2) : sizeof(u1); | |
378 const Register Rscratch = R11_scratch1; | |
379 Label resolved; | |
380 | |
381 // We are resolved if the resolved reference cache entry contains a | |
382 // non-null object (CallSite, etc.) | |
383 __ get_cache_index_at_bcp(Rscratch, 1, index_size); // Load index. | |
384 __ load_resolved_reference_at_index(R17_tos, Rscratch); | |
385 __ cmpdi(CCR0, R17_tos, 0); | |
386 __ bne(CCR0, resolved); | |
387 __ load_const_optimized(R3_ARG1, (int)bytecode()); | |
388 | |
389 address entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_ldc); | |
390 | |
391 // First time invocation - must resolve first. | |
392 __ call_VM(R17_tos, entry, R3_ARG1); | |
393 | |
394 __ align(32, 12); | |
395 __ bind(resolved); | |
396 __ verify_oop(R17_tos); | |
397 } | |
398 | |
399 void TemplateTable::ldc2_w() { | |
400 transition(vtos, vtos); | |
401 Label Llong, Lexit; | |
402 | |
403 Register Rindex = R11_scratch1, | |
404 Rcpool = R12_scratch2, | |
405 Rtag = R3_ARG1; | |
406 __ get_cpool_and_tags(Rcpool, Rtag); | |
407 __ get_2_byte_integer_at_bcp(1, Rindex, InterpreterMacroAssembler::Unsigned); | |
408 | |
409 const int base_offset = ConstantPool::header_size() * wordSize; | |
410 const int tags_offset = Array<u1>::base_offset_in_bytes(); | |
411 // Get type from tags. | |
412 __ addi(Rcpool, Rcpool, base_offset); | |
413 __ addi(Rtag, Rtag, tags_offset); | |
414 | |
415 __ lbzx(Rtag, Rtag, Rindex); | |
416 | |
417 __ sldi(Rindex, Rindex, LogBytesPerWord); | |
418 __ cmpdi(CCR0, Rtag, JVM_CONSTANT_Double); | |
419 __ bne(CCR0, Llong); | |
420 // A double can be placed at word-aligned locations in the constant pool. | |
421 // Check out Conversions.java for an example. | |
422 // Also ConstantPool::header_size() is 20, which makes it very difficult | |
423 // to double-align double on the constant pool. SG, 11/7/97 | |
424 __ lfdx(F15_ftos, Rcpool, Rindex); | |
425 __ push(dtos); | |
426 __ b(Lexit); | |
427 | |
428 __ bind(Llong); | |
429 __ ldx(R17_tos, Rcpool, Rindex); | |
430 __ push(ltos); | |
431 | |
432 __ bind(Lexit); | |
433 } | |
434 | |
435 // Get the locals index located in the bytecode stream at bcp + offset. | |
436 void TemplateTable::locals_index(Register Rdst, int offset) { | |
437 __ lbz(Rdst, offset, R14_bcp); | |
438 } | |
439 | |
440 void TemplateTable::iload() { | |
441 transition(vtos, itos); | |
442 | |
443 // Get the local value into tos | |
444 const Register Rindex = R22_tmp2; | |
445 locals_index(Rindex); | |
446 | |
447 // Rewrite iload,iload pair into fast_iload2 | |
448 // iload,caload pair into fast_icaload | |
449 if (RewriteFrequentPairs) { | |
450 Label Lrewrite, Ldone; | |
451 Register Rnext_byte = R3_ARG1, | |
452 Rrewrite_to = R6_ARG4, | |
453 Rscratch = R11_scratch1; | |
454 | |
455 // get next byte | |
456 __ lbz(Rnext_byte, Bytecodes::length_for(Bytecodes::_iload), R14_bcp); | |
457 | |
458 // if _iload, wait to rewrite to iload2. We only want to rewrite the | |
459 // last two iloads in a pair. Comparing against fast_iload means that | |
460 // the next bytecode is neither an iload or a caload, and therefore | |
461 // an iload pair. | |
462 __ cmpwi(CCR0, Rnext_byte, (unsigned int)(unsigned char)Bytecodes::_iload); | |
463 __ beq(CCR0, Ldone); | |
464 | |
465 __ cmpwi(CCR1, Rnext_byte, (unsigned int)(unsigned char)Bytecodes::_fast_iload); | |
466 __ li(Rrewrite_to, (unsigned int)(unsigned char)Bytecodes::_fast_iload2); | |
467 __ beq(CCR1, Lrewrite); | |
468 | |
469 __ cmpwi(CCR0, Rnext_byte, (unsigned int)(unsigned char)Bytecodes::_caload); | |
470 __ li(Rrewrite_to, (unsigned int)(unsigned char)Bytecodes::_fast_icaload); | |
471 __ beq(CCR0, Lrewrite); | |
472 | |
473 __ li(Rrewrite_to, (unsigned int)(unsigned char)Bytecodes::_fast_iload); | |
474 | |
475 __ bind(Lrewrite); | |
476 patch_bytecode(Bytecodes::_iload, Rrewrite_to, Rscratch, false); | |
477 __ bind(Ldone); | |
478 } | |
479 | |
480 __ load_local_int(R17_tos, Rindex, Rindex); | |
481 } | |
482 | |
483 // Load 2 integers in a row without dispatching | |
484 void TemplateTable::fast_iload2() { | |
485 transition(vtos, itos); | |
486 | |
487 __ lbz(R3_ARG1, 1, R14_bcp); | |
488 __ lbz(R17_tos, Bytecodes::length_for(Bytecodes::_iload) + 1, R14_bcp); | |
489 | |
490 __ load_local_int(R3_ARG1, R11_scratch1, R3_ARG1); | |
491 __ load_local_int(R17_tos, R12_scratch2, R17_tos); | |
492 __ push_i(R3_ARG1); | |
493 } | |
494 | |
495 void TemplateTable::fast_iload() { | |
496 transition(vtos, itos); | |
497 // Get the local value into tos | |
498 | |
499 const Register Rindex = R11_scratch1; | |
500 locals_index(Rindex); | |
501 __ load_local_int(R17_tos, Rindex, Rindex); | |
502 } | |
503 | |
504 // Load a local variable type long from locals area to TOS cache register. | |
505 // Local index resides in bytecodestream. | |
506 void TemplateTable::lload() { | |
507 transition(vtos, ltos); | |
508 | |
509 const Register Rindex = R11_scratch1; | |
510 locals_index(Rindex); | |
511 __ load_local_long(R17_tos, Rindex, Rindex); | |
512 } | |
513 | |
514 void TemplateTable::fload() { | |
515 transition(vtos, ftos); | |
516 | |
517 const Register Rindex = R11_scratch1; | |
518 locals_index(Rindex); | |
519 __ load_local_float(F15_ftos, Rindex, Rindex); | |
520 } | |
521 | |
522 void TemplateTable::dload() { | |
523 transition(vtos, dtos); | |
524 | |
525 const Register Rindex = R11_scratch1; | |
526 locals_index(Rindex); | |
527 __ load_local_double(F15_ftos, Rindex, Rindex); | |
528 } | |
529 | |
530 void TemplateTable::aload() { | |
531 transition(vtos, atos); | |
532 | |
533 const Register Rindex = R11_scratch1; | |
534 locals_index(Rindex); | |
535 __ load_local_ptr(R17_tos, Rindex, Rindex); | |
536 } | |
537 | |
538 void TemplateTable::locals_index_wide(Register Rdst) { | |
539 // Offset is 2, not 1, because Lbcp points to wide prefix code. | |
540 __ get_2_byte_integer_at_bcp(2, Rdst, InterpreterMacroAssembler::Unsigned); | |
541 } | |
542 | |
543 void TemplateTable::wide_iload() { | |
544 // Get the local value into tos. | |
545 | |
546 const Register Rindex = R11_scratch1; | |
547 locals_index_wide(Rindex); | |
548 __ load_local_int(R17_tos, Rindex, Rindex); | |
549 } | |
550 | |
551 void TemplateTable::wide_lload() { | |
552 transition(vtos, ltos); | |
553 | |
554 const Register Rindex = R11_scratch1; | |
555 locals_index_wide(Rindex); | |
556 __ load_local_long(R17_tos, Rindex, Rindex); | |
557 } | |
558 | |
559 void TemplateTable::wide_fload() { | |
560 transition(vtos, ftos); | |
561 | |
562 const Register Rindex = R11_scratch1; | |
563 locals_index_wide(Rindex); | |
564 __ load_local_float(F15_ftos, Rindex, Rindex); | |
565 } | |
566 | |
567 void TemplateTable::wide_dload() { | |
568 transition(vtos, dtos); | |
569 | |
570 const Register Rindex = R11_scratch1; | |
571 locals_index_wide(Rindex); | |
572 __ load_local_double(F15_ftos, Rindex, Rindex); | |
573 } | |
574 | |
575 void TemplateTable::wide_aload() { | |
576 transition(vtos, atos); | |
577 | |
578 const Register Rindex = R11_scratch1; | |
579 locals_index_wide(Rindex); | |
580 __ load_local_ptr(R17_tos, Rindex, Rindex); | |
581 } | |
582 | |
583 void TemplateTable::iaload() { | |
584 transition(itos, itos); | |
585 | |
586 const Register Rload_addr = R3_ARG1, | |
587 Rarray = R4_ARG2, | |
588 Rtemp = R5_ARG3; | |
589 __ index_check(Rarray, R17_tos /* index */, LogBytesPerInt, Rtemp, Rload_addr); | |
590 __ lwa(R17_tos, arrayOopDesc::base_offset_in_bytes(T_INT), Rload_addr); | |
591 } | |
592 | |
593 void TemplateTable::laload() { | |
594 transition(itos, ltos); | |
595 | |
596 const Register Rload_addr = R3_ARG1, | |
597 Rarray = R4_ARG2, | |
598 Rtemp = R5_ARG3; | |
599 __ index_check(Rarray, R17_tos /* index */, LogBytesPerLong, Rtemp, Rload_addr); | |
600 __ ld(R17_tos, arrayOopDesc::base_offset_in_bytes(T_LONG), Rload_addr); | |
601 } | |
602 | |
603 void TemplateTable::faload() { | |
604 transition(itos, ftos); | |
605 | |
606 const Register Rload_addr = R3_ARG1, | |
607 Rarray = R4_ARG2, | |
608 Rtemp = R5_ARG3; | |
609 __ index_check(Rarray, R17_tos /* index */, LogBytesPerInt, Rtemp, Rload_addr); | |
610 __ lfs(F15_ftos, arrayOopDesc::base_offset_in_bytes(T_FLOAT), Rload_addr); | |
611 } | |
612 | |
613 void TemplateTable::daload() { | |
614 transition(itos, dtos); | |
615 | |
616 const Register Rload_addr = R3_ARG1, | |
617 Rarray = R4_ARG2, | |
618 Rtemp = R5_ARG3; | |
619 __ index_check(Rarray, R17_tos /* index */, LogBytesPerLong, Rtemp, Rload_addr); | |
620 __ lfd(F15_ftos, arrayOopDesc::base_offset_in_bytes(T_DOUBLE), Rload_addr); | |
621 } | |
622 | |
623 void TemplateTable::aaload() { | |
624 transition(itos, atos); | |
625 | |
626 // tos: index | |
627 // result tos: array | |
628 const Register Rload_addr = R3_ARG1, | |
629 Rarray = R4_ARG2, | |
630 Rtemp = R5_ARG3; | |
631 __ index_check(Rarray, R17_tos /* index */, UseCompressedOops ? 2 : LogBytesPerWord, Rtemp, Rload_addr); | |
632 __ load_heap_oop(R17_tos, arrayOopDesc::base_offset_in_bytes(T_OBJECT), Rload_addr); | |
633 __ verify_oop(R17_tos); | |
634 //__ dcbt(R17_tos); // prefetch | |
635 } | |
636 | |
637 void TemplateTable::baload() { | |
638 transition(itos, itos); | |
639 | |
640 const Register Rload_addr = R3_ARG1, | |
641 Rarray = R4_ARG2, | |
642 Rtemp = R5_ARG3; | |
643 __ index_check(Rarray, R17_tos /* index */, 0, Rtemp, Rload_addr); | |
644 __ lbz(R17_tos, arrayOopDesc::base_offset_in_bytes(T_BYTE), Rload_addr); | |
645 __ extsb(R17_tos, R17_tos); | |
646 } | |
647 | |
648 void TemplateTable::caload() { | |
649 transition(itos, itos); | |
650 | |
651 const Register Rload_addr = R3_ARG1, | |
652 Rarray = R4_ARG2, | |
653 Rtemp = R5_ARG3; | |
654 __ index_check(Rarray, R17_tos /* index */, LogBytesPerShort, Rtemp, Rload_addr); | |
655 __ lhz(R17_tos, arrayOopDesc::base_offset_in_bytes(T_CHAR), Rload_addr); | |
656 } | |
657 | |
658 // Iload followed by caload frequent pair. | |
659 void TemplateTable::fast_icaload() { | |
660 transition(vtos, itos); | |
661 | |
662 const Register Rload_addr = R3_ARG1, | |
663 Rarray = R4_ARG2, | |
664 Rtemp = R11_scratch1; | |
665 | |
666 locals_index(R17_tos); | |
667 __ load_local_int(R17_tos, Rtemp, R17_tos); | |
668 __ index_check(Rarray, R17_tos /* index */, LogBytesPerShort, Rtemp, Rload_addr); | |
669 __ lhz(R17_tos, arrayOopDesc::base_offset_in_bytes(T_CHAR), Rload_addr); | |
670 } | |
671 | |
672 void TemplateTable::saload() { | |
673 transition(itos, itos); | |
674 | |
675 const Register Rload_addr = R11_scratch1, | |
676 Rarray = R12_scratch2, | |
677 Rtemp = R3_ARG1; | |
678 __ index_check(Rarray, R17_tos /* index */, LogBytesPerShort, Rtemp, Rload_addr); | |
679 __ lha(R17_tos, arrayOopDesc::base_offset_in_bytes(T_SHORT), Rload_addr); | |
680 } | |
681 | |
682 void TemplateTable::iload(int n) { | |
683 transition(vtos, itos); | |
684 | |
685 __ lwz(R17_tos, Interpreter::local_offset_in_bytes(n), R18_locals); | |
686 } | |
687 | |
688 void TemplateTable::lload(int n) { | |
689 transition(vtos, ltos); | |
690 | |
691 __ ld(R17_tos, Interpreter::local_offset_in_bytes(n + 1), R18_locals); | |
692 } | |
693 | |
694 void TemplateTable::fload(int n) { | |
695 transition(vtos, ftos); | |
696 | |
697 __ lfs(F15_ftos, Interpreter::local_offset_in_bytes(n), R18_locals); | |
698 } | |
699 | |
700 void TemplateTable::dload(int n) { | |
701 transition(vtos, dtos); | |
702 | |
703 __ lfd(F15_ftos, Interpreter::local_offset_in_bytes(n + 1), R18_locals); | |
704 } | |
705 | |
706 void TemplateTable::aload(int n) { | |
707 transition(vtos, atos); | |
708 | |
709 __ ld(R17_tos, Interpreter::local_offset_in_bytes(n), R18_locals); | |
710 } | |
711 | |
712 void TemplateTable::aload_0() { | |
713 transition(vtos, atos); | |
714 // According to bytecode histograms, the pairs: | |
715 // | |
716 // _aload_0, _fast_igetfield | |
717 // _aload_0, _fast_agetfield | |
718 // _aload_0, _fast_fgetfield | |
719 // | |
720 // occur frequently. If RewriteFrequentPairs is set, the (slow) | |
721 // _aload_0 bytecode checks if the next bytecode is either | |
722 // _fast_igetfield, _fast_agetfield or _fast_fgetfield and then | |
723 // rewrites the current bytecode into a pair bytecode; otherwise it | |
724 // rewrites the current bytecode into _0 that doesn't do | |
725 // the pair check anymore. | |
726 // | |
727 // Note: If the next bytecode is _getfield, the rewrite must be | |
728 // delayed, otherwise we may miss an opportunity for a pair. | |
729 // | |
730 // Also rewrite frequent pairs | |
731 // aload_0, aload_1 | |
732 // aload_0, iload_1 | |
733 // These bytecodes with a small amount of code are most profitable | |
734 // to rewrite. | |
735 | |
736 if (RewriteFrequentPairs) { | |
737 | |
738 Label Lrewrite, Ldont_rewrite; | |
739 Register Rnext_byte = R3_ARG1, | |
740 Rrewrite_to = R6_ARG4, | |
741 Rscratch = R11_scratch1; | |
742 | |
743 // Get next byte. | |
744 __ lbz(Rnext_byte, Bytecodes::length_for(Bytecodes::_aload_0), R14_bcp); | |
745 | |
746 // If _getfield, wait to rewrite. We only want to rewrite the last two bytecodes in a pair. | |
747 __ cmpwi(CCR0, Rnext_byte, (unsigned int)(unsigned char)Bytecodes::_getfield); | |
748 __ beq(CCR0, Ldont_rewrite); | |
749 | |
750 __ cmpwi(CCR1, Rnext_byte, (unsigned int)(unsigned char)Bytecodes::_fast_igetfield); | |
751 __ li(Rrewrite_to, (unsigned int)(unsigned char)Bytecodes::_fast_iaccess_0); | |
752 __ beq(CCR1, Lrewrite); | |
753 | |
754 __ cmpwi(CCR0, Rnext_byte, (unsigned int)(unsigned char)Bytecodes::_fast_agetfield); | |
755 __ li(Rrewrite_to, (unsigned int)(unsigned char)Bytecodes::_fast_aaccess_0); | |
756 __ beq(CCR0, Lrewrite); | |
757 | |
758 __ cmpwi(CCR1, Rnext_byte, (unsigned int)(unsigned char)Bytecodes::_fast_fgetfield); | |
759 __ li(Rrewrite_to, (unsigned int)(unsigned char)Bytecodes::_fast_faccess_0); | |
760 __ beq(CCR1, Lrewrite); | |
761 | |
762 __ li(Rrewrite_to, (unsigned int)(unsigned char)Bytecodes::_fast_aload_0); | |
763 | |
764 __ bind(Lrewrite); | |
765 patch_bytecode(Bytecodes::_aload_0, Rrewrite_to, Rscratch, false); | |
766 __ bind(Ldont_rewrite); | |
767 } | |
768 | |
769 // Do actual aload_0 (must do this after patch_bytecode which might call VM and GC might change oop). | |
770 aload(0); | |
771 } | |
772 | |
773 void TemplateTable::istore() { | |
774 transition(itos, vtos); | |
775 | |
776 const Register Rindex = R11_scratch1; | |
777 locals_index(Rindex); | |
778 __ store_local_int(R17_tos, Rindex); | |
779 } | |
780 | |
781 void TemplateTable::lstore() { | |
782 transition(ltos, vtos); | |
783 const Register Rindex = R11_scratch1; | |
784 locals_index(Rindex); | |
785 __ store_local_long(R17_tos, Rindex); | |
786 } | |
787 | |
788 void TemplateTable::fstore() { | |
789 transition(ftos, vtos); | |
790 | |
791 const Register Rindex = R11_scratch1; | |
792 locals_index(Rindex); | |
793 __ store_local_float(F15_ftos, Rindex); | |
794 } | |
795 | |
796 void TemplateTable::dstore() { | |
797 transition(dtos, vtos); | |
798 | |
799 const Register Rindex = R11_scratch1; | |
800 locals_index(Rindex); | |
801 __ store_local_double(F15_ftos, Rindex); | |
802 } | |
803 | |
804 void TemplateTable::astore() { | |
805 transition(vtos, vtos); | |
806 | |
807 const Register Rindex = R11_scratch1; | |
808 __ pop_ptr(); | |
809 __ verify_oop_or_return_address(R17_tos, Rindex); | |
810 locals_index(Rindex); | |
811 __ store_local_ptr(R17_tos, Rindex); | |
812 } | |
813 | |
814 void TemplateTable::wide_istore() { | |
815 transition(vtos, vtos); | |
816 | |
817 const Register Rindex = R11_scratch1; | |
818 __ pop_i(); | |
819 locals_index_wide(Rindex); | |
820 __ store_local_int(R17_tos, Rindex); | |
821 } | |
822 | |
823 void TemplateTable::wide_lstore() { | |
824 transition(vtos, vtos); | |
825 | |
826 const Register Rindex = R11_scratch1; | |
827 __ pop_l(); | |
828 locals_index_wide(Rindex); | |
829 __ store_local_long(R17_tos, Rindex); | |
830 } | |
831 | |
832 void TemplateTable::wide_fstore() { | |
833 transition(vtos, vtos); | |
834 | |
835 const Register Rindex = R11_scratch1; | |
836 __ pop_f(); | |
837 locals_index_wide(Rindex); | |
838 __ store_local_float(F15_ftos, Rindex); | |
839 } | |
840 | |
841 void TemplateTable::wide_dstore() { | |
842 transition(vtos, vtos); | |
843 | |
844 const Register Rindex = R11_scratch1; | |
845 __ pop_d(); | |
846 locals_index_wide(Rindex); | |
847 __ store_local_double(F15_ftos, Rindex); | |
848 } | |
849 | |
850 void TemplateTable::wide_astore() { | |
851 transition(vtos, vtos); | |
852 | |
853 const Register Rindex = R11_scratch1; | |
854 __ pop_ptr(); | |
855 __ verify_oop_or_return_address(R17_tos, Rindex); | |
856 locals_index_wide(Rindex); | |
857 __ store_local_ptr(R17_tos, Rindex); | |
858 } | |
859 | |
860 void TemplateTable::iastore() { | |
861 transition(itos, vtos); | |
862 | |
863 const Register Rindex = R3_ARG1, | |
864 Rstore_addr = R4_ARG2, | |
865 Rarray = R5_ARG3, | |
866 Rtemp = R6_ARG4; | |
867 __ pop_i(Rindex); | |
868 __ index_check(Rarray, Rindex, LogBytesPerInt, Rtemp, Rstore_addr); | |
869 __ stw(R17_tos, arrayOopDesc::base_offset_in_bytes(T_INT), Rstore_addr); | |
870 } | |
871 | |
872 void TemplateTable::lastore() { | |
873 transition(ltos, vtos); | |
874 | |
875 const Register Rindex = R3_ARG1, | |
876 Rstore_addr = R4_ARG2, | |
877 Rarray = R5_ARG3, | |
878 Rtemp = R6_ARG4; | |
879 __ pop_i(Rindex); | |
880 __ index_check(Rarray, Rindex, LogBytesPerLong, Rtemp, Rstore_addr); | |
881 __ std(R17_tos, arrayOopDesc::base_offset_in_bytes(T_LONG), Rstore_addr); | |
882 } | |
883 | |
884 void TemplateTable::fastore() { | |
885 transition(ftos, vtos); | |
886 | |
887 const Register Rindex = R3_ARG1, | |
888 Rstore_addr = R4_ARG2, | |
889 Rarray = R5_ARG3, | |
890 Rtemp = R6_ARG4; | |
891 __ pop_i(Rindex); | |
892 __ index_check(Rarray, Rindex, LogBytesPerInt, Rtemp, Rstore_addr); | |
893 __ stfs(F15_ftos, arrayOopDesc::base_offset_in_bytes(T_FLOAT), Rstore_addr); | |
894 } | |
895 | |
896 void TemplateTable::dastore() { | |
897 transition(dtos, vtos); | |
898 | |
899 const Register Rindex = R3_ARG1, | |
900 Rstore_addr = R4_ARG2, | |
901 Rarray = R5_ARG3, | |
902 Rtemp = R6_ARG4; | |
903 __ pop_i(Rindex); | |
904 __ index_check(Rarray, Rindex, LogBytesPerLong, Rtemp, Rstore_addr); | |
905 __ stfd(F15_ftos, arrayOopDesc::base_offset_in_bytes(T_DOUBLE), Rstore_addr); | |
906 } | |
907 | |
908 // Pop 3 values from the stack and... | |
909 void TemplateTable::aastore() { | |
910 transition(vtos, vtos); | |
911 | |
912 Label Lstore_ok, Lis_null, Ldone; | |
913 const Register Rindex = R3_ARG1, | |
914 Rarray = R4_ARG2, | |
915 Rscratch = R11_scratch1, | |
916 Rscratch2 = R12_scratch2, | |
917 Rarray_klass = R5_ARG3, | |
918 Rarray_element_klass = Rarray_klass, | |
919 Rvalue_klass = R6_ARG4, | |
920 Rstore_addr = R31; // Use register which survives VM call. | |
921 | |
922 __ ld(R17_tos, Interpreter::expr_offset_in_bytes(0), R15_esp); // Get value to store. | |
923 __ lwz(Rindex, Interpreter::expr_offset_in_bytes(1), R15_esp); // Get index. | |
924 __ ld(Rarray, Interpreter::expr_offset_in_bytes(2), R15_esp); // Get array. | |
925 | |
926 __ verify_oop(R17_tos); | |
927 __ index_check_without_pop(Rarray, Rindex, UseCompressedOops ? 2 : LogBytesPerWord, Rscratch, Rstore_addr); | |
928 // Rindex is dead! | |
929 Register Rscratch3 = Rindex; | |
930 | |
931 // Do array store check - check for NULL value first. | |
932 __ cmpdi(CCR0, R17_tos, 0); | |
933 __ beq(CCR0, Lis_null); | |
934 | |
935 __ load_klass(Rarray_klass, Rarray); | |
936 __ load_klass(Rvalue_klass, R17_tos); | |
937 | |
938 // Do fast instanceof cache test. | |
939 __ ld(Rarray_element_klass, in_bytes(ObjArrayKlass::element_klass_offset()), Rarray_klass); | |
940 | |
941 // Generate a fast subtype check. Branch to store_ok if no failure. Throw if failure. | |
942 __ gen_subtype_check(Rvalue_klass /*subklass*/, Rarray_element_klass /*superklass*/, Rscratch, Rscratch2, Rscratch3, Lstore_ok); | |
943 | |
944 // Fell through: subtype check failed => throw an exception. | |
945 __ load_dispatch_table(R11_scratch1, (address*)Interpreter::_throw_ArrayStoreException_entry); | |
946 __ mtctr(R11_scratch1); | |
947 __ bctr(); | |
948 | |
949 __ bind(Lis_null); | |
950 do_oop_store(_masm, Rstore_addr, arrayOopDesc::base_offset_in_bytes(T_OBJECT), noreg /* 0 */, | |
951 Rscratch, Rscratch2, Rscratch3, _bs->kind(), true /* precise */, false /* check_null */); | |
952 __ profile_null_seen(Rscratch, Rscratch2); | |
953 __ b(Ldone); | |
954 | |
955 // Store is OK. | |
956 __ bind(Lstore_ok); | |
957 do_oop_store(_masm, Rstore_addr, arrayOopDesc::base_offset_in_bytes(T_OBJECT), R17_tos /* value */, | |
958 Rscratch, Rscratch2, Rscratch3, _bs->kind(), true /* precise */, false /* check_null */); | |
959 | |
960 __ bind(Ldone); | |
961 // Adjust sp (pops array, index and value). | |
962 __ addi(R15_esp, R15_esp, 3 * Interpreter::stackElementSize); | |
963 } | |
964 | |
965 void TemplateTable::bastore() { | |
966 transition(itos, vtos); | |
967 | |
968 const Register Rindex = R11_scratch1, | |
969 Rarray = R12_scratch2, | |
970 Rscratch = R3_ARG1; | |
971 __ pop_i(Rindex); | |
972 // tos: val | |
973 // Rarray: array ptr (popped by index_check) | |
974 __ index_check(Rarray, Rindex, 0, Rscratch, Rarray); | |
975 __ stb(R17_tos, arrayOopDesc::base_offset_in_bytes(T_BYTE), Rarray); | |
976 } | |
977 | |
978 void TemplateTable::castore() { | |
979 transition(itos, vtos); | |
980 | |
981 const Register Rindex = R11_scratch1, | |
982 Rarray = R12_scratch2, | |
983 Rscratch = R3_ARG1; | |
984 __ pop_i(Rindex); | |
985 // tos: val | |
986 // Rarray: array ptr (popped by index_check) | |
987 __ index_check(Rarray, Rindex, LogBytesPerShort, Rscratch, Rarray); | |
988 __ sth(R17_tos, arrayOopDesc::base_offset_in_bytes(T_CHAR), Rarray); | |
989 } | |
990 | |
991 void TemplateTable::sastore() { | |
992 castore(); | |
993 } | |
994 | |
995 void TemplateTable::istore(int n) { | |
996 transition(itos, vtos); | |
997 __ stw(R17_tos, Interpreter::local_offset_in_bytes(n), R18_locals); | |
998 } | |
999 | |
1000 void TemplateTable::lstore(int n) { | |
1001 transition(ltos, vtos); | |
1002 __ std(R17_tos, Interpreter::local_offset_in_bytes(n + 1), R18_locals); | |
1003 } | |
1004 | |
1005 void TemplateTable::fstore(int n) { | |
1006 transition(ftos, vtos); | |
1007 __ stfs(F15_ftos, Interpreter::local_offset_in_bytes(n), R18_locals); | |
1008 } | |
1009 | |
1010 void TemplateTable::dstore(int n) { | |
1011 transition(dtos, vtos); | |
1012 __ stfd(F15_ftos, Interpreter::local_offset_in_bytes(n + 1), R18_locals); | |
1013 } | |
1014 | |
1015 void TemplateTable::astore(int n) { | |
1016 transition(vtos, vtos); | |
1017 | |
1018 __ pop_ptr(); | |
1019 __ verify_oop_or_return_address(R17_tos, R11_scratch1); | |
1020 __ std(R17_tos, Interpreter::local_offset_in_bytes(n), R18_locals); | |
1021 } | |
1022 | |
1023 void TemplateTable::pop() { | |
1024 transition(vtos, vtos); | |
1025 | |
1026 __ addi(R15_esp, R15_esp, Interpreter::stackElementSize); | |
1027 } | |
1028 | |
1029 void TemplateTable::pop2() { | |
1030 transition(vtos, vtos); | |
1031 | |
1032 __ addi(R15_esp, R15_esp, Interpreter::stackElementSize * 2); | |
1033 } | |
1034 | |
1035 void TemplateTable::dup() { | |
1036 transition(vtos, vtos); | |
1037 | |
1038 __ ld(R11_scratch1, Interpreter::stackElementSize, R15_esp); | |
1039 __ push_ptr(R11_scratch1); | |
1040 } | |
1041 | |
1042 void TemplateTable::dup_x1() { | |
1043 transition(vtos, vtos); | |
1044 | |
1045 Register Ra = R11_scratch1, | |
1046 Rb = R12_scratch2; | |
1047 // stack: ..., a, b | |
1048 __ ld(Rb, Interpreter::stackElementSize, R15_esp); | |
1049 __ ld(Ra, Interpreter::stackElementSize * 2, R15_esp); | |
1050 __ std(Rb, Interpreter::stackElementSize * 2, R15_esp); | |
1051 __ std(Ra, Interpreter::stackElementSize, R15_esp); | |
1052 __ push_ptr(Rb); | |
1053 // stack: ..., b, a, b | |
1054 } | |
1055 | |
1056 void TemplateTable::dup_x2() { | |
1057 transition(vtos, vtos); | |
1058 | |
1059 Register Ra = R11_scratch1, | |
1060 Rb = R12_scratch2, | |
1061 Rc = R3_ARG1; | |
1062 | |
1063 // stack: ..., a, b, c | |
1064 __ ld(Rc, Interpreter::stackElementSize, R15_esp); // load c | |
1065 __ ld(Ra, Interpreter::stackElementSize * 3, R15_esp); // load a | |
1066 __ std(Rc, Interpreter::stackElementSize * 3, R15_esp); // store c in a | |
1067 __ ld(Rb, Interpreter::stackElementSize * 2, R15_esp); // load b | |
1068 // stack: ..., c, b, c | |
1069 __ std(Ra, Interpreter::stackElementSize * 2, R15_esp); // store a in b | |
1070 // stack: ..., c, a, c | |
1071 __ std(Rb, Interpreter::stackElementSize, R15_esp); // store b in c | |
1072 __ push_ptr(Rc); // push c | |
1073 // stack: ..., c, a, b, c | |
1074 } | |
1075 | |
1076 void TemplateTable::dup2() { | |
1077 transition(vtos, vtos); | |
1078 | |
1079 Register Ra = R11_scratch1, | |
1080 Rb = R12_scratch2; | |
1081 // stack: ..., a, b | |
1082 __ ld(Rb, Interpreter::stackElementSize, R15_esp); | |
1083 __ ld(Ra, Interpreter::stackElementSize * 2, R15_esp); | |
1084 __ push_2ptrs(Ra, Rb); | |
1085 // stack: ..., a, b, a, b | |
1086 } | |
1087 | |
1088 void TemplateTable::dup2_x1() { | |
1089 transition(vtos, vtos); | |
1090 | |
1091 Register Ra = R11_scratch1, | |
1092 Rb = R12_scratch2, | |
1093 Rc = R3_ARG1; | |
1094 // stack: ..., a, b, c | |
1095 __ ld(Rc, Interpreter::stackElementSize, R15_esp); | |
1096 __ ld(Rb, Interpreter::stackElementSize * 2, R15_esp); | |
1097 __ std(Rc, Interpreter::stackElementSize * 2, R15_esp); | |
1098 __ ld(Ra, Interpreter::stackElementSize * 3, R15_esp); | |
1099 __ std(Ra, Interpreter::stackElementSize, R15_esp); | |
1100 __ std(Rb, Interpreter::stackElementSize * 3, R15_esp); | |
1101 // stack: ..., b, c, a | |
1102 __ push_2ptrs(Rb, Rc); | |
1103 // stack: ..., b, c, a, b, c | |
1104 } | |
1105 | |
1106 void TemplateTable::dup2_x2() { | |
1107 transition(vtos, vtos); | |
1108 | |
1109 Register Ra = R11_scratch1, | |
1110 Rb = R12_scratch2, | |
1111 Rc = R3_ARG1, | |
1112 Rd = R4_ARG2; | |
1113 // stack: ..., a, b, c, d | |
1114 __ ld(Rb, Interpreter::stackElementSize * 3, R15_esp); | |
1115 __ ld(Rd, Interpreter::stackElementSize, R15_esp); | |
1116 __ std(Rb, Interpreter::stackElementSize, R15_esp); // store b in d | |
1117 __ std(Rd, Interpreter::stackElementSize * 3, R15_esp); // store d in b | |
1118 __ ld(Ra, Interpreter::stackElementSize * 4, R15_esp); | |
1119 __ ld(Rc, Interpreter::stackElementSize * 2, R15_esp); | |
1120 __ std(Ra, Interpreter::stackElementSize * 2, R15_esp); // store a in c | |
1121 __ std(Rc, Interpreter::stackElementSize * 4, R15_esp); // store c in a | |
1122 // stack: ..., c, d, a, b | |
1123 __ push_2ptrs(Rc, Rd); | |
1124 // stack: ..., c, d, a, b, c, d | |
1125 } | |
1126 | |
1127 void TemplateTable::swap() { | |
1128 transition(vtos, vtos); | |
1129 // stack: ..., a, b | |
1130 | |
1131 Register Ra = R11_scratch1, | |
1132 Rb = R12_scratch2; | |
1133 // stack: ..., a, b | |
1134 __ ld(Rb, Interpreter::stackElementSize, R15_esp); | |
1135 __ ld(Ra, Interpreter::stackElementSize * 2, R15_esp); | |
1136 __ std(Rb, Interpreter::stackElementSize * 2, R15_esp); | |
1137 __ std(Ra, Interpreter::stackElementSize, R15_esp); | |
1138 // stack: ..., b, a | |
1139 } | |
1140 | |
1141 void TemplateTable::iop2(Operation op) { | |
1142 transition(itos, itos); | |
1143 | |
1144 Register Rscratch = R11_scratch1; | |
1145 | |
1146 __ pop_i(Rscratch); | |
1147 // tos = number of bits to shift | |
1148 // Rscratch = value to shift | |
1149 switch (op) { | |
1150 case add: __ add(R17_tos, Rscratch, R17_tos); break; | |
1151 case sub: __ sub(R17_tos, Rscratch, R17_tos); break; | |
1152 case mul: __ mullw(R17_tos, Rscratch, R17_tos); break; | |
1153 case _and: __ andr(R17_tos, Rscratch, R17_tos); break; | |
1154 case _or: __ orr(R17_tos, Rscratch, R17_tos); break; | |
1155 case _xor: __ xorr(R17_tos, Rscratch, R17_tos); break; | |
1156 case shl: __ rldicl(R17_tos, R17_tos, 0, 64-5); __ slw(R17_tos, Rscratch, R17_tos); break; | |
1157 case shr: __ rldicl(R17_tos, R17_tos, 0, 64-5); __ sraw(R17_tos, Rscratch, R17_tos); break; | |
1158 case ushr: __ rldicl(R17_tos, R17_tos, 0, 64-5); __ srw(R17_tos, Rscratch, R17_tos); break; | |
1159 default: ShouldNotReachHere(); | |
1160 } | |
1161 } | |
1162 | |
1163 void TemplateTable::lop2(Operation op) { | |
1164 transition(ltos, ltos); | |
1165 | |
1166 Register Rscratch = R11_scratch1; | |
1167 __ pop_l(Rscratch); | |
1168 switch (op) { | |
1169 case add: __ add(R17_tos, Rscratch, R17_tos); break; | |
1170 case sub: __ sub(R17_tos, Rscratch, R17_tos); break; | |
1171 case _and: __ andr(R17_tos, Rscratch, R17_tos); break; | |
1172 case _or: __ orr(R17_tos, Rscratch, R17_tos); break; | |
1173 case _xor: __ xorr(R17_tos, Rscratch, R17_tos); break; | |
1174 default: ShouldNotReachHere(); | |
1175 } | |
1176 } | |
1177 | |
1178 void TemplateTable::idiv() { | |
1179 transition(itos, itos); | |
1180 | |
1181 Label Lnormal, Lexception, Ldone; | |
1182 Register Rdividend = R11_scratch1; // Used by irem. | |
1183 | |
1184 __ addi(R0, R17_tos, 1); | |
1185 __ cmplwi(CCR0, R0, 2); | |
1186 __ bgt(CCR0, Lnormal); // divisor <-1 or >1 | |
1187 | |
1188 __ cmpwi(CCR1, R17_tos, 0); | |
1189 __ beq(CCR1, Lexception); // divisor == 0 | |
1190 | |
1191 __ pop_i(Rdividend); | |
1192 __ mullw(R17_tos, Rdividend, R17_tos); // div by +/-1 | |
1193 __ b(Ldone); | |
1194 | |
1195 __ bind(Lexception); | |
1196 __ load_dispatch_table(R11_scratch1, (address*)Interpreter::_throw_ArithmeticException_entry); | |
1197 __ mtctr(R11_scratch1); | |
1198 __ bctr(); | |
1199 | |
1200 __ align(32, 12); | |
1201 __ bind(Lnormal); | |
1202 __ pop_i(Rdividend); | |
1203 __ divw(R17_tos, Rdividend, R17_tos); // Can't divide minint/-1. | |
1204 __ bind(Ldone); | |
1205 } | |
1206 | |
1207 void TemplateTable::irem() { | |
1208 transition(itos, itos); | |
1209 | |
1210 __ mr(R12_scratch2, R17_tos); | |
1211 idiv(); | |
1212 __ mullw(R17_tos, R17_tos, R12_scratch2); | |
1213 __ subf(R17_tos, R17_tos, R11_scratch1); // Dividend set by idiv. | |
1214 } | |
1215 | |
1216 void TemplateTable::lmul() { | |
1217 transition(ltos, ltos); | |
1218 | |
1219 __ pop_l(R11_scratch1); | |
1220 __ mulld(R17_tos, R11_scratch1, R17_tos); | |
1221 } | |
1222 | |
1223 void TemplateTable::ldiv() { | |
1224 transition(ltos, ltos); | |
1225 | |
1226 Label Lnormal, Lexception, Ldone; | |
1227 Register Rdividend = R11_scratch1; // Used by lrem. | |
1228 | |
1229 __ addi(R0, R17_tos, 1); | |
1230 __ cmpldi(CCR0, R0, 2); | |
1231 __ bgt(CCR0, Lnormal); // divisor <-1 or >1 | |
1232 | |
1233 __ cmpdi(CCR1, R17_tos, 0); | |
1234 __ beq(CCR1, Lexception); // divisor == 0 | |
1235 | |
1236 __ pop_l(Rdividend); | |
1237 __ mulld(R17_tos, Rdividend, R17_tos); // div by +/-1 | |
1238 __ b(Ldone); | |
1239 | |
1240 __ bind(Lexception); | |
1241 __ load_dispatch_table(R11_scratch1, (address*)Interpreter::_throw_ArithmeticException_entry); | |
1242 __ mtctr(R11_scratch1); | |
1243 __ bctr(); | |
1244 | |
1245 __ align(32, 12); | |
1246 __ bind(Lnormal); | |
1247 __ pop_l(Rdividend); | |
1248 __ divd(R17_tos, Rdividend, R17_tos); // Can't divide minint/-1. | |
1249 __ bind(Ldone); | |
1250 } | |
1251 | |
1252 void TemplateTable::lrem() { | |
1253 transition(ltos, ltos); | |
1254 | |
1255 __ mr(R12_scratch2, R17_tos); | |
1256 ldiv(); | |
1257 __ mulld(R17_tos, R17_tos, R12_scratch2); | |
1258 __ subf(R17_tos, R17_tos, R11_scratch1); // Dividend set by ldiv. | |
1259 } | |
1260 | |
1261 void TemplateTable::lshl() { | |
1262 transition(itos, ltos); | |
1263 | |
1264 __ rldicl(R17_tos, R17_tos, 0, 64-6); // Extract least significant bits. | |
1265 __ pop_l(R11_scratch1); | |
1266 __ sld(R17_tos, R11_scratch1, R17_tos); | |
1267 } | |
1268 | |
1269 void TemplateTable::lshr() { | |
1270 transition(itos, ltos); | |
1271 | |
1272 __ rldicl(R17_tos, R17_tos, 0, 64-6); // Extract least significant bits. | |
1273 __ pop_l(R11_scratch1); | |
1274 __ srad(R17_tos, R11_scratch1, R17_tos); | |
1275 } | |
1276 | |
1277 void TemplateTable::lushr() { | |
1278 transition(itos, ltos); | |
1279 | |
1280 __ rldicl(R17_tos, R17_tos, 0, 64-6); // Extract least significant bits. | |
1281 __ pop_l(R11_scratch1); | |
1282 __ srd(R17_tos, R11_scratch1, R17_tos); | |
1283 } | |
1284 | |
1285 void TemplateTable::fop2(Operation op) { | |
1286 transition(ftos, ftos); | |
1287 | |
1288 switch (op) { | |
1289 case add: __ pop_f(F0_SCRATCH); __ fadds(F15_ftos, F0_SCRATCH, F15_ftos); break; | |
1290 case sub: __ pop_f(F0_SCRATCH); __ fsubs(F15_ftos, F0_SCRATCH, F15_ftos); break; | |
1291 case mul: __ pop_f(F0_SCRATCH); __ fmuls(F15_ftos, F0_SCRATCH, F15_ftos); break; | |
1292 case div: __ pop_f(F0_SCRATCH); __ fdivs(F15_ftos, F0_SCRATCH, F15_ftos); break; | |
1293 case rem: | |
1294 __ pop_f(F1_ARG1); | |
1295 __ fmr(F2_ARG2, F15_ftos); | |
1296 __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::frem)); | |
1297 __ fmr(F15_ftos, F1_RET); | |
1298 break; | |
1299 | |
1300 default: ShouldNotReachHere(); | |
1301 } | |
1302 } | |
1303 | |
1304 void TemplateTable::dop2(Operation op) { | |
1305 transition(dtos, dtos); | |
1306 | |
1307 switch (op) { | |
1308 case add: __ pop_d(F0_SCRATCH); __ fadd(F15_ftos, F0_SCRATCH, F15_ftos); break; | |
1309 case sub: __ pop_d(F0_SCRATCH); __ fsub(F15_ftos, F0_SCRATCH, F15_ftos); break; | |
1310 case mul: __ pop_d(F0_SCRATCH); __ fmul(F15_ftos, F0_SCRATCH, F15_ftos); break; | |
1311 case div: __ pop_d(F0_SCRATCH); __ fdiv(F15_ftos, F0_SCRATCH, F15_ftos); break; | |
1312 case rem: | |
1313 __ pop_d(F1_ARG1); | |
1314 __ fmr(F2_ARG2, F15_ftos); | |
1315 __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::drem)); | |
1316 __ fmr(F15_ftos, F1_RET); | |
1317 break; | |
1318 | |
1319 default: ShouldNotReachHere(); | |
1320 } | |
1321 } | |
1322 | |
1323 // Negate the value in the TOS cache. | |
1324 void TemplateTable::ineg() { | |
1325 transition(itos, itos); | |
1326 | |
1327 __ neg(R17_tos, R17_tos); | |
1328 } | |
1329 | |
1330 // Negate the value in the TOS cache. | |
1331 void TemplateTable::lneg() { | |
1332 transition(ltos, ltos); | |
1333 | |
1334 __ neg(R17_tos, R17_tos); | |
1335 } | |
1336 | |
1337 void TemplateTable::fneg() { | |
1338 transition(ftos, ftos); | |
1339 | |
1340 __ fneg(F15_ftos, F15_ftos); | |
1341 } | |
1342 | |
1343 void TemplateTable::dneg() { | |
1344 transition(dtos, dtos); | |
1345 | |
1346 __ fneg(F15_ftos, F15_ftos); | |
1347 } | |
1348 | |
1349 // Increments a local variable in place. | |
1350 void TemplateTable::iinc() { | |
1351 transition(vtos, vtos); | |
1352 | |
1353 const Register Rindex = R11_scratch1, | |
1354 Rincrement = R0, | |
1355 Rvalue = R12_scratch2; | |
1356 | |
1357 locals_index(Rindex); // Load locals index from bytecode stream. | |
1358 __ lbz(Rincrement, 2, R14_bcp); // Load increment from the bytecode stream. | |
1359 __ extsb(Rincrement, Rincrement); | |
1360 | |
1361 __ load_local_int(Rvalue, Rindex, Rindex); // Puts address of local into Rindex. | |
1362 | |
1363 __ add(Rvalue, Rincrement, Rvalue); | |
1364 __ stw(Rvalue, 0, Rindex); | |
1365 } | |
1366 | |
1367 void TemplateTable::wide_iinc() { | |
1368 transition(vtos, vtos); | |
1369 | |
1370 Register Rindex = R11_scratch1, | |
1371 Rlocals_addr = Rindex, | |
1372 Rincr = R12_scratch2; | |
1373 locals_index_wide(Rindex); | |
1374 __ get_2_byte_integer_at_bcp(4, Rincr, InterpreterMacroAssembler::Signed); | |
1375 __ load_local_int(R17_tos, Rlocals_addr, Rindex); | |
1376 __ add(R17_tos, Rincr, R17_tos); | |
1377 __ stw(R17_tos, 0, Rlocals_addr); | |
1378 } | |
1379 | |
1380 void TemplateTable::convert() { | |
1381 // %%%%% Factor this first part accross platforms | |
1382 #ifdef ASSERT | |
1383 TosState tos_in = ilgl; | |
1384 TosState tos_out = ilgl; | |
1385 switch (bytecode()) { | |
1386 case Bytecodes::_i2l: // fall through | |
1387 case Bytecodes::_i2f: // fall through | |
1388 case Bytecodes::_i2d: // fall through | |
1389 case Bytecodes::_i2b: // fall through | |
1390 case Bytecodes::_i2c: // fall through | |
1391 case Bytecodes::_i2s: tos_in = itos; break; | |
1392 case Bytecodes::_l2i: // fall through | |
1393 case Bytecodes::_l2f: // fall through | |
1394 case Bytecodes::_l2d: tos_in = ltos; break; | |
1395 case Bytecodes::_f2i: // fall through | |
1396 case Bytecodes::_f2l: // fall through | |
1397 case Bytecodes::_f2d: tos_in = ftos; break; | |
1398 case Bytecodes::_d2i: // fall through | |
1399 case Bytecodes::_d2l: // fall through | |
1400 case Bytecodes::_d2f: tos_in = dtos; break; | |
1401 default : ShouldNotReachHere(); | |
1402 } | |
1403 switch (bytecode()) { | |
1404 case Bytecodes::_l2i: // fall through | |
1405 case Bytecodes::_f2i: // fall through | |
1406 case Bytecodes::_d2i: // fall through | |
1407 case Bytecodes::_i2b: // fall through | |
1408 case Bytecodes::_i2c: // fall through | |
1409 case Bytecodes::_i2s: tos_out = itos; break; | |
1410 case Bytecodes::_i2l: // fall through | |
1411 case Bytecodes::_f2l: // fall through | |
1412 case Bytecodes::_d2l: tos_out = ltos; break; | |
1413 case Bytecodes::_i2f: // fall through | |
1414 case Bytecodes::_l2f: // fall through | |
1415 case Bytecodes::_d2f: tos_out = ftos; break; | |
1416 case Bytecodes::_i2d: // fall through | |
1417 case Bytecodes::_l2d: // fall through | |
1418 case Bytecodes::_f2d: tos_out = dtos; break; | |
1419 default : ShouldNotReachHere(); | |
1420 } | |
1421 transition(tos_in, tos_out); | |
1422 #endif | |
1423 | |
1424 // Conversion | |
1425 Label done; | |
1426 switch (bytecode()) { | |
1427 case Bytecodes::_i2l: | |
1428 __ extsw(R17_tos, R17_tos); | |
1429 break; | |
1430 | |
1431 case Bytecodes::_l2i: | |
1432 // Nothing to do, we'll continue to work with the lower bits. | |
1433 break; | |
1434 | |
1435 case Bytecodes::_i2b: | |
1436 __ extsb(R17_tos, R17_tos); | |
1437 break; | |
1438 | |
1439 case Bytecodes::_i2c: | |
1440 __ rldicl(R17_tos, R17_tos, 0, 64-2*8); | |
1441 break; | |
1442 | |
1443 case Bytecodes::_i2s: | |
1444 __ extsh(R17_tos, R17_tos); | |
1445 break; | |
1446 | |
1447 case Bytecodes::_i2d: | |
1448 __ extsw(R17_tos, R17_tos); | |
1449 case Bytecodes::_l2d: | |
1450 __ push_l_pop_d(); | |
1451 __ fcfid(F15_ftos, F15_ftos); | |
1452 break; | |
1453 | |
1454 case Bytecodes::_i2f: | |
1455 __ extsw(R17_tos, R17_tos); | |
1456 __ push_l_pop_d(); | |
1457 if (VM_Version::has_fcfids()) { // fcfids is >= Power7 only | |
1458 // Comment: alternatively, load with sign extend could be done by lfiwax. | |
1459 __ fcfids(F15_ftos, F15_ftos); | |
1460 } else { | |
1461 __ fcfid(F15_ftos, F15_ftos); | |
1462 __ frsp(F15_ftos, F15_ftos); | |
1463 } | |
1464 break; | |
1465 | |
1466 case Bytecodes::_l2f: | |
1467 if (VM_Version::has_fcfids()) { // fcfids is >= Power7 only | |
1468 __ push_l_pop_d(); | |
1469 __ fcfids(F15_ftos, F15_ftos); | |
1470 } else { | |
1471 // Avoid rounding problem when result should be 0x3f800001: need fixup code before fcfid+frsp. | |
1472 __ mr(R3_ARG1, R17_tos); | |
1473 __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::l2f)); | |
1474 __ fmr(F15_ftos, F1_RET); | |
1475 } | |
1476 break; | |
1477 | |
1478 case Bytecodes::_f2d: | |
1479 // empty | |
1480 break; | |
1481 | |
1482 case Bytecodes::_d2f: | |
1483 __ frsp(F15_ftos, F15_ftos); | |
1484 break; | |
1485 | |
1486 case Bytecodes::_d2i: | |
1487 case Bytecodes::_f2i: | |
1488 __ fcmpu(CCR0, F15_ftos, F15_ftos); | |
1489 __ li(R17_tos, 0); // 0 in case of NAN | |
1490 __ bso(CCR0, done); | |
1491 __ fctiwz(F15_ftos, F15_ftos); | |
1492 __ push_d_pop_l(); | |
1493 break; | |
1494 | |
1495 case Bytecodes::_d2l: | |
1496 case Bytecodes::_f2l: | |
1497 __ fcmpu(CCR0, F15_ftos, F15_ftos); | |
1498 __ li(R17_tos, 0); // 0 in case of NAN | |
1499 __ bso(CCR0, done); | |
1500 __ fctidz(F15_ftos, F15_ftos); | |
1501 __ push_d_pop_l(); | |
1502 break; | |
1503 | |
1504 default: ShouldNotReachHere(); | |
1505 } | |
1506 __ bind(done); | |
1507 } | |
1508 | |
1509 // Long compare | |
1510 void TemplateTable::lcmp() { | |
1511 transition(ltos, itos); | |
1512 | |
1513 const Register Rscratch = R11_scratch1; | |
1514 __ pop_l(Rscratch); // first operand, deeper in stack | |
1515 | |
1516 __ cmpd(CCR0, Rscratch, R17_tos); // compare | |
1517 __ mfcr(R17_tos); // set bit 32..33 as follows: <: 0b10, =: 0b00, >: 0b01 | |
1518 __ srwi(Rscratch, R17_tos, 30); | |
1519 __ srawi(R17_tos, R17_tos, 31); | |
1520 __ orr(R17_tos, Rscratch, R17_tos); // set result as follows: <: -1, =: 0, >: 1 | |
1521 } | |
1522 | |
1523 // fcmpl/fcmpg and dcmpl/dcmpg bytecodes | |
1524 // unordered_result == -1 => fcmpl or dcmpl | |
1525 // unordered_result == 1 => fcmpg or dcmpg | |
1526 void TemplateTable::float_cmp(bool is_float, int unordered_result) { | |
1527 const FloatRegister Rfirst = F0_SCRATCH, | |
1528 Rsecond = F15_ftos; | |
1529 const Register Rscratch = R11_scratch1; | |
1530 | |
1531 if (is_float) { | |
1532 __ pop_f(Rfirst); | |
1533 } else { | |
1534 __ pop_d(Rfirst); | |
1535 } | |
1536 | |
1537 Label Lunordered, Ldone; | |
1538 __ fcmpu(CCR0, Rfirst, Rsecond); // compare | |
1539 if (unordered_result) { | |
1540 __ bso(CCR0, Lunordered); | |
1541 } | |
1542 __ mfcr(R17_tos); // set bit 32..33 as follows: <: 0b10, =: 0b00, >: 0b01 | |
1543 __ srwi(Rscratch, R17_tos, 30); | |
1544 __ srawi(R17_tos, R17_tos, 31); | |
1545 __ orr(R17_tos, Rscratch, R17_tos); // set result as follows: <: -1, =: 0, >: 1 | |
1546 if (unordered_result) { | |
1547 __ b(Ldone); | |
1548 __ bind(Lunordered); | |
1549 __ load_const_optimized(R17_tos, unordered_result); | |
1550 } | |
1551 __ bind(Ldone); | |
1552 } | |
1553 | |
1554 // Branch_conditional which takes TemplateTable::Condition. | |
1555 void TemplateTable::branch_conditional(ConditionRegister crx, TemplateTable::Condition cc, Label& L, bool invert) { | |
1556 bool positive = false; | |
1557 Assembler::Condition cond = Assembler::equal; | |
1558 switch (cc) { | |
1559 case TemplateTable::equal: positive = true ; cond = Assembler::equal ; break; | |
1560 case TemplateTable::not_equal: positive = false; cond = Assembler::equal ; break; | |
1561 case TemplateTable::less: positive = true ; cond = Assembler::less ; break; | |
1562 case TemplateTable::less_equal: positive = false; cond = Assembler::greater; break; | |
1563 case TemplateTable::greater: positive = true ; cond = Assembler::greater; break; | |
1564 case TemplateTable::greater_equal: positive = false; cond = Assembler::less ; break; | |
1565 default: ShouldNotReachHere(); | |
1566 } | |
1567 int bo = (positive != invert) ? Assembler::bcondCRbiIs1 : Assembler::bcondCRbiIs0; | |
1568 int bi = Assembler::bi0(crx, cond); | |
1569 __ bc(bo, bi, L); | |
1570 } | |
1571 | |
1572 void TemplateTable::branch(bool is_jsr, bool is_wide) { | |
1573 | |
1574 // Note: on SPARC, we use InterpreterMacroAssembler::if_cmp also. | |
1575 __ verify_thread(); | |
1576 | |
1577 const Register Rscratch1 = R11_scratch1, | |
1578 Rscratch2 = R12_scratch2, | |
1579 Rscratch3 = R3_ARG1, | |
1580 R4_counters = R4_ARG2, | |
1581 bumped_count = R31, | |
1582 Rdisp = R22_tmp2; | |
1583 | |
1584 __ profile_taken_branch(Rscratch1, bumped_count); | |
1585 | |
1586 // Get (wide) offset. | |
1587 if (is_wide) { | |
1588 __ get_4_byte_integer_at_bcp(1, Rdisp, InterpreterMacroAssembler::Signed); | |
1589 } else { | |
1590 __ get_2_byte_integer_at_bcp(1, Rdisp, InterpreterMacroAssembler::Signed); | |
1591 } | |
1592 | |
1593 // -------------------------------------------------------------------------- | |
1594 // Handle all the JSR stuff here, then exit. | |
1595 // It's much shorter and cleaner than intermingling with the | |
1596 // non-JSR normal-branch stuff occurring below. | |
1597 if (is_jsr) { | |
1598 // Compute return address as bci in Otos_i. | |
1599 __ ld(Rscratch1, in_bytes(Method::const_offset()), R19_method); | |
1600 __ addi(Rscratch2, R14_bcp, -in_bytes(ConstMethod::codes_offset()) + (is_wide ? 5 : 3)); | |
1601 __ subf(R17_tos, Rscratch1, Rscratch2); | |
1602 | |
1603 // Bump bcp to target of JSR. | |
1604 __ add(R14_bcp, Rdisp, R14_bcp); | |
1605 // Push returnAddress for "ret" on stack. | |
1606 __ push_ptr(R17_tos); | |
1607 // And away we go! | |
1608 __ dispatch_next(vtos); | |
1609 return; | |
1610 } | |
1611 | |
1612 // -------------------------------------------------------------------------- | |
1613 // Normal (non-jsr) branch handling | |
1614 | |
1615 const bool increment_invocation_counter_for_backward_branches = UseCompiler && UseLoopCounter; | |
1616 if (increment_invocation_counter_for_backward_branches) { | |
1617 //__ unimplemented("branch invocation counter"); | |
1618 | |
1619 Label Lforward; | |
1620 __ add(R14_bcp, Rdisp, R14_bcp); // Add to bc addr. | |
1621 | |
1622 // Check branch direction. | |
1623 __ cmpdi(CCR0, Rdisp, 0); | |
1624 __ bgt(CCR0, Lforward); | |
1625 | |
1626 __ get_method_counters(R19_method, R4_counters, Lforward); | |
1627 | |
1628 if (TieredCompilation) { | |
1629 Label Lno_mdo, Loverflow; | |
1630 const int increment = InvocationCounter::count_increment; | |
1631 const int mask = ((1 << Tier0BackedgeNotifyFreqLog) - 1) << InvocationCounter::count_shift; | |
1632 if (ProfileInterpreter) { | |
1633 Register Rmdo = Rscratch1; | |
1634 | |
1635 // If no method data exists, go to profile_continue. | |
1636 __ ld(Rmdo, in_bytes(Method::method_data_offset()), R19_method); | |
1637 __ cmpdi(CCR0, Rmdo, 0); | |
1638 __ beq(CCR0, Lno_mdo); | |
1639 | |
1640 // Increment backedge counter in the MDO. | |
1641 const int mdo_bc_offs = in_bytes(MethodData::backedge_counter_offset()) + in_bytes(InvocationCounter::counter_offset()); | |
1642 __ lwz(Rscratch2, mdo_bc_offs, Rmdo); | |
1643 __ load_const_optimized(Rscratch3, mask, R0); | |
1644 __ addi(Rscratch2, Rscratch2, increment); | |
1645 __ stw(Rscratch2, mdo_bc_offs, Rmdo); | |
1646 __ and_(Rscratch3, Rscratch2, Rscratch3); | |
1647 __ bne(CCR0, Lforward); | |
1648 __ b(Loverflow); | |
1649 } | |
1650 | |
1651 // If there's no MDO, increment counter in method. | |
1652 const int mo_bc_offs = in_bytes(MethodCounters::backedge_counter_offset()) + in_bytes(InvocationCounter::counter_offset()); | |
1653 __ bind(Lno_mdo); | |
1654 __ lwz(Rscratch2, mo_bc_offs, R4_counters); | |
1655 __ load_const_optimized(Rscratch3, mask, R0); | |
1656 __ addi(Rscratch2, Rscratch2, increment); | |
1657 __ stw(Rscratch2, mo_bc_offs, R19_method); | |
1658 __ and_(Rscratch3, Rscratch2, Rscratch3); | |
1659 __ bne(CCR0, Lforward); | |
1660 | |
1661 __ bind(Loverflow); | |
1662 | |
1663 // Notify point for loop, pass branch bytecode. | |
1664 __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::frequency_counter_overflow), R14_bcp, true); | |
1665 | |
1666 // Was an OSR adapter generated? | |
1667 // O0 = osr nmethod | |
1668 __ cmpdi(CCR0, R3_RET, 0); | |
1669 __ beq(CCR0, Lforward); | |
1670 | |
1671 // Has the nmethod been invalidated already? | |
1672 __ lwz(R0, nmethod::entry_bci_offset(), R3_RET); | |
1673 __ cmpwi(CCR0, R0, InvalidOSREntryBci); | |
1674 __ beq(CCR0, Lforward); | |
1675 | |
1676 // Migrate the interpreter frame off of the stack. | |
1677 // We can use all registers because we will not return to interpreter from this point. | |
1678 | |
1679 // Save nmethod. | |
1680 const Register osr_nmethod = R31; | |
1681 __ mr(osr_nmethod, R3_RET); | |
1682 __ set_top_ijava_frame_at_SP_as_last_Java_frame(R1_SP, R11_scratch1); | |
1683 __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::OSR_migration_begin), R16_thread); | |
1684 __ reset_last_Java_frame(); | |
1685 // OSR buffer is in ARG1. | |
1686 | |
1687 // Remove the interpreter frame. | |
1688 __ merge_frames(/*top_frame_sp*/ R21_sender_SP, /*return_pc*/ R0, R11_scratch1, R12_scratch2); | |
1689 | |
1690 // Jump to the osr code. | |
1691 __ ld(R11_scratch1, nmethod::osr_entry_point_offset(), osr_nmethod); | |
1692 __ mtlr(R0); | |
1693 __ mtctr(R11_scratch1); | |
1694 __ bctr(); | |
1695 | |
1696 } else { | |
1697 | |
1698 const Register invoke_ctr = Rscratch1; | |
1699 // Update Backedge branch separately from invocations. | |
1700 __ increment_backedge_counter(R4_counters, invoke_ctr, Rscratch2, Rscratch3); | |
1701 | |
1702 if (ProfileInterpreter) { | |
1703 __ test_invocation_counter_for_mdp(invoke_ctr, Rscratch2, Lforward); | |
1704 if (UseOnStackReplacement) { | |
1705 __ test_backedge_count_for_osr(bumped_count, R14_bcp, Rscratch2); | |
1706 } | |
1707 } else { | |
1708 if (UseOnStackReplacement) { | |
1709 __ test_backedge_count_for_osr(invoke_ctr, R14_bcp, Rscratch2); | |
1710 } | |
1711 } | |
1712 } | |
1713 | |
1714 __ bind(Lforward); | |
1715 | |
1716 } else { | |
1717 // Bump bytecode pointer by displacement (take the branch). | |
1718 __ add(R14_bcp, Rdisp, R14_bcp); // Add to bc addr. | |
1719 } | |
1720 // Continue with bytecode @ target. | |
1721 // %%%%% Like Intel, could speed things up by moving bytecode fetch to code above, | |
1722 // %%%%% and changing dispatch_next to dispatch_only. | |
1723 __ dispatch_next(vtos); | |
1724 } | |
1725 | |
1726 // Helper function for if_cmp* methods below. | |
1727 // Factored out common compare and branch code. | |
1728 void TemplateTable::if_cmp_common(Register Rfirst, Register Rsecond, Register Rscratch1, Register Rscratch2, Condition cc, bool is_jint, bool cmp0) { | |
1729 Label Lnot_taken; | |
1730 // Note: The condition code we get is the condition under which we | |
1731 // *fall through*! So we have to inverse the CC here. | |
1732 | |
1733 if (is_jint) { | |
1734 if (cmp0) { | |
1735 __ cmpwi(CCR0, Rfirst, 0); | |
1736 } else { | |
1737 __ cmpw(CCR0, Rfirst, Rsecond); | |
1738 } | |
1739 } else { | |
1740 if (cmp0) { | |
1741 __ cmpdi(CCR0, Rfirst, 0); | |
1742 } else { | |
1743 __ cmpd(CCR0, Rfirst, Rsecond); | |
1744 } | |
1745 } | |
1746 branch_conditional(CCR0, cc, Lnot_taken, /*invert*/ true); | |
1747 | |
1748 // Conition is false => Jump! | |
1749 branch(false, false); | |
1750 | |
1751 // Condition is not true => Continue. | |
1752 __ align(32, 12); | |
1753 __ bind(Lnot_taken); | |
1754 __ profile_not_taken_branch(Rscratch1, Rscratch2); | |
1755 } | |
1756 | |
1757 // Compare integer values with zero and fall through if CC holds, branch away otherwise. | |
1758 void TemplateTable::if_0cmp(Condition cc) { | |
1759 transition(itos, vtos); | |
1760 | |
1761 if_cmp_common(R17_tos, noreg, R11_scratch1, R12_scratch2, cc, true, true); | |
1762 } | |
1763 | |
1764 // Compare integer values and fall through if CC holds, branch away otherwise. | |
1765 // | |
1766 // Interface: | |
1767 // - Rfirst: First operand (older stack value) | |
1768 // - tos: Second operand (younger stack value) | |
1769 void TemplateTable::if_icmp(Condition cc) { | |
1770 transition(itos, vtos); | |
1771 | |
1772 const Register Rfirst = R0, | |
1773 Rsecond = R17_tos; | |
1774 | |
1775 __ pop_i(Rfirst); | |
1776 if_cmp_common(Rfirst, Rsecond, R11_scratch1, R12_scratch2, cc, true, false); | |
1777 } | |
1778 | |
1779 void TemplateTable::if_nullcmp(Condition cc) { | |
1780 transition(atos, vtos); | |
1781 | |
1782 if_cmp_common(R17_tos, noreg, R11_scratch1, R12_scratch2, cc, false, true); | |
1783 } | |
1784 | |
1785 void TemplateTable::if_acmp(Condition cc) { | |
1786 transition(atos, vtos); | |
1787 | |
1788 const Register Rfirst = R0, | |
1789 Rsecond = R17_tos; | |
1790 | |
1791 __ pop_ptr(Rfirst); | |
1792 if_cmp_common(Rfirst, Rsecond, R11_scratch1, R12_scratch2, cc, false, false); | |
1793 } | |
1794 | |
1795 void TemplateTable::ret() { | |
1796 locals_index(R11_scratch1); | |
1797 __ load_local_ptr(R17_tos, R11_scratch1, R11_scratch1); | |
1798 | |
1799 __ profile_ret(vtos, R17_tos, R11_scratch1, R12_scratch2); | |
1800 | |
1801 __ ld(R11_scratch1, in_bytes(Method::const_offset()), R19_method); | |
1802 __ add(R11_scratch1, R17_tos, R11_scratch1); | |
1803 __ addi(R14_bcp, R11_scratch1, in_bytes(ConstMethod::codes_offset())); | |
1804 __ dispatch_next(vtos); | |
1805 } | |
1806 | |
1807 void TemplateTable::wide_ret() { | |
1808 transition(vtos, vtos); | |
1809 | |
1810 const Register Rindex = R3_ARG1, | |
1811 Rscratch1 = R11_scratch1, | |
1812 Rscratch2 = R12_scratch2; | |
1813 | |
1814 locals_index_wide(Rindex); | |
1815 __ load_local_ptr(R17_tos, R17_tos, Rindex); | |
1816 __ profile_ret(vtos, R17_tos, Rscratch1, R12_scratch2); | |
1817 // Tos now contains the bci, compute the bcp from that. | |
1818 __ ld(Rscratch1, in_bytes(Method::const_offset()), R19_method); | |
1819 __ addi(Rscratch2, R17_tos, in_bytes(ConstMethod::codes_offset())); | |
1820 __ add(R14_bcp, Rscratch1, Rscratch2); | |
1821 __ dispatch_next(vtos); | |
1822 } | |
1823 | |
1824 void TemplateTable::tableswitch() { | |
1825 transition(itos, vtos); | |
1826 | |
1827 Label Ldispatch, Ldefault_case; | |
1828 Register Rlow_byte = R3_ARG1, | |
1829 Rindex = Rlow_byte, | |
1830 Rhigh_byte = R4_ARG2, | |
1831 Rdef_offset_addr = R5_ARG3, // is going to contain address of default offset | |
1832 Rscratch1 = R11_scratch1, | |
1833 Rscratch2 = R12_scratch2, | |
1834 Roffset = R6_ARG4; | |
1835 | |
1836 // Align bcp. | |
1837 __ addi(Rdef_offset_addr, R14_bcp, BytesPerInt); | |
1838 __ clrrdi(Rdef_offset_addr, Rdef_offset_addr, log2_long((jlong)BytesPerInt)); | |
1839 | |
1840 // Load lo & hi. | |
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1841 __ get_u4(Rlow_byte, Rdef_offset_addr, BytesPerInt, InterpreterMacroAssembler::Unsigned); |
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1842 __ get_u4(Rhigh_byte, Rdef_offset_addr, 2 *BytesPerInt, InterpreterMacroAssembler::Unsigned); |
17804 | 1843 |
1844 // Check for default case (=index outside [low,high]). | |
1845 __ cmpw(CCR0, R17_tos, Rlow_byte); | |
1846 __ cmpw(CCR1, R17_tos, Rhigh_byte); | |
1847 __ blt(CCR0, Ldefault_case); | |
1848 __ bgt(CCR1, Ldefault_case); | |
1849 | |
1850 // Lookup dispatch offset. | |
1851 __ sub(Rindex, R17_tos, Rlow_byte); | |
1852 __ extsw(Rindex, Rindex); | |
1853 __ profile_switch_case(Rindex, Rhigh_byte /* scratch */, Rscratch1, Rscratch2); | |
1854 __ sldi(Rindex, Rindex, LogBytesPerInt); | |
1855 __ addi(Rindex, Rindex, 3 * BytesPerInt); | |
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1856 #if defined(VM_LITTLE_ENDIAN) |
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1857 __ lwbrx(Roffset, Rdef_offset_addr, Rindex); |
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1858 __ extsw(Roffset, Roffset); |
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1859 #else |
17804 | 1860 __ lwax(Roffset, Rdef_offset_addr, Rindex); |
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1861 #endif |
17804 | 1862 __ b(Ldispatch); |
1863 | |
1864 __ bind(Ldefault_case); | |
1865 __ profile_switch_default(Rhigh_byte, Rscratch1); | |
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1866 __ get_u4(Roffset, Rdef_offset_addr, 0, InterpreterMacroAssembler::Signed); |
17804 | 1867 |
1868 __ bind(Ldispatch); | |
1869 | |
1870 __ add(R14_bcp, Roffset, R14_bcp); | |
1871 __ dispatch_next(vtos); | |
1872 } | |
1873 | |
1874 void TemplateTable::lookupswitch() { | |
1875 transition(itos, itos); | |
1876 __ stop("lookupswitch bytecode should have been rewritten"); | |
1877 } | |
1878 | |
1879 // Table switch using linear search through cases. | |
1880 // Bytecode stream format: | |
1881 // Bytecode (1) | 4-byte padding | default offset (4) | count (4) | value/offset pair1 (8) | value/offset pair2 (8) | ... | |
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1882 // Note: Everything is big-endian format here. |
17804 | 1883 void TemplateTable::fast_linearswitch() { |
1884 transition(itos, vtos); | |
1885 | |
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1886 Label Lloop_entry, Lsearch_loop, Lcontinue_execution, Ldefault_case; |
17804 | 1887 Register Rcount = R3_ARG1, |
1888 Rcurrent_pair = R4_ARG2, | |
1889 Rdef_offset_addr = R5_ARG3, // Is going to contain address of default offset. | |
1890 Roffset = R31, // Might need to survive C call. | |
1891 Rvalue = R12_scratch2, | |
1892 Rscratch = R11_scratch1, | |
1893 Rcmp_value = R17_tos; | |
1894 | |
1895 // Align bcp. | |
1896 __ addi(Rdef_offset_addr, R14_bcp, BytesPerInt); | |
1897 __ clrrdi(Rdef_offset_addr, Rdef_offset_addr, log2_long((jlong)BytesPerInt)); | |
1898 | |
1899 // Setup loop counter and limit. | |
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1900 __ get_u4(Rcount, Rdef_offset_addr, BytesPerInt, InterpreterMacroAssembler::Unsigned); |
17804 | 1901 __ addi(Rcurrent_pair, Rdef_offset_addr, 2 * BytesPerInt); // Rcurrent_pair now points to first pair. |
1902 | |
1903 __ mtctr(Rcount); | |
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1904 __ cmpwi(CCR0, Rcount, 0); |
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1905 __ bne(CCR0, Lloop_entry); |
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1906 |
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1907 // Default case |
17804 | 1908 __ bind(Ldefault_case); |
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1909 __ get_u4(Roffset, Rdef_offset_addr, 0, InterpreterMacroAssembler::Signed); |
17804 | 1910 if (ProfileInterpreter) { |
1911 __ profile_switch_default(Rdef_offset_addr, Rcount/* scratch */); | |
1912 } | |
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1913 __ b(Lcontinue_execution); |
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1914 |
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1915 // Next iteration |
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1916 __ bind(Lsearch_loop); |
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1917 __ bdz(Ldefault_case); |
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1918 __ addi(Rcurrent_pair, Rcurrent_pair, 2 * BytesPerInt); |
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1919 __ bind(Lloop_entry); |
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1920 __ get_u4(Rvalue, Rcurrent_pair, 0, InterpreterMacroAssembler::Unsigned); |
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1921 __ cmpw(CCR0, Rvalue, Rcmp_value); |
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1922 __ bne(CCR0, Lsearch_loop); |
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1923 |
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1924 // Found, load offset. |
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1925 __ get_u4(Roffset, Rcurrent_pair, BytesPerInt, InterpreterMacroAssembler::Signed); |
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1926 // Calculate case index and profile |
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1927 __ mfctr(Rcurrent_pair); |
17804 | 1928 if (ProfileInterpreter) { |
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1929 __ sub(Rcurrent_pair, Rcount, Rcurrent_pair); |
17804 | 1930 __ profile_switch_case(Rcurrent_pair, Rcount /*scratch*/, Rdef_offset_addr/*scratch*/, Rscratch); |
1931 } | |
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1932 |
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1933 __ bind(Lcontinue_execution); |
17804 | 1934 __ add(R14_bcp, Roffset, R14_bcp); |
1935 __ dispatch_next(vtos); | |
1936 } | |
1937 | |
1938 // Table switch using binary search (value/offset pairs are ordered). | |
1939 // Bytecode stream format: | |
1940 // Bytecode (1) | 4-byte padding | default offset (4) | count (4) | value/offset pair1 (8) | value/offset pair2 (8) | ... | |
1941 // Note: Everything is big-endian format here. So on little endian machines, we have to revers offset and count and cmp value. | |
1942 void TemplateTable::fast_binaryswitch() { | |
1943 | |
1944 transition(itos, vtos); | |
1945 // Implementation using the following core algorithm: (copied from Intel) | |
1946 // | |
1947 // int binary_search(int key, LookupswitchPair* array, int n) { | |
1948 // // Binary search according to "Methodik des Programmierens" by | |
1949 // // Edsger W. Dijkstra and W.H.J. Feijen, Addison Wesley Germany 1985. | |
1950 // int i = 0; | |
1951 // int j = n; | |
1952 // while (i+1 < j) { | |
1953 // // invariant P: 0 <= i < j <= n and (a[i] <= key < a[j] or Q) | |
1954 // // with Q: for all i: 0 <= i < n: key < a[i] | |
1955 // // where a stands for the array and assuming that the (inexisting) | |
1956 // // element a[n] is infinitely big. | |
1957 // int h = (i + j) >> 1; | |
1958 // // i < h < j | |
1959 // if (key < array[h].fast_match()) { | |
1960 // j = h; | |
1961 // } else { | |
1962 // i = h; | |
1963 // } | |
1964 // } | |
1965 // // R: a[i] <= key < a[i+1] or Q | |
1966 // // (i.e., if key is within array, i is the correct index) | |
1967 // return i; | |
1968 // } | |
1969 | |
1970 // register allocation | |
1971 const Register Rkey = R17_tos; // already set (tosca) | |
1972 const Register Rarray = R3_ARG1; | |
1973 const Register Ri = R4_ARG2; | |
1974 const Register Rj = R5_ARG3; | |
1975 const Register Rh = R6_ARG4; | |
1976 const Register Rscratch = R11_scratch1; | |
1977 | |
1978 const int log_entry_size = 3; | |
1979 const int entry_size = 1 << log_entry_size; | |
1980 | |
1981 Label found; | |
1982 | |
1983 // Find Array start, | |
1984 __ addi(Rarray, R14_bcp, 3 * BytesPerInt); | |
1985 __ clrrdi(Rarray, Rarray, log2_long((jlong)BytesPerInt)); | |
1986 | |
1987 // initialize i & j | |
1988 __ li(Ri,0); | |
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1989 __ get_u4(Rj, Rarray, -BytesPerInt, InterpreterMacroAssembler::Unsigned); |
17804 | 1990 |
1991 // and start. | |
1992 Label entry; | |
1993 __ b(entry); | |
1994 | |
1995 // binary search loop | |
1996 { Label loop; | |
1997 __ bind(loop); | |
1998 // int h = (i + j) >> 1; | |
1999 __ srdi(Rh, Rh, 1); | |
2000 // if (key < array[h].fast_match()) { | |
2001 // j = h; | |
2002 // } else { | |
2003 // i = h; | |
2004 // } | |
2005 __ sldi(Rscratch, Rh, log_entry_size); | |
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2006 #if defined(VM_LITTLE_ENDIAN) |
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2007 __ lwbrx(Rscratch, Rscratch, Rarray); |
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2008 #else |
17804 | 2009 __ lwzx(Rscratch, Rscratch, Rarray); |
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2010 #endif |
17804 | 2011 |
2012 // if (key < current value) | |
2013 // Rh = Rj | |
2014 // else | |
2015 // Rh = Ri | |
2016 Label Lgreater; | |
2017 __ cmpw(CCR0, Rkey, Rscratch); | |
2018 __ bge(CCR0, Lgreater); | |
2019 __ mr(Rj, Rh); | |
2020 __ b(entry); | |
2021 __ bind(Lgreater); | |
2022 __ mr(Ri, Rh); | |
2023 | |
2024 // while (i+1 < j) | |
2025 __ bind(entry); | |
2026 __ addi(Rscratch, Ri, 1); | |
2027 __ cmpw(CCR0, Rscratch, Rj); | |
2028 __ add(Rh, Ri, Rj); // start h = i + j >> 1; | |
2029 | |
2030 __ blt(CCR0, loop); | |
2031 } | |
2032 | |
2033 // End of binary search, result index is i (must check again!). | |
2034 Label default_case; | |
2035 Label continue_execution; | |
2036 if (ProfileInterpreter) { | |
2037 __ mr(Rh, Ri); // Save index in i for profiling. | |
2038 } | |
2039 // Ri = value offset | |
2040 __ sldi(Ri, Ri, log_entry_size); | |
2041 __ add(Ri, Ri, Rarray); | |
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2042 __ get_u4(Rscratch, Ri, 0, InterpreterMacroAssembler::Unsigned); |
17804 | 2043 |
2044 Label not_found; | |
2045 // Ri = offset offset | |
2046 __ cmpw(CCR0, Rkey, Rscratch); | |
2047 __ beq(CCR0, not_found); | |
2048 // entry not found -> j = default offset | |
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2049 __ get_u4(Rj, Rarray, -2 * BytesPerInt, InterpreterMacroAssembler::Unsigned); |
17804 | 2050 __ b(default_case); |
2051 | |
2052 __ bind(not_found); | |
2053 // entry found -> j = offset | |
2054 __ profile_switch_case(Rh, Rj, Rscratch, Rkey); | |
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2055 __ get_u4(Rj, Ri, BytesPerInt, InterpreterMacroAssembler::Unsigned); |
17804 | 2056 |
2057 if (ProfileInterpreter) { | |
2058 __ b(continue_execution); | |
2059 } | |
2060 | |
2061 __ bind(default_case); // fall through (if not profiling) | |
2062 __ profile_switch_default(Ri, Rscratch); | |
2063 | |
2064 __ bind(continue_execution); | |
2065 | |
2066 __ extsw(Rj, Rj); | |
2067 __ add(R14_bcp, Rj, R14_bcp); | |
2068 __ dispatch_next(vtos); | |
2069 } | |
2070 | |
2071 void TemplateTable::_return(TosState state) { | |
2072 transition(state, state); | |
2073 assert(_desc->calls_vm(), | |
2074 "inconsistent calls_vm information"); // call in remove_activation | |
2075 | |
2076 if (_desc->bytecode() == Bytecodes::_return_register_finalizer) { | |
2077 | |
2078 Register Rscratch = R11_scratch1, | |
2079 Rklass = R12_scratch2, | |
2080 Rklass_flags = Rklass; | |
2081 Label Lskip_register_finalizer; | |
2082 | |
2083 // Check if the method has the FINALIZER flag set and call into the VM to finalize in this case. | |
2084 assert(state == vtos, "only valid state"); | |
2085 __ ld(R17_tos, 0, R18_locals); | |
2086 | |
2087 // Load klass of this obj. | |
2088 __ load_klass(Rklass, R17_tos); | |
2089 __ lwz(Rklass_flags, in_bytes(Klass::access_flags_offset()), Rklass); | |
2090 __ testbitdi(CCR0, R0, Rklass_flags, exact_log2(JVM_ACC_HAS_FINALIZER)); | |
2091 __ bfalse(CCR0, Lskip_register_finalizer); | |
2092 | |
2093 __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::register_finalizer), R17_tos /* obj */); | |
2094 | |
2095 __ align(32, 12); | |
2096 __ bind(Lskip_register_finalizer); | |
2097 } | |
2098 | |
2099 // Move the result value into the correct register and remove memory stack frame. | |
2100 __ remove_activation(state, /* throw_monitor_exception */ true); | |
2101 // Restoration of lr done by remove_activation. | |
2102 switch (state) { | |
2103 case ltos: | |
2104 case btos: | |
2105 case ctos: | |
2106 case stos: | |
2107 case atos: | |
2108 case itos: __ mr(R3_RET, R17_tos); break; | |
2109 case ftos: | |
2110 case dtos: __ fmr(F1_RET, F15_ftos); break; | |
2111 case vtos: // This might be a constructor. Final fields (and volatile fields on PPC64) need | |
2112 // to get visible before the reference to the object gets stored anywhere. | |
2113 __ membar(Assembler::StoreStore); break; | |
2114 default : ShouldNotReachHere(); | |
2115 } | |
2116 __ blr(); | |
2117 } | |
2118 | |
2119 // ============================================================================ | |
2120 // Constant pool cache access | |
2121 // | |
2122 // Memory ordering: | |
2123 // | |
2124 // Like done in C++ interpreter, we load the fields | |
2125 // - _indices | |
2126 // - _f12_oop | |
2127 // acquired, because these are asked if the cache is already resolved. We don't | |
2128 // want to float loads above this check. | |
2129 // See also comments in ConstantPoolCacheEntry::bytecode_1(), | |
2130 // ConstantPoolCacheEntry::bytecode_2() and ConstantPoolCacheEntry::f1(); | |
2131 | |
2132 // Call into the VM if call site is not yet resolved | |
2133 // | |
2134 // Input regs: | |
2135 // - None, all passed regs are outputs. | |
2136 // | |
2137 // Returns: | |
2138 // - Rcache: The const pool cache entry that contains the resolved result. | |
2139 // - Rresult: Either noreg or output for f1/f2. | |
2140 // | |
2141 // Kills: | |
2142 // - Rscratch | |
2143 void TemplateTable::resolve_cache_and_index(int byte_no, Register Rcache, Register Rscratch, size_t index_size) { | |
2144 | |
2145 __ get_cache_and_index_at_bcp(Rcache, 1, index_size); | |
2146 Label Lresolved, Ldone; | |
2147 | |
2148 assert(byte_no == f1_byte || byte_no == f2_byte, "byte_no out of range"); | |
2149 // We are resolved if the indices offset contains the current bytecode. | |
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2150 #if defined(VM_LITTLE_ENDIAN) |
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2151 __ lbz(Rscratch, in_bytes(ConstantPoolCache::base_offset() + ConstantPoolCacheEntry::indices_offset()) + byte_no + 1, Rcache); |
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2152 #else |
17804 | 2153 __ lbz(Rscratch, in_bytes(ConstantPoolCache::base_offset() + ConstantPoolCacheEntry::indices_offset()) + 7 - (byte_no + 1), Rcache); |
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2154 #endif |
17804 | 2155 // Acquire by cmp-br-isync (see below). |
2156 __ cmpdi(CCR0, Rscratch, (int)bytecode()); | |
2157 __ beq(CCR0, Lresolved); | |
2158 | |
2159 address entry = NULL; | |
2160 switch (bytecode()) { | |
2161 case Bytecodes::_getstatic : // fall through | |
2162 case Bytecodes::_putstatic : // fall through | |
2163 case Bytecodes::_getfield : // fall through | |
2164 case Bytecodes::_putfield : entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_get_put); break; | |
2165 case Bytecodes::_invokevirtual : // fall through | |
2166 case Bytecodes::_invokespecial : // fall through | |
2167 case Bytecodes::_invokestatic : // fall through | |
2168 case Bytecodes::_invokeinterface: entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_invoke); break; | |
2169 case Bytecodes::_invokehandle : entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_invokehandle); break; | |
2170 case Bytecodes::_invokedynamic : entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_invokedynamic); break; | |
2171 default : ShouldNotReachHere(); break; | |
2172 } | |
2173 __ li(R4_ARG2, (int)bytecode()); | |
2174 __ call_VM(noreg, entry, R4_ARG2, true); | |
2175 | |
2176 // Update registers with resolved info. | |
2177 __ get_cache_and_index_at_bcp(Rcache, 1, index_size); | |
2178 __ b(Ldone); | |
2179 | |
2180 __ bind(Lresolved); | |
2181 __ isync(); // Order load wrt. succeeding loads. | |
2182 __ bind(Ldone); | |
2183 } | |
2184 | |
2185 // Load the constant pool cache entry at field accesses into registers. | |
2186 // The Rcache and Rindex registers must be set before call. | |
2187 // Input: | |
2188 // - Rcache, Rindex | |
2189 // Output: | |
2190 // - Robj, Roffset, Rflags | |
2191 void TemplateTable::load_field_cp_cache_entry(Register Robj, | |
2192 Register Rcache, | |
2193 Register Rindex /* unused on PPC64 */, | |
2194 Register Roffset, | |
2195 Register Rflags, | |
2196 bool is_static = false) { | |
2197 assert_different_registers(Rcache, Rflags, Roffset); | |
2198 // assert(Rindex == noreg, "parameter not used on PPC64"); | |
2199 | |
2200 ByteSize cp_base_offset = ConstantPoolCache::base_offset(); | |
2201 __ ld(Rflags, in_bytes(cp_base_offset) + in_bytes(ConstantPoolCacheEntry::flags_offset()), Rcache); | |
2202 __ ld(Roffset, in_bytes(cp_base_offset) + in_bytes(ConstantPoolCacheEntry::f2_offset()), Rcache); | |
2203 if (is_static) { | |
2204 __ ld(Robj, in_bytes(cp_base_offset) + in_bytes(ConstantPoolCacheEntry::f1_offset()), Rcache); | |
2205 __ ld(Robj, in_bytes(Klass::java_mirror_offset()), Robj); | |
2206 // Acquire not needed here. Following access has an address dependency on this value. | |
2207 } | |
2208 } | |
2209 | |
2210 // Load the constant pool cache entry at invokes into registers. | |
2211 // Resolve if necessary. | |
2212 | |
2213 // Input Registers: | |
2214 // - None, bcp is used, though | |
2215 // | |
2216 // Return registers: | |
2217 // - Rmethod (f1 field or f2 if invokevirtual) | |
2218 // - Ritable_index (f2 field) | |
2219 // - Rflags (flags field) | |
2220 // | |
2221 // Kills: | |
2222 // - R21 | |
2223 // | |
2224 void TemplateTable::load_invoke_cp_cache_entry(int byte_no, | |
2225 Register Rmethod, | |
2226 Register Ritable_index, | |
2227 Register Rflags, | |
2228 bool is_invokevirtual, | |
2229 bool is_invokevfinal, | |
2230 bool is_invokedynamic) { | |
2231 | |
2232 ByteSize cp_base_offset = ConstantPoolCache::base_offset(); | |
2233 // Determine constant pool cache field offsets. | |
2234 assert(is_invokevirtual == (byte_no == f2_byte), "is_invokevirtual flag redundant"); | |
2235 const int method_offset = in_bytes(cp_base_offset + (is_invokevirtual ? ConstantPoolCacheEntry::f2_offset() : ConstantPoolCacheEntry::f1_offset())); | |
2236 const int flags_offset = in_bytes(cp_base_offset + ConstantPoolCacheEntry::flags_offset()); | |
2237 // Access constant pool cache fields. | |
2238 const int index_offset = in_bytes(cp_base_offset + ConstantPoolCacheEntry::f2_offset()); | |
2239 | |
2240 Register Rcache = R21_tmp1; // Note: same register as R21_sender_SP. | |
2241 | |
2242 if (is_invokevfinal) { | |
2243 assert(Ritable_index == noreg, "register not used"); | |
2244 // Already resolved. | |
2245 __ get_cache_and_index_at_bcp(Rcache, 1); | |
2246 } else { | |
2247 resolve_cache_and_index(byte_no, Rcache, R0, is_invokedynamic ? sizeof(u4) : sizeof(u2)); | |
2248 } | |
2249 | |
2250 __ ld(Rmethod, method_offset, Rcache); | |
2251 __ ld(Rflags, flags_offset, Rcache); | |
2252 | |
2253 if (Ritable_index != noreg) { | |
2254 __ ld(Ritable_index, index_offset, Rcache); | |
2255 } | |
2256 } | |
2257 | |
2258 // ============================================================================ | |
2259 // Field access | |
2260 | |
2261 // Volatile variables demand their effects be made known to all CPU's | |
2262 // in order. Store buffers on most chips allow reads & writes to | |
2263 // reorder; the JMM's ReadAfterWrite.java test fails in -Xint mode | |
2264 // without some kind of memory barrier (i.e., it's not sufficient that | |
2265 // the interpreter does not reorder volatile references, the hardware | |
2266 // also must not reorder them). | |
2267 // | |
2268 // According to the new Java Memory Model (JMM): | |
2269 // (1) All volatiles are serialized wrt to each other. ALSO reads & | |
2270 // writes act as aquire & release, so: | |
2271 // (2) A read cannot let unrelated NON-volatile memory refs that | |
2272 // happen after the read float up to before the read. It's OK for | |
2273 // non-volatile memory refs that happen before the volatile read to | |
2274 // float down below it. | |
2275 // (3) Similar a volatile write cannot let unrelated NON-volatile | |
2276 // memory refs that happen BEFORE the write float down to after the | |
2277 // write. It's OK for non-volatile memory refs that happen after the | |
2278 // volatile write to float up before it. | |
2279 // | |
2280 // We only put in barriers around volatile refs (they are expensive), | |
2281 // not _between_ memory refs (that would require us to track the | |
2282 // flavor of the previous memory refs). Requirements (2) and (3) | |
2283 // require some barriers before volatile stores and after volatile | |
2284 // loads. These nearly cover requirement (1) but miss the | |
2285 // volatile-store-volatile-load case. This final case is placed after | |
2286 // volatile-stores although it could just as well go before | |
2287 // volatile-loads. | |
2288 | |
2289 // The registers cache and index expected to be set before call. | |
2290 // Correct values of the cache and index registers are preserved. | |
2291 // Kills: | |
2292 // Rcache (if has_tos) | |
2293 // Rscratch | |
2294 void TemplateTable::jvmti_post_field_access(Register Rcache, Register Rscratch, bool is_static, bool has_tos) { | |
2295 | |
2296 assert_different_registers(Rcache, Rscratch); | |
2297 | |
2298 if (JvmtiExport::can_post_field_access()) { | |
2299 ByteSize cp_base_offset = ConstantPoolCache::base_offset(); | |
2300 Label Lno_field_access_post; | |
2301 | |
2302 // Check if post field access in enabled. | |
2303 int offs = __ load_const_optimized(Rscratch, JvmtiExport::get_field_access_count_addr(), R0, true); | |
2304 __ lwz(Rscratch, offs, Rscratch); | |
2305 | |
2306 __ cmpwi(CCR0, Rscratch, 0); | |
2307 __ beq(CCR0, Lno_field_access_post); | |
2308 | |
2309 // Post access enabled - do it! | |
2310 __ addi(Rcache, Rcache, in_bytes(cp_base_offset)); | |
2311 if (is_static) { | |
2312 __ li(R17_tos, 0); | |
2313 } else { | |
2314 if (has_tos) { | |
2315 // The fast bytecode versions have obj ptr in register. | |
2316 // Thus, save object pointer before call_VM() clobbers it | |
2317 // put object on tos where GC wants it. | |
2318 __ push_ptr(R17_tos); | |
2319 } else { | |
2320 // Load top of stack (do not pop the value off the stack). | |
2321 __ ld(R17_tos, Interpreter::expr_offset_in_bytes(0), R15_esp); | |
2322 } | |
2323 __ verify_oop(R17_tos); | |
2324 } | |
2325 // tos: object pointer or NULL if static | |
2326 // cache: cache entry pointer | |
2327 __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::post_field_access), R17_tos, Rcache); | |
2328 if (!is_static && has_tos) { | |
2329 // Restore object pointer. | |
2330 __ pop_ptr(R17_tos); | |
2331 __ verify_oop(R17_tos); | |
2332 } else { | |
2333 // Cache is still needed to get class or obj. | |
2334 __ get_cache_and_index_at_bcp(Rcache, 1); | |
2335 } | |
2336 | |
2337 __ align(32, 12); | |
2338 __ bind(Lno_field_access_post); | |
2339 } | |
2340 } | |
2341 | |
2342 // kills R11_scratch1 | |
2343 void TemplateTable::pop_and_check_object(Register Roop) { | |
2344 Register Rtmp = R11_scratch1; | |
2345 | |
2346 assert_different_registers(Rtmp, Roop); | |
2347 __ pop_ptr(Roop); | |
2348 // For field access must check obj. | |
2349 __ null_check_throw(Roop, -1, Rtmp); | |
2350 __ verify_oop(Roop); | |
2351 } | |
2352 | |
2353 // PPC64: implement volatile loads as fence-store-acquire. | |
2354 void TemplateTable::getfield_or_static(int byte_no, bool is_static) { | |
2355 transition(vtos, vtos); | |
2356 | |
2357 Label Lacquire, Lisync; | |
2358 | |
2359 const Register Rcache = R3_ARG1, | |
2360 Rclass_or_obj = R22_tmp2, | |
2361 Roffset = R23_tmp3, | |
2362 Rflags = R31, | |
2363 Rbtable = R5_ARG3, | |
2364 Rbc = R6_ARG4, | |
2365 Rscratch = R12_scratch2; | |
2366 | |
2367 static address field_branch_table[number_of_states], | |
2368 static_branch_table[number_of_states]; | |
2369 | |
2370 address* branch_table = is_static ? static_branch_table : field_branch_table; | |
2371 | |
2372 // Get field offset. | |
2373 resolve_cache_and_index(byte_no, Rcache, Rscratch, sizeof(u2)); | |
2374 | |
2375 // JVMTI support | |
2376 jvmti_post_field_access(Rcache, Rscratch, is_static, false); | |
2377 | |
2378 // Load after possible GC. | |
2379 load_field_cp_cache_entry(Rclass_or_obj, Rcache, noreg, Roffset, Rflags, is_static); | |
2380 | |
2381 // Load pointer to branch table. | |
2382 __ load_const_optimized(Rbtable, (address)branch_table, Rscratch); | |
2383 | |
2384 // Get volatile flag. | |
2385 __ rldicl(Rscratch, Rflags, 64-ConstantPoolCacheEntry::is_volatile_shift, 63); // Extract volatile bit. | |
2386 // Note: sync is needed before volatile load on PPC64. | |
2387 | |
2388 // Check field type. | |
2389 __ rldicl(Rflags, Rflags, 64-ConstantPoolCacheEntry::tos_state_shift, 64-ConstantPoolCacheEntry::tos_state_bits); | |
2390 | |
2391 #ifdef ASSERT | |
2392 Label LFlagInvalid; | |
2393 __ cmpldi(CCR0, Rflags, number_of_states); | |
2394 __ bge(CCR0, LFlagInvalid); | |
2395 #endif | |
2396 | |
2397 // Load from branch table and dispatch (volatile case: one instruction ahead). | |
2398 __ sldi(Rflags, Rflags, LogBytesPerWord); | |
2399 __ cmpwi(CCR6, Rscratch, 1); // Volatile? | |
2400 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { | |
2401 __ sldi(Rscratch, Rscratch, exact_log2(BytesPerInstWord)); // Volatile ? size of 1 instruction : 0. | |
2402 } | |
2403 __ ldx(Rbtable, Rbtable, Rflags); | |
2404 | |
2405 // Get the obj from stack. | |
2406 if (!is_static) { | |
2407 pop_and_check_object(Rclass_or_obj); // Kills R11_scratch1. | |
2408 } else { | |
2409 __ verify_oop(Rclass_or_obj); | |
2410 } | |
2411 | |
2412 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { | |
2413 __ subf(Rbtable, Rscratch, Rbtable); // Point to volatile/non-volatile entry point. | |
2414 } | |
2415 __ mtctr(Rbtable); | |
2416 __ bctr(); | |
2417 | |
2418 #ifdef ASSERT | |
2419 __ bind(LFlagInvalid); | |
2420 __ stop("got invalid flag", 0x654); | |
2421 | |
2422 // __ bind(Lvtos); | |
2423 address pc_before_fence = __ pc(); | |
2424 __ fence(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2425 assert(__ pc() - pc_before_fence == (ptrdiff_t)BytesPerInstWord, "must be single instruction"); | |
2426 assert(branch_table[vtos] == 0, "can't compute twice"); | |
2427 branch_table[vtos] = __ pc(); // non-volatile_entry point | |
2428 __ stop("vtos unexpected", 0x655); | |
2429 #endif | |
2430 | |
2431 __ align(32, 28, 28); // Align load. | |
2432 // __ bind(Ldtos); | |
2433 __ fence(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2434 assert(branch_table[dtos] == 0, "can't compute twice"); | |
2435 branch_table[dtos] = __ pc(); // non-volatile_entry point | |
2436 __ lfdx(F15_ftos, Rclass_or_obj, Roffset); | |
2437 __ push(dtos); | |
2438 if (!is_static) patch_bytecode(Bytecodes::_fast_dgetfield, Rbc, Rscratch); | |
2439 { | |
2440 Label acquire_double; | |
2441 __ beq(CCR6, acquire_double); // Volatile? | |
2442 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2443 | |
2444 __ bind(acquire_double); | |
2445 __ fcmpu(CCR0, F15_ftos, F15_ftos); // Acquire by cmp-br-isync. | |
2446 __ beq_predict_taken(CCR0, Lisync); | |
2447 __ b(Lisync); // In case of NAN. | |
2448 } | |
2449 | |
2450 __ align(32, 28, 28); // Align load. | |
2451 // __ bind(Lftos); | |
2452 __ fence(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2453 assert(branch_table[ftos] == 0, "can't compute twice"); | |
2454 branch_table[ftos] = __ pc(); // non-volatile_entry point | |
2455 __ lfsx(F15_ftos, Rclass_or_obj, Roffset); | |
2456 __ push(ftos); | |
2457 if (!is_static) { patch_bytecode(Bytecodes::_fast_fgetfield, Rbc, Rscratch); } | |
2458 { | |
2459 Label acquire_float; | |
2460 __ beq(CCR6, acquire_float); // Volatile? | |
2461 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2462 | |
2463 __ bind(acquire_float); | |
2464 __ fcmpu(CCR0, F15_ftos, F15_ftos); // Acquire by cmp-br-isync. | |
2465 __ beq_predict_taken(CCR0, Lisync); | |
2466 __ b(Lisync); // In case of NAN. | |
2467 } | |
2468 | |
2469 __ align(32, 28, 28); // Align load. | |
2470 // __ bind(Litos); | |
2471 __ fence(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2472 assert(branch_table[itos] == 0, "can't compute twice"); | |
2473 branch_table[itos] = __ pc(); // non-volatile_entry point | |
2474 __ lwax(R17_tos, Rclass_or_obj, Roffset); | |
2475 __ push(itos); | |
2476 if (!is_static) patch_bytecode(Bytecodes::_fast_igetfield, Rbc, Rscratch); | |
2477 __ beq(CCR6, Lacquire); // Volatile? | |
2478 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2479 | |
2480 __ align(32, 28, 28); // Align load. | |
2481 // __ bind(Lltos); | |
2482 __ fence(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2483 assert(branch_table[ltos] == 0, "can't compute twice"); | |
2484 branch_table[ltos] = __ pc(); // non-volatile_entry point | |
2485 __ ldx(R17_tos, Rclass_or_obj, Roffset); | |
2486 __ push(ltos); | |
2487 if (!is_static) patch_bytecode(Bytecodes::_fast_lgetfield, Rbc, Rscratch); | |
2488 __ beq(CCR6, Lacquire); // Volatile? | |
2489 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2490 | |
2491 __ align(32, 28, 28); // Align load. | |
2492 // __ bind(Lbtos); | |
2493 __ fence(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2494 assert(branch_table[btos] == 0, "can't compute twice"); | |
2495 branch_table[btos] = __ pc(); // non-volatile_entry point | |
2496 __ lbzx(R17_tos, Rclass_or_obj, Roffset); | |
2497 __ extsb(R17_tos, R17_tos); | |
2498 __ push(btos); | |
2499 if (!is_static) patch_bytecode(Bytecodes::_fast_bgetfield, Rbc, Rscratch); | |
2500 __ beq(CCR6, Lacquire); // Volatile? | |
2501 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2502 | |
2503 __ align(32, 28, 28); // Align load. | |
2504 // __ bind(Lctos); | |
2505 __ fence(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2506 assert(branch_table[ctos] == 0, "can't compute twice"); | |
2507 branch_table[ctos] = __ pc(); // non-volatile_entry point | |
2508 __ lhzx(R17_tos, Rclass_or_obj, Roffset); | |
2509 __ push(ctos); | |
2510 if (!is_static) patch_bytecode(Bytecodes::_fast_cgetfield, Rbc, Rscratch); | |
2511 __ beq(CCR6, Lacquire); // Volatile? | |
2512 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2513 | |
2514 __ align(32, 28, 28); // Align load. | |
2515 // __ bind(Lstos); | |
2516 __ fence(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2517 assert(branch_table[stos] == 0, "can't compute twice"); | |
2518 branch_table[stos] = __ pc(); // non-volatile_entry point | |
2519 __ lhax(R17_tos, Rclass_or_obj, Roffset); | |
2520 __ push(stos); | |
2521 if (!is_static) patch_bytecode(Bytecodes::_fast_sgetfield, Rbc, Rscratch); | |
2522 __ beq(CCR6, Lacquire); // Volatile? | |
2523 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2524 | |
2525 __ align(32, 28, 28); // Align load. | |
2526 // __ bind(Latos); | |
2527 __ fence(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2528 assert(branch_table[atos] == 0, "can't compute twice"); | |
2529 branch_table[atos] = __ pc(); // non-volatile_entry point | |
2530 __ load_heap_oop(R17_tos, (RegisterOrConstant)Roffset, Rclass_or_obj); | |
2531 __ verify_oop(R17_tos); | |
2532 __ push(atos); | |
2533 //__ dcbt(R17_tos); // prefetch | |
2534 if (!is_static) patch_bytecode(Bytecodes::_fast_agetfield, Rbc, Rscratch); | |
2535 __ beq(CCR6, Lacquire); // Volatile? | |
2536 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2537 | |
2538 __ align(32, 12); | |
2539 __ bind(Lacquire); | |
2540 __ twi_0(R17_tos); | |
2541 __ bind(Lisync); | |
2542 __ isync(); // acquire | |
2543 | |
2544 #ifdef ASSERT | |
2545 for (int i = 0; i<number_of_states; ++i) { | |
2546 assert(branch_table[i], "get initialization"); | |
2547 //tty->print_cr("get: %s_branch_table[%d] = 0x%llx (opcode 0x%llx)", | |
2548 // is_static ? "static" : "field", i, branch_table[i], *((unsigned int*)branch_table[i])); | |
2549 } | |
2550 #endif | |
2551 } | |
2552 | |
2553 void TemplateTable::getfield(int byte_no) { | |
2554 getfield_or_static(byte_no, false); | |
2555 } | |
2556 | |
2557 void TemplateTable::getstatic(int byte_no) { | |
2558 getfield_or_static(byte_no, true); | |
2559 } | |
2560 | |
2561 // The registers cache and index expected to be set before call. | |
2562 // The function may destroy various registers, just not the cache and index registers. | |
2563 void TemplateTable::jvmti_post_field_mod(Register Rcache, Register Rscratch, bool is_static) { | |
2564 | |
2565 assert_different_registers(Rcache, Rscratch, R6_ARG4); | |
2566 | |
2567 if (JvmtiExport::can_post_field_modification()) { | |
2568 Label Lno_field_mod_post; | |
2569 | |
2570 // Check if post field access in enabled. | |
2571 int offs = __ load_const_optimized(Rscratch, JvmtiExport::get_field_modification_count_addr(), R0, true); | |
2572 __ lwz(Rscratch, offs, Rscratch); | |
2573 | |
2574 __ cmpwi(CCR0, Rscratch, 0); | |
2575 __ beq(CCR0, Lno_field_mod_post); | |
2576 | |
2577 // Do the post | |
2578 ByteSize cp_base_offset = ConstantPoolCache::base_offset(); | |
2579 const Register Robj = Rscratch; | |
2580 | |
2581 __ addi(Rcache, Rcache, in_bytes(cp_base_offset)); | |
2582 if (is_static) { | |
2583 // Life is simple. Null out the object pointer. | |
2584 __ li(Robj, 0); | |
2585 } else { | |
2586 // In case of the fast versions, value lives in registers => put it back on tos. | |
2587 int offs = Interpreter::expr_offset_in_bytes(0); | |
2588 Register base = R15_esp; | |
2589 switch(bytecode()) { | |
2590 case Bytecodes::_fast_aputfield: __ push_ptr(); offs+= Interpreter::stackElementSize; break; | |
2591 case Bytecodes::_fast_iputfield: // Fall through | |
2592 case Bytecodes::_fast_bputfield: // Fall through | |
2593 case Bytecodes::_fast_cputfield: // Fall through | |
2594 case Bytecodes::_fast_sputfield: __ push_i(); offs+= Interpreter::stackElementSize; break; | |
2595 case Bytecodes::_fast_lputfield: __ push_l(); offs+=2*Interpreter::stackElementSize; break; | |
2596 case Bytecodes::_fast_fputfield: __ push_f(); offs+= Interpreter::stackElementSize; break; | |
2597 case Bytecodes::_fast_dputfield: __ push_d(); offs+=2*Interpreter::stackElementSize; break; | |
2598 default: { | |
2599 offs = 0; | |
2600 base = Robj; | |
2601 const Register Rflags = Robj; | |
2602 Label is_one_slot; | |
2603 // Life is harder. The stack holds the value on top, followed by the | |
2604 // object. We don't know the size of the value, though; it could be | |
2605 // one or two words depending on its type. As a result, we must find | |
2606 // the type to determine where the object is. | |
2607 __ ld(Rflags, in_bytes(ConstantPoolCacheEntry::flags_offset()), Rcache); // Big Endian | |
2608 __ rldicl(Rflags, Rflags, 64-ConstantPoolCacheEntry::tos_state_shift, 64-ConstantPoolCacheEntry::tos_state_bits); | |
2609 | |
2610 __ cmpwi(CCR0, Rflags, ltos); | |
2611 __ cmpwi(CCR1, Rflags, dtos); | |
2612 __ addi(base, R15_esp, Interpreter::expr_offset_in_bytes(1)); | |
2613 __ crnor(/*CR0 eq*/2, /*CR1 eq*/4+2, /*CR0 eq*/2); | |
2614 __ beq(CCR0, is_one_slot); | |
2615 __ addi(base, R15_esp, Interpreter::expr_offset_in_bytes(2)); | |
2616 __ bind(is_one_slot); | |
2617 break; | |
2618 } | |
2619 } | |
2620 __ ld(Robj, offs, base); | |
2621 __ verify_oop(Robj); | |
2622 } | |
2623 | |
2624 __ addi(R6_ARG4, R15_esp, Interpreter::expr_offset_in_bytes(0)); | |
2625 __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::post_field_modification), Robj, Rcache, R6_ARG4); | |
2626 __ get_cache_and_index_at_bcp(Rcache, 1); | |
2627 | |
2628 // In case of the fast versions, value lives in registers => put it back on tos. | |
2629 switch(bytecode()) { | |
2630 case Bytecodes::_fast_aputfield: __ pop_ptr(); break; | |
2631 case Bytecodes::_fast_iputfield: // Fall through | |
2632 case Bytecodes::_fast_bputfield: // Fall through | |
2633 case Bytecodes::_fast_cputfield: // Fall through | |
2634 case Bytecodes::_fast_sputfield: __ pop_i(); break; | |
2635 case Bytecodes::_fast_lputfield: __ pop_l(); break; | |
2636 case Bytecodes::_fast_fputfield: __ pop_f(); break; | |
2637 case Bytecodes::_fast_dputfield: __ pop_d(); break; | |
2638 default: break; // Nothin' to do. | |
2639 } | |
2640 | |
2641 __ align(32, 12); | |
2642 __ bind(Lno_field_mod_post); | |
2643 } | |
2644 } | |
2645 | |
2646 // PPC64: implement volatile stores as release-store (return bytecode contains an additional release). | |
2647 void TemplateTable::putfield_or_static(int byte_no, bool is_static) { | |
2648 Label Lvolatile; | |
2649 | |
2650 const Register Rcache = R5_ARG3, // Do not use ARG1/2 (causes trouble in jvmti_post_field_mod). | |
2651 Rclass_or_obj = R31, // Needs to survive C call. | |
2652 Roffset = R22_tmp2, // Needs to survive C call. | |
2653 Rflags = R3_ARG1, | |
2654 Rbtable = R4_ARG2, | |
2655 Rscratch = R11_scratch1, | |
2656 Rscratch2 = R12_scratch2, | |
2657 Rscratch3 = R6_ARG4, | |
2658 Rbc = Rscratch3; | |
2659 const ConditionRegister CR_is_vol = CCR2; // Non-volatile condition register (survives runtime call in do_oop_store). | |
2660 | |
2661 static address field_branch_table[number_of_states], | |
2662 static_branch_table[number_of_states]; | |
2663 | |
2664 address* branch_table = is_static ? static_branch_table : field_branch_table; | |
2665 | |
2666 // Stack (grows up): | |
2667 // value | |
2668 // obj | |
2669 | |
2670 // Load the field offset. | |
2671 resolve_cache_and_index(byte_no, Rcache, Rscratch, sizeof(u2)); | |
2672 jvmti_post_field_mod(Rcache, Rscratch, is_static); | |
2673 load_field_cp_cache_entry(Rclass_or_obj, Rcache, noreg, Roffset, Rflags, is_static); | |
2674 | |
2675 // Load pointer to branch table. | |
2676 __ load_const_optimized(Rbtable, (address)branch_table, Rscratch); | |
2677 | |
2678 // Get volatile flag. | |
2679 __ rldicl(Rscratch, Rflags, 64-ConstantPoolCacheEntry::is_volatile_shift, 63); // Extract volatile bit. | |
2680 | |
2681 // Check the field type. | |
2682 __ rldicl(Rflags, Rflags, 64-ConstantPoolCacheEntry::tos_state_shift, 64-ConstantPoolCacheEntry::tos_state_bits); | |
2683 | |
2684 #ifdef ASSERT | |
2685 Label LFlagInvalid; | |
2686 __ cmpldi(CCR0, Rflags, number_of_states); | |
2687 __ bge(CCR0, LFlagInvalid); | |
2688 #endif | |
2689 | |
2690 // Load from branch table and dispatch (volatile case: one instruction ahead). | |
2691 __ sldi(Rflags, Rflags, LogBytesPerWord); | |
2692 if (!support_IRIW_for_not_multiple_copy_atomic_cpu) { __ cmpwi(CR_is_vol, Rscratch, 1); } // Volatile? | |
2693 __ sldi(Rscratch, Rscratch, exact_log2(BytesPerInstWord)); // Volatile? size of instruction 1 : 0. | |
2694 __ ldx(Rbtable, Rbtable, Rflags); | |
2695 | |
2696 __ subf(Rbtable, Rscratch, Rbtable); // Point to volatile/non-volatile entry point. | |
2697 __ mtctr(Rbtable); | |
2698 __ bctr(); | |
2699 | |
2700 #ifdef ASSERT | |
2701 __ bind(LFlagInvalid); | |
2702 __ stop("got invalid flag", 0x656); | |
2703 | |
2704 // __ bind(Lvtos); | |
2705 address pc_before_release = __ pc(); | |
2706 __ release(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2707 assert(__ pc() - pc_before_release == (ptrdiff_t)BytesPerInstWord, "must be single instruction"); | |
2708 assert(branch_table[vtos] == 0, "can't compute twice"); | |
2709 branch_table[vtos] = __ pc(); // non-volatile_entry point | |
2710 __ stop("vtos unexpected", 0x657); | |
2711 #endif | |
2712 | |
2713 __ align(32, 28, 28); // Align pop. | |
2714 // __ bind(Ldtos); | |
2715 __ release(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2716 assert(branch_table[dtos] == 0, "can't compute twice"); | |
2717 branch_table[dtos] = __ pc(); // non-volatile_entry point | |
2718 __ pop(dtos); | |
2719 if (!is_static) { pop_and_check_object(Rclass_or_obj); } // Kills R11_scratch1. | |
2720 __ stfdx(F15_ftos, Rclass_or_obj, Roffset); | |
2721 if (!is_static) { patch_bytecode(Bytecodes::_fast_dputfield, Rbc, Rscratch, true, byte_no); } | |
2722 if (!support_IRIW_for_not_multiple_copy_atomic_cpu) { | |
2723 __ beq(CR_is_vol, Lvolatile); // Volatile? | |
2724 } | |
2725 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2726 | |
2727 __ align(32, 28, 28); // Align pop. | |
2728 // __ bind(Lftos); | |
2729 __ release(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2730 assert(branch_table[ftos] == 0, "can't compute twice"); | |
2731 branch_table[ftos] = __ pc(); // non-volatile_entry point | |
2732 __ pop(ftos); | |
2733 if (!is_static) { pop_and_check_object(Rclass_or_obj); } // Kills R11_scratch1. | |
2734 __ stfsx(F15_ftos, Rclass_or_obj, Roffset); | |
2735 if (!is_static) { patch_bytecode(Bytecodes::_fast_fputfield, Rbc, Rscratch, true, byte_no); } | |
2736 if (!support_IRIW_for_not_multiple_copy_atomic_cpu) { | |
2737 __ beq(CR_is_vol, Lvolatile); // Volatile? | |
2738 } | |
2739 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2740 | |
2741 __ align(32, 28, 28); // Align pop. | |
2742 // __ bind(Litos); | |
2743 __ release(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2744 assert(branch_table[itos] == 0, "can't compute twice"); | |
2745 branch_table[itos] = __ pc(); // non-volatile_entry point | |
2746 __ pop(itos); | |
2747 if (!is_static) { pop_and_check_object(Rclass_or_obj); } // Kills R11_scratch1. | |
2748 __ stwx(R17_tos, Rclass_or_obj, Roffset); | |
2749 if (!is_static) { patch_bytecode(Bytecodes::_fast_iputfield, Rbc, Rscratch, true, byte_no); } | |
2750 if (!support_IRIW_for_not_multiple_copy_atomic_cpu) { | |
2751 __ beq(CR_is_vol, Lvolatile); // Volatile? | |
2752 } | |
2753 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2754 | |
2755 __ align(32, 28, 28); // Align pop. | |
2756 // __ bind(Lltos); | |
2757 __ release(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2758 assert(branch_table[ltos] == 0, "can't compute twice"); | |
2759 branch_table[ltos] = __ pc(); // non-volatile_entry point | |
2760 __ pop(ltos); | |
2761 if (!is_static) { pop_and_check_object(Rclass_or_obj); } // Kills R11_scratch1. | |
2762 __ stdx(R17_tos, Rclass_or_obj, Roffset); | |
2763 if (!is_static) { patch_bytecode(Bytecodes::_fast_lputfield, Rbc, Rscratch, true, byte_no); } | |
2764 if (!support_IRIW_for_not_multiple_copy_atomic_cpu) { | |
2765 __ beq(CR_is_vol, Lvolatile); // Volatile? | |
2766 } | |
2767 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2768 | |
2769 __ align(32, 28, 28); // Align pop. | |
2770 // __ bind(Lbtos); | |
2771 __ release(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2772 assert(branch_table[btos] == 0, "can't compute twice"); | |
2773 branch_table[btos] = __ pc(); // non-volatile_entry point | |
2774 __ pop(btos); | |
2775 if (!is_static) { pop_and_check_object(Rclass_or_obj); } // Kills R11_scratch1. | |
2776 __ stbx(R17_tos, Rclass_or_obj, Roffset); | |
2777 if (!is_static) { patch_bytecode(Bytecodes::_fast_bputfield, Rbc, Rscratch, true, byte_no); } | |
2778 if (!support_IRIW_for_not_multiple_copy_atomic_cpu) { | |
2779 __ beq(CR_is_vol, Lvolatile); // Volatile? | |
2780 } | |
2781 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2782 | |
2783 __ align(32, 28, 28); // Align pop. | |
2784 // __ bind(Lctos); | |
2785 __ release(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2786 assert(branch_table[ctos] == 0, "can't compute twice"); | |
2787 branch_table[ctos] = __ pc(); // non-volatile_entry point | |
2788 __ pop(ctos); | |
2789 if (!is_static) { pop_and_check_object(Rclass_or_obj); } // Kills R11_scratch1.. | |
2790 __ sthx(R17_tos, Rclass_or_obj, Roffset); | |
2791 if (!is_static) { patch_bytecode(Bytecodes::_fast_cputfield, Rbc, Rscratch, true, byte_no); } | |
2792 if (!support_IRIW_for_not_multiple_copy_atomic_cpu) { | |
2793 __ beq(CR_is_vol, Lvolatile); // Volatile? | |
2794 } | |
2795 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2796 | |
2797 __ align(32, 28, 28); // Align pop. | |
2798 // __ bind(Lstos); | |
2799 __ release(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2800 assert(branch_table[stos] == 0, "can't compute twice"); | |
2801 branch_table[stos] = __ pc(); // non-volatile_entry point | |
2802 __ pop(stos); | |
2803 if (!is_static) { pop_and_check_object(Rclass_or_obj); } // Kills R11_scratch1. | |
2804 __ sthx(R17_tos, Rclass_or_obj, Roffset); | |
2805 if (!is_static) { patch_bytecode(Bytecodes::_fast_sputfield, Rbc, Rscratch, true, byte_no); } | |
2806 if (!support_IRIW_for_not_multiple_copy_atomic_cpu) { | |
2807 __ beq(CR_is_vol, Lvolatile); // Volatile? | |
2808 } | |
2809 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2810 | |
2811 __ align(32, 28, 28); // Align pop. | |
2812 // __ bind(Latos); | |
2813 __ release(); // Volatile entry point (one instruction before non-volatile_entry point). | |
2814 assert(branch_table[atos] == 0, "can't compute twice"); | |
2815 branch_table[atos] = __ pc(); // non-volatile_entry point | |
2816 __ pop(atos); | |
2817 if (!is_static) { pop_and_check_object(Rclass_or_obj); } // kills R11_scratch1 | |
2818 do_oop_store(_masm, Rclass_or_obj, Roffset, R17_tos, Rscratch, Rscratch2, Rscratch3, _bs->kind(), false /* precise */, true /* check null */); | |
2819 if (!is_static) { patch_bytecode(Bytecodes::_fast_aputfield, Rbc, Rscratch, true, byte_no); } | |
2820 if (!support_IRIW_for_not_multiple_copy_atomic_cpu) { | |
2821 __ beq(CR_is_vol, Lvolatile); // Volatile? | |
2822 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2823 | |
2824 __ align(32, 12); | |
2825 __ bind(Lvolatile); | |
2826 __ fence(); | |
2827 } | |
2828 // fallthru: __ b(Lexit); | |
2829 | |
2830 #ifdef ASSERT | |
2831 for (int i = 0; i<number_of_states; ++i) { | |
2832 assert(branch_table[i], "put initialization"); | |
2833 //tty->print_cr("put: %s_branch_table[%d] = 0x%llx (opcode 0x%llx)", | |
2834 // is_static ? "static" : "field", i, branch_table[i], *((unsigned int*)branch_table[i])); | |
2835 } | |
2836 #endif | |
2837 } | |
2838 | |
2839 void TemplateTable::putfield(int byte_no) { | |
2840 putfield_or_static(byte_no, false); | |
2841 } | |
2842 | |
2843 void TemplateTable::putstatic(int byte_no) { | |
2844 putfield_or_static(byte_no, true); | |
2845 } | |
2846 | |
2847 // See SPARC. On PPC64, we have a different jvmti_post_field_mod which does the job. | |
2848 void TemplateTable::jvmti_post_fast_field_mod() { | |
2849 __ should_not_reach_here(); | |
2850 } | |
2851 | |
2852 void TemplateTable::fast_storefield(TosState state) { | |
2853 transition(state, vtos); | |
2854 | |
2855 const Register Rcache = R5_ARG3, // Do not use ARG1/2 (causes trouble in jvmti_post_field_mod). | |
2856 Rclass_or_obj = R31, // Needs to survive C call. | |
2857 Roffset = R22_tmp2, // Needs to survive C call. | |
2858 Rflags = R3_ARG1, | |
2859 Rscratch = R11_scratch1, | |
2860 Rscratch2 = R12_scratch2, | |
2861 Rscratch3 = R4_ARG2; | |
2862 const ConditionRegister CR_is_vol = CCR2; // Non-volatile condition register (survives runtime call in do_oop_store). | |
2863 | |
2864 // Constant pool already resolved => Load flags and offset of field. | |
2865 __ get_cache_and_index_at_bcp(Rcache, 1); | |
2866 jvmti_post_field_mod(Rcache, Rscratch, false /* not static */); | |
2867 load_field_cp_cache_entry(noreg, Rcache, noreg, Roffset, Rflags, false); | |
2868 | |
2869 // Get the obj and the final store addr. | |
2870 pop_and_check_object(Rclass_or_obj); // Kills R11_scratch1. | |
2871 | |
2872 // Get volatile flag. | |
2873 __ rldicl_(Rscratch, Rflags, 64-ConstantPoolCacheEntry::is_volatile_shift, 63); // Extract volatile bit. | |
2874 if (!support_IRIW_for_not_multiple_copy_atomic_cpu) { __ cmpdi(CR_is_vol, Rscratch, 1); } | |
2875 { | |
2876 Label LnotVolatile; | |
2877 __ beq(CCR0, LnotVolatile); | |
2878 __ release(); | |
2879 __ align(32, 12); | |
2880 __ bind(LnotVolatile); | |
2881 } | |
2882 | |
2883 // Do the store and fencing. | |
2884 switch(bytecode()) { | |
2885 case Bytecodes::_fast_aputfield: | |
2886 // Store into the field. | |
2887 do_oop_store(_masm, Rclass_or_obj, Roffset, R17_tos, Rscratch, Rscratch2, Rscratch3, _bs->kind(), false /* precise */, true /* check null */); | |
2888 break; | |
2889 | |
2890 case Bytecodes::_fast_iputfield: | |
2891 __ stwx(R17_tos, Rclass_or_obj, Roffset); | |
2892 break; | |
2893 | |
2894 case Bytecodes::_fast_lputfield: | |
2895 __ stdx(R17_tos, Rclass_or_obj, Roffset); | |
2896 break; | |
2897 | |
2898 case Bytecodes::_fast_bputfield: | |
2899 __ stbx(R17_tos, Rclass_or_obj, Roffset); | |
2900 break; | |
2901 | |
2902 case Bytecodes::_fast_cputfield: | |
2903 case Bytecodes::_fast_sputfield: | |
2904 __ sthx(R17_tos, Rclass_or_obj, Roffset); | |
2905 break; | |
2906 | |
2907 case Bytecodes::_fast_fputfield: | |
2908 __ stfsx(F15_ftos, Rclass_or_obj, Roffset); | |
2909 break; | |
2910 | |
2911 case Bytecodes::_fast_dputfield: | |
2912 __ stfdx(F15_ftos, Rclass_or_obj, Roffset); | |
2913 break; | |
2914 | |
2915 default: ShouldNotReachHere(); | |
2916 } | |
2917 | |
2918 if (!support_IRIW_for_not_multiple_copy_atomic_cpu) { | |
2919 Label LVolatile; | |
2920 __ beq(CR_is_vol, LVolatile); | |
2921 __ dispatch_epilog(vtos, Bytecodes::length_for(bytecode())); | |
2922 | |
2923 __ align(32, 12); | |
2924 __ bind(LVolatile); | |
2925 __ fence(); | |
2926 } | |
2927 } | |
2928 | |
2929 void TemplateTable::fast_accessfield(TosState state) { | |
2930 transition(atos, state); | |
2931 | |
2932 Label LisVolatile; | |
2933 ByteSize cp_base_offset = ConstantPoolCache::base_offset(); | |
2934 | |
2935 const Register Rcache = R3_ARG1, | |
2936 Rclass_or_obj = R17_tos, | |
2937 Roffset = R22_tmp2, | |
2938 Rflags = R23_tmp3, | |
2939 Rscratch = R12_scratch2; | |
2940 | |
2941 // Constant pool already resolved. Get the field offset. | |
2942 __ get_cache_and_index_at_bcp(Rcache, 1); | |
2943 load_field_cp_cache_entry(noreg, Rcache, noreg, Roffset, Rflags, false); | |
2944 | |
2945 // JVMTI support | |
2946 jvmti_post_field_access(Rcache, Rscratch, false, true); | |
2947 | |
2948 // Get the load address. | |
2949 __ null_check_throw(Rclass_or_obj, -1, Rscratch); | |
2950 | |
2951 // Get volatile flag. | |
2952 __ rldicl_(Rscratch, Rflags, 64-ConstantPoolCacheEntry::is_volatile_shift, 63); // Extract volatile bit. | |
2953 __ bne(CCR0, LisVolatile); | |
2954 | |
2955 switch(bytecode()) { | |
2956 case Bytecodes::_fast_agetfield: | |
2957 { | |
2958 __ load_heap_oop(R17_tos, (RegisterOrConstant)Roffset, Rclass_or_obj); | |
2959 __ verify_oop(R17_tos); | |
2960 __ dispatch_epilog(state, Bytecodes::length_for(bytecode())); | |
2961 | |
2962 __ bind(LisVolatile); | |
2963 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { __ fence(); } | |
2964 __ load_heap_oop(R17_tos, (RegisterOrConstant)Roffset, Rclass_or_obj); | |
2965 __ verify_oop(R17_tos); | |
2966 __ twi_0(R17_tos); | |
2967 __ isync(); | |
2968 break; | |
2969 } | |
2970 case Bytecodes::_fast_igetfield: | |
2971 { | |
2972 __ lwax(R17_tos, Rclass_or_obj, Roffset); | |
2973 __ dispatch_epilog(state, Bytecodes::length_for(bytecode())); | |
2974 | |
2975 __ bind(LisVolatile); | |
2976 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { __ fence(); } | |
2977 __ lwax(R17_tos, Rclass_or_obj, Roffset); | |
2978 __ twi_0(R17_tos); | |
2979 __ isync(); | |
2980 break; | |
2981 } | |
2982 case Bytecodes::_fast_lgetfield: | |
2983 { | |
2984 __ ldx(R17_tos, Rclass_or_obj, Roffset); | |
2985 __ dispatch_epilog(state, Bytecodes::length_for(bytecode())); | |
2986 | |
2987 __ bind(LisVolatile); | |
2988 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { __ fence(); } | |
2989 __ ldx(R17_tos, Rclass_or_obj, Roffset); | |
2990 __ twi_0(R17_tos); | |
2991 __ isync(); | |
2992 break; | |
2993 } | |
2994 case Bytecodes::_fast_bgetfield: | |
2995 { | |
2996 __ lbzx(R17_tos, Rclass_or_obj, Roffset); | |
2997 __ extsb(R17_tos, R17_tos); | |
2998 __ dispatch_epilog(state, Bytecodes::length_for(bytecode())); | |
2999 | |
3000 __ bind(LisVolatile); | |
3001 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { __ fence(); } | |
3002 __ lbzx(R17_tos, Rclass_or_obj, Roffset); | |
3003 __ twi_0(R17_tos); | |
3004 __ extsb(R17_tos, R17_tos); | |
3005 __ isync(); | |
3006 break; | |
3007 } | |
3008 case Bytecodes::_fast_cgetfield: | |
3009 { | |
3010 __ lhzx(R17_tos, Rclass_or_obj, Roffset); | |
3011 __ dispatch_epilog(state, Bytecodes::length_for(bytecode())); | |
3012 | |
3013 __ bind(LisVolatile); | |
3014 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { __ fence(); } | |
3015 __ lhzx(R17_tos, Rclass_or_obj, Roffset); | |
3016 __ twi_0(R17_tos); | |
3017 __ isync(); | |
3018 break; | |
3019 } | |
3020 case Bytecodes::_fast_sgetfield: | |
3021 { | |
3022 __ lhax(R17_tos, Rclass_or_obj, Roffset); | |
3023 __ dispatch_epilog(state, Bytecodes::length_for(bytecode())); | |
3024 | |
3025 __ bind(LisVolatile); | |
3026 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { __ fence(); } | |
3027 __ lhax(R17_tos, Rclass_or_obj, Roffset); | |
3028 __ twi_0(R17_tos); | |
3029 __ isync(); | |
3030 break; | |
3031 } | |
3032 case Bytecodes::_fast_fgetfield: | |
3033 { | |
3034 __ lfsx(F15_ftos, Rclass_or_obj, Roffset); | |
3035 __ dispatch_epilog(state, Bytecodes::length_for(bytecode())); | |
3036 | |
3037 __ bind(LisVolatile); | |
3038 Label Ldummy; | |
3039 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { __ fence(); } | |
3040 __ lfsx(F15_ftos, Rclass_or_obj, Roffset); | |
3041 __ fcmpu(CCR0, F15_ftos, F15_ftos); // Acquire by cmp-br-isync. | |
3042 __ bne_predict_not_taken(CCR0, Ldummy); | |
3043 __ bind(Ldummy); | |
3044 __ isync(); | |
3045 break; | |
3046 } | |
3047 case Bytecodes::_fast_dgetfield: | |
3048 { | |
3049 __ lfdx(F15_ftos, Rclass_or_obj, Roffset); | |
3050 __ dispatch_epilog(state, Bytecodes::length_for(bytecode())); | |
3051 | |
3052 __ bind(LisVolatile); | |
3053 Label Ldummy; | |
3054 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { __ fence(); } | |
3055 __ lfdx(F15_ftos, Rclass_or_obj, Roffset); | |
3056 __ fcmpu(CCR0, F15_ftos, F15_ftos); // Acquire by cmp-br-isync. | |
3057 __ bne_predict_not_taken(CCR0, Ldummy); | |
3058 __ bind(Ldummy); | |
3059 __ isync(); | |
3060 break; | |
3061 } | |
3062 default: ShouldNotReachHere(); | |
3063 } | |
3064 } | |
3065 | |
3066 void TemplateTable::fast_xaccess(TosState state) { | |
3067 transition(vtos, state); | |
3068 | |
3069 Label LisVolatile; | |
3070 ByteSize cp_base_offset = ConstantPoolCache::base_offset(); | |
3071 const Register Rcache = R3_ARG1, | |
3072 Rclass_or_obj = R17_tos, | |
3073 Roffset = R22_tmp2, | |
3074 Rflags = R23_tmp3, | |
3075 Rscratch = R12_scratch2; | |
3076 | |
3077 __ ld(Rclass_or_obj, 0, R18_locals); | |
3078 | |
3079 // Constant pool already resolved. Get the field offset. | |
3080 __ get_cache_and_index_at_bcp(Rcache, 2); | |
3081 load_field_cp_cache_entry(noreg, Rcache, noreg, Roffset, Rflags, false); | |
3082 | |
3083 // JVMTI support not needed, since we switch back to single bytecode as soon as debugger attaches. | |
3084 | |
3085 // Needed to report exception at the correct bcp. | |
3086 __ addi(R14_bcp, R14_bcp, 1); | |
3087 | |
3088 // Get the load address. | |
3089 __ null_check_throw(Rclass_or_obj, -1, Rscratch); | |
3090 | |
3091 // Get volatile flag. | |
3092 __ rldicl_(Rscratch, Rflags, 64-ConstantPoolCacheEntry::is_volatile_shift, 63); // Extract volatile bit. | |
3093 __ bne(CCR0, LisVolatile); | |
3094 | |
3095 switch(state) { | |
3096 case atos: | |
3097 { | |
3098 __ load_heap_oop(R17_tos, (RegisterOrConstant)Roffset, Rclass_or_obj); | |
3099 __ verify_oop(R17_tos); | |
3100 __ dispatch_epilog(state, Bytecodes::length_for(bytecode()) - 1); // Undo bcp increment. | |
3101 | |
3102 __ bind(LisVolatile); | |
3103 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { __ fence(); } | |
3104 __ load_heap_oop(R17_tos, (RegisterOrConstant)Roffset, Rclass_or_obj); | |
3105 __ verify_oop(R17_tos); | |
3106 __ twi_0(R17_tos); | |
3107 __ isync(); | |
3108 break; | |
3109 } | |
3110 case itos: | |
3111 { | |
3112 __ lwax(R17_tos, Rclass_or_obj, Roffset); | |
3113 __ dispatch_epilog(state, Bytecodes::length_for(bytecode()) - 1); // Undo bcp increment. | |
3114 | |
3115 __ bind(LisVolatile); | |
3116 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { __ fence(); } | |
3117 __ lwax(R17_tos, Rclass_or_obj, Roffset); | |
3118 __ twi_0(R17_tos); | |
3119 __ isync(); | |
3120 break; | |
3121 } | |
3122 case ftos: | |
3123 { | |
3124 __ lfsx(F15_ftos, Rclass_or_obj, Roffset); | |
3125 __ dispatch_epilog(state, Bytecodes::length_for(bytecode()) - 1); // Undo bcp increment. | |
3126 | |
3127 __ bind(LisVolatile); | |
3128 Label Ldummy; | |
3129 if (support_IRIW_for_not_multiple_copy_atomic_cpu) { __ fence(); } | |
3130 __ lfsx(F15_ftos, Rclass_or_obj, Roffset); | |
3131 __ fcmpu(CCR0, F15_ftos, F15_ftos); // Acquire by cmp-br-isync. | |
3132 __ bne_predict_not_taken(CCR0, Ldummy); | |
3133 __ bind(Ldummy); | |
3134 __ isync(); | |
3135 break; | |
3136 } | |
3137 default: ShouldNotReachHere(); | |
3138 } | |
3139 __ addi(R14_bcp, R14_bcp, -1); | |
3140 } | |
3141 | |
3142 // ============================================================================ | |
3143 // Calls | |
3144 | |
3145 // Common code for invoke | |
3146 // | |
3147 // Input: | |
3148 // - byte_no | |
3149 // | |
3150 // Output: | |
3151 // - Rmethod: The method to invoke next. | |
3152 // - Rret_addr: The return address to return to. | |
3153 // - Rindex: MethodType (invokehandle) or CallSite obj (invokedynamic) | |
3154 // - Rrecv: Cache for "this" pointer, might be noreg if static call. | |
3155 // - Rflags: Method flags from const pool cache. | |
3156 // | |
3157 // Kills: | |
3158 // - Rscratch1 | |
3159 // | |
3160 void TemplateTable::prepare_invoke(int byte_no, | |
3161 Register Rmethod, // linked method (or i-klass) | |
3162 Register Rret_addr,// return address | |
3163 Register Rindex, // itable index, MethodType, etc. | |
3164 Register Rrecv, // If caller wants to see it. | |
3165 Register Rflags, // If caller wants to test it. | |
3166 Register Rscratch | |
3167 ) { | |
3168 // Determine flags. | |
3169 const Bytecodes::Code code = bytecode(); | |
3170 const bool is_invokeinterface = code == Bytecodes::_invokeinterface; | |
3171 const bool is_invokedynamic = code == Bytecodes::_invokedynamic; | |
3172 const bool is_invokehandle = code == Bytecodes::_invokehandle; | |
3173 const bool is_invokevirtual = code == Bytecodes::_invokevirtual; | |
3174 const bool is_invokespecial = code == Bytecodes::_invokespecial; | |
3175 const bool load_receiver = (Rrecv != noreg); | |
3176 assert(load_receiver == (code != Bytecodes::_invokestatic && code != Bytecodes::_invokedynamic), ""); | |
3177 | |
3178 assert_different_registers(Rmethod, Rindex, Rflags, Rscratch); | |
3179 assert_different_registers(Rmethod, Rrecv, Rflags, Rscratch); | |
3180 assert_different_registers(Rret_addr, Rscratch); | |
3181 | |
3182 load_invoke_cp_cache_entry(byte_no, Rmethod, Rindex, Rflags, is_invokevirtual, false, is_invokedynamic); | |
3183 | |
3184 // Saving of SP done in call_from_interpreter. | |
3185 | |
3186 // Maybe push "appendix" to arguments. | |
3187 if (is_invokedynamic || is_invokehandle) { | |
3188 Label Ldone; | |
3189 __ rldicl_(R0, Rflags, 64-ConstantPoolCacheEntry::has_appendix_shift, 63); | |
3190 __ beq(CCR0, Ldone); | |
3191 // Push "appendix" (MethodType, CallSite, etc.). | |
3192 // This must be done before we get the receiver, | |
3193 // since the parameter_size includes it. | |
3194 __ load_resolved_reference_at_index(Rscratch, Rindex); | |
3195 __ verify_oop(Rscratch); | |
3196 __ push_ptr(Rscratch); | |
3197 __ bind(Ldone); | |
3198 } | |
3199 | |
3200 // Load receiver if needed (after appendix is pushed so parameter size is correct). | |
3201 if (load_receiver) { | |
3202 const Register Rparam_count = Rscratch; | |
3203 __ andi(Rparam_count, Rflags, ConstantPoolCacheEntry::parameter_size_mask); | |
3204 __ load_receiver(Rparam_count, Rrecv); | |
3205 __ verify_oop(Rrecv); | |
3206 } | |
3207 | |
3208 // Get return address. | |
3209 { | |
3210 Register Rtable_addr = Rscratch; | |
3211 Register Rret_type = Rret_addr; | |
3212 address table_addr = (address) Interpreter::invoke_return_entry_table_for(code); | |
3213 | |
3214 // Get return type. It's coded into the upper 4 bits of the lower half of the 64 bit value. | |
3215 __ rldicl(Rret_type, Rflags, 64-ConstantPoolCacheEntry::tos_state_shift, 64-ConstantPoolCacheEntry::tos_state_bits); | |
3216 __ load_dispatch_table(Rtable_addr, (address*)table_addr); | |
3217 __ sldi(Rret_type, Rret_type, LogBytesPerWord); | |
3218 // Get return address. | |
3219 __ ldx(Rret_addr, Rtable_addr, Rret_type); | |
3220 } | |
3221 } | |
3222 | |
3223 // Helper for virtual calls. Load target out of vtable and jump off! | |
3224 // Kills all passed registers. | |
3225 void TemplateTable::generate_vtable_call(Register Rrecv_klass, Register Rindex, Register Rret, Register Rtemp) { | |
3226 | |
3227 assert_different_registers(Rrecv_klass, Rtemp, Rret); | |
3228 const Register Rtarget_method = Rindex; | |
3229 | |
3230 // Get target method & entry point. | |
3231 const int base = InstanceKlass::vtable_start_offset() * wordSize; | |
3232 // Calc vtable addr scale the vtable index by 8. | |
3233 __ sldi(Rindex, Rindex, exact_log2(vtableEntry::size() * wordSize)); | |
3234 // Load target. | |
3235 __ addi(Rrecv_klass, Rrecv_klass, base + vtableEntry::method_offset_in_bytes()); | |
3236 __ ldx(Rtarget_method, Rindex, Rrecv_klass); | |
20710
c5e86c5cd22e
8066964: ppc64: argument and return type profiling, fix problem with popframe
goetz
parents:
20508
diff
changeset
|
3237 // Argument and return type profiling. |
c5e86c5cd22e
8066964: ppc64: argument and return type profiling, fix problem with popframe
goetz
parents:
20508
diff
changeset
|
3238 __ profile_arguments_type(Rtarget_method, Rrecv_klass /* scratch1 */, Rtemp /* scratch2 */, true); |
17804 | 3239 __ call_from_interpreter(Rtarget_method, Rret, Rrecv_klass /* scratch1 */, Rtemp /* scratch2 */); |
3240 } | |
3241 | |
3242 // Virtual or final call. Final calls are rewritten on the fly to run through "fast_finalcall" next time. | |
3243 void TemplateTable::invokevirtual(int byte_no) { | |
3244 transition(vtos, vtos); | |
3245 | |
3246 Register Rtable_addr = R11_scratch1, | |
3247 Rret_type = R12_scratch2, | |
3248 Rret_addr = R5_ARG3, | |
3249 Rflags = R22_tmp2, // Should survive C call. | |
3250 Rrecv = R3_ARG1, | |
3251 Rrecv_klass = Rrecv, | |
3252 Rvtableindex_or_method = R31, // Should survive C call. | |
3253 Rnum_params = R4_ARG2, | |
3254 Rnew_bc = R6_ARG4; | |
3255 | |
3256 Label LnotFinal; | |
3257 | |
3258 load_invoke_cp_cache_entry(byte_no, Rvtableindex_or_method, noreg, Rflags, /*virtual*/ true, false, false); | |
3259 | |
3260 __ testbitdi(CCR0, R0, Rflags, ConstantPoolCacheEntry::is_vfinal_shift); | |
3261 __ bfalse(CCR0, LnotFinal); | |
3262 | |
3263 patch_bytecode(Bytecodes::_fast_invokevfinal, Rnew_bc, R12_scratch2); | |
3264 invokevfinal_helper(Rvtableindex_or_method, Rflags, R11_scratch1, R12_scratch2); | |
3265 | |
3266 __ align(32, 12); | |
3267 __ bind(LnotFinal); | |
3268 // Load "this" pointer (receiver). | |
3269 __ rldicl(Rnum_params, Rflags, 64, 48); | |
3270 __ load_receiver(Rnum_params, Rrecv); | |
3271 __ verify_oop(Rrecv); | |
3272 | |
3273 // Get return type. It's coded into the upper 4 bits of the lower half of the 64 bit value. | |
3274 __ rldicl(Rret_type, Rflags, 64-ConstantPoolCacheEntry::tos_state_shift, 64-ConstantPoolCacheEntry::tos_state_bits); | |
3275 __ load_dispatch_table(Rtable_addr, Interpreter::invoke_return_entry_table()); | |
3276 __ sldi(Rret_type, Rret_type, LogBytesPerWord); | |
3277 __ ldx(Rret_addr, Rret_type, Rtable_addr); | |
3278 __ null_check_throw(Rrecv, oopDesc::klass_offset_in_bytes(), R11_scratch1); | |
3279 __ load_klass(Rrecv_klass, Rrecv); | |
3280 __ verify_klass_ptr(Rrecv_klass); | |
3281 __ profile_virtual_call(Rrecv_klass, R11_scratch1, R12_scratch2, false); | |
3282 | |
3283 generate_vtable_call(Rrecv_klass, Rvtableindex_or_method, Rret_addr, R11_scratch1); | |
3284 } | |
3285 | |
3286 void TemplateTable::fast_invokevfinal(int byte_no) { | |
3287 transition(vtos, vtos); | |
3288 | |
3289 assert(byte_no == f2_byte, "use this argument"); | |
3290 Register Rflags = R22_tmp2, | |
3291 Rmethod = R31; | |
3292 load_invoke_cp_cache_entry(byte_no, Rmethod, noreg, Rflags, /*virtual*/ true, /*is_invokevfinal*/ true, false); | |
3293 invokevfinal_helper(Rmethod, Rflags, R11_scratch1, R12_scratch2); | |
3294 } | |
3295 | |
3296 void TemplateTable::invokevfinal_helper(Register Rmethod, Register Rflags, Register Rscratch1, Register Rscratch2) { | |
3297 | |
3298 assert_different_registers(Rmethod, Rflags, Rscratch1, Rscratch2); | |
3299 | |
3300 // Load receiver from stack slot. | |
3301 Register Rrecv = Rscratch2; | |
3302 Register Rnum_params = Rrecv; | |
3303 | |
3304 __ ld(Rnum_params, in_bytes(Method::const_offset()), Rmethod); | |
3305 __ lhz(Rnum_params /* number of params */, in_bytes(ConstMethod::size_of_parameters_offset()), Rnum_params); | |
3306 | |
3307 // Get return address. | |
3308 Register Rtable_addr = Rscratch1, | |
3309 Rret_addr = Rflags, | |
3310 Rret_type = Rret_addr; | |
3311 // Get return type. It's coded into the upper 4 bits of the lower half of the 64 bit value. | |
3312 __ rldicl(Rret_type, Rflags, 64-ConstantPoolCacheEntry::tos_state_shift, 64-ConstantPoolCacheEntry::tos_state_bits); | |
3313 __ load_dispatch_table(Rtable_addr, Interpreter::invoke_return_entry_table()); | |
3314 __ sldi(Rret_type, Rret_type, LogBytesPerWord); | |
3315 __ ldx(Rret_addr, Rret_type, Rtable_addr); | |
3316 | |
3317 // Load receiver and receiver NULL check. | |
3318 __ load_receiver(Rnum_params, Rrecv); | |
3319 __ null_check_throw(Rrecv, -1, Rscratch1); | |
3320 | |
3321 __ profile_final_call(Rrecv, Rscratch1); | |
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3322 // Argument and return type profiling. |
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3323 __ profile_arguments_type(Rmethod, Rscratch1, Rscratch2, true); |
17804 | 3324 |
3325 // Do the call. | |
3326 __ call_from_interpreter(Rmethod, Rret_addr, Rscratch1, Rscratch2); | |
3327 } | |
3328 | |
3329 void TemplateTable::invokespecial(int byte_no) { | |
3330 assert(byte_no == f1_byte, "use this argument"); | |
3331 transition(vtos, vtos); | |
3332 | |
3333 Register Rtable_addr = R3_ARG1, | |
3334 Rret_addr = R4_ARG2, | |
3335 Rflags = R5_ARG3, | |
3336 Rreceiver = R6_ARG4, | |
3337 Rmethod = R31; | |
3338 | |
3339 prepare_invoke(byte_no, Rmethod, Rret_addr, noreg, Rreceiver, Rflags, R11_scratch1); | |
3340 | |
3341 // Receiver NULL check. | |
3342 __ null_check_throw(Rreceiver, -1, R11_scratch1); | |
3343 | |
3344 __ profile_call(R11_scratch1, R12_scratch2); | |
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3345 // Argument and return type profiling. |
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3346 __ profile_arguments_type(Rmethod, R11_scratch1, R12_scratch2, false); |
17804 | 3347 __ call_from_interpreter(Rmethod, Rret_addr, R11_scratch1, R12_scratch2); |
3348 } | |
3349 | |
3350 void TemplateTable::invokestatic(int byte_no) { | |
3351 assert(byte_no == f1_byte, "use this argument"); | |
3352 transition(vtos, vtos); | |
3353 | |
3354 Register Rtable_addr = R3_ARG1, | |
3355 Rret_addr = R4_ARG2, | |
3356 Rflags = R5_ARG3; | |
3357 | |
3358 prepare_invoke(byte_no, R19_method, Rret_addr, noreg, noreg, Rflags, R11_scratch1); | |
3359 | |
3360 __ profile_call(R11_scratch1, R12_scratch2); | |
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3361 // Argument and return type profiling. |
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3362 __ profile_arguments_type(R19_method, R11_scratch1, R12_scratch2, false); |
17804 | 3363 __ call_from_interpreter(R19_method, Rret_addr, R11_scratch1, R12_scratch2); |
3364 } | |
3365 | |
3366 void TemplateTable::invokeinterface_object_method(Register Rrecv_klass, | |
3367 Register Rret, | |
3368 Register Rflags, | |
3369 Register Rindex, | |
3370 Register Rtemp1, | |
3371 Register Rtemp2) { | |
3372 | |
3373 assert_different_registers(Rindex, Rret, Rrecv_klass, Rflags, Rtemp1, Rtemp2); | |
3374 Label LnotFinal; | |
3375 | |
3376 // Check for vfinal. | |
3377 __ testbitdi(CCR0, R0, Rflags, ConstantPoolCacheEntry::is_vfinal_shift); | |
3378 __ bfalse(CCR0, LnotFinal); | |
3379 | |
3380 Register Rscratch = Rflags; // Rflags is dead now. | |
3381 | |
3382 // Final call case. | |
3383 __ profile_final_call(Rtemp1, Rscratch); | |
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3384 // Argument and return type profiling. |
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3385 __ profile_arguments_type(Rindex, Rscratch, Rrecv_klass /* scratch */, true); |
17804 | 3386 // Do the final call - the index (f2) contains the method. |
3387 __ call_from_interpreter(Rindex, Rret, Rscratch, Rrecv_klass /* scratch */); | |
3388 | |
3389 // Non-final callc case. | |
3390 __ bind(LnotFinal); | |
3391 __ profile_virtual_call(Rrecv_klass, Rtemp1, Rscratch, false); | |
3392 generate_vtable_call(Rrecv_klass, Rindex, Rret, Rscratch); | |
3393 } | |
3394 | |
3395 void TemplateTable::invokeinterface(int byte_no) { | |
3396 assert(byte_no == f1_byte, "use this argument"); | |
3397 transition(vtos, vtos); | |
3398 | |
3399 const Register Rscratch1 = R11_scratch1, | |
3400 Rscratch2 = R12_scratch2, | |
3401 Rscratch3 = R9_ARG7, | |
3402 Rscratch4 = R10_ARG8, | |
3403 Rtable_addr = Rscratch2, | |
3404 Rinterface_klass = R5_ARG3, | |
3405 Rret_type = R8_ARG6, | |
3406 Rret_addr = Rret_type, | |
3407 Rindex = R6_ARG4, | |
3408 Rreceiver = R4_ARG2, | |
3409 Rrecv_klass = Rreceiver, | |
3410 Rflags = R7_ARG5; | |
3411 | |
3412 prepare_invoke(byte_no, Rinterface_klass, Rret_addr, Rindex, Rreceiver, Rflags, Rscratch1); | |
3413 | |
3414 // Get receiver klass. | |
3415 __ null_check_throw(Rreceiver, oopDesc::klass_offset_in_bytes(), Rscratch3); | |
3416 __ load_klass(Rrecv_klass, Rreceiver); | |
3417 | |
3418 // Check corner case object method. | |
3419 Label LobjectMethod; | |
3420 | |
3421 __ testbitdi(CCR0, R0, Rflags, ConstantPoolCacheEntry::is_forced_virtual_shift); | |
3422 __ btrue(CCR0, LobjectMethod); | |
3423 | |
3424 // Fallthrough: The normal invokeinterface case. | |
3425 __ profile_virtual_call(Rrecv_klass, Rscratch1, Rscratch2, false); | |
3426 | |
3427 // Find entry point to call. | |
3428 Label Lthrow_icc, Lthrow_ame; | |
3429 // Result will be returned in Rindex. | |
3430 __ mr(Rscratch4, Rrecv_klass); | |
3431 __ mr(Rscratch3, Rindex); | |
3432 __ lookup_interface_method(Rrecv_klass, Rinterface_klass, Rindex, Rindex, Rscratch1, Rscratch2, Lthrow_icc); | |
3433 | |
3434 __ cmpdi(CCR0, Rindex, 0); | |
3435 __ beq(CCR0, Lthrow_ame); | |
3436 // Found entry. Jump off! | |
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3437 // Argument and return type profiling. |
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3438 __ profile_arguments_type(Rindex, Rscratch1, Rscratch2, true); |
17804 | 3439 __ call_from_interpreter(Rindex, Rret_addr, Rscratch1, Rscratch2); |
3440 | |
3441 // Vtable entry was NULL => Throw abstract method error. | |
3442 __ bind(Lthrow_ame); | |
3443 __ mr(Rrecv_klass, Rscratch4); | |
3444 __ mr(Rindex, Rscratch3); | |
3445 call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::throw_AbstractMethodError)); | |
3446 | |
3447 // Interface was not found => Throw incompatible class change error. | |
3448 __ bind(Lthrow_icc); | |
3449 __ mr(Rrecv_klass, Rscratch4); | |
3450 call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::throw_IncompatibleClassChangeError)); | |
3451 | |
3452 __ should_not_reach_here(); | |
3453 | |
3454 // Special case of invokeinterface called for virtual method of | |
3455 // java.lang.Object. See ConstantPoolCacheEntry::set_method() for details: | |
3456 // The invokeinterface was rewritten to a invokevirtual, hence we have | |
3457 // to handle this corner case. This code isn't produced by javac, but could | |
3458 // be produced by another compliant java compiler. | |
3459 __ bind(LobjectMethod); | |
3460 invokeinterface_object_method(Rrecv_klass, Rret_addr, Rflags, Rindex, Rscratch1, Rscratch2); | |
3461 } | |
3462 | |
3463 void TemplateTable::invokedynamic(int byte_no) { | |
3464 transition(vtos, vtos); | |
3465 | |
3466 const Register Rret_addr = R3_ARG1, | |
3467 Rflags = R4_ARG2, | |
3468 Rmethod = R22_tmp2, | |
3469 Rscratch1 = R11_scratch1, | |
3470 Rscratch2 = R12_scratch2; | |
3471 | |
3472 if (!EnableInvokeDynamic) { | |
3473 // We should not encounter this bytecode if !EnableInvokeDynamic. | |
3474 // The verifier will stop it. However, if we get past the verifier, | |
3475 // this will stop the thread in a reasonable way, without crashing the JVM. | |
3476 __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::throw_IncompatibleClassChangeError)); | |
3477 // The call_VM checks for exception, so we should never return here. | |
3478 __ should_not_reach_here(); | |
3479 return; | |
3480 } | |
3481 | |
3482 prepare_invoke(byte_no, Rmethod, Rret_addr, Rscratch1, noreg, Rflags, Rscratch2); | |
3483 | |
3484 // Profile this call. | |
3485 __ profile_call(Rscratch1, Rscratch2); | |
3486 | |
3487 // Off we go. With the new method handles, we don't jump to a method handle | |
3488 // entry any more. Instead, we pushed an "appendix" in prepare invoke, which happens | |
3489 // to be the callsite object the bootstrap method returned. This is passed to a | |
3490 // "link" method which does the dispatch (Most likely just grabs the MH stored | |
3491 // inside the callsite and does an invokehandle). | |
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3492 // Argument and return type profiling. |
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3493 __ profile_arguments_type(Rmethod, Rscratch1, Rscratch2, false); |
17804 | 3494 __ call_from_interpreter(Rmethod, Rret_addr, Rscratch1 /* scratch1 */, Rscratch2 /* scratch2 */); |
3495 } | |
3496 | |
3497 void TemplateTable::invokehandle(int byte_no) { | |
3498 transition(vtos, vtos); | |
3499 | |
3500 const Register Rret_addr = R3_ARG1, | |
3501 Rflags = R4_ARG2, | |
3502 Rrecv = R5_ARG3, | |
3503 Rmethod = R22_tmp2, | |
3504 Rscratch1 = R11_scratch1, | |
3505 Rscratch2 = R12_scratch2; | |
3506 | |
3507 if (!EnableInvokeDynamic) { | |
3508 // Rewriter does not generate this bytecode. | |
3509 __ should_not_reach_here(); | |
3510 return; | |
3511 } | |
3512 | |
3513 prepare_invoke(byte_no, Rmethod, Rret_addr, Rscratch1, Rrecv, Rflags, Rscratch2); | |
3514 __ verify_method_ptr(Rmethod); | |
3515 __ null_check_throw(Rrecv, -1, Rscratch2); | |
3516 | |
3517 __ profile_final_call(Rrecv, Rscratch1); | |
3518 | |
3519 // Still no call from handle => We call the method handle interpreter here. | |
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3520 // Argument and return type profiling. |
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3521 __ profile_arguments_type(Rmethod, Rscratch1, Rscratch2, true); |
17804 | 3522 __ call_from_interpreter(Rmethod, Rret_addr, Rscratch1 /* scratch1 */, Rscratch2 /* scratch2 */); |
3523 } | |
3524 | |
3525 // ============================================================================= | |
3526 // Allocation | |
3527 | |
3528 // Puts allocated obj ref onto the expression stack. | |
3529 void TemplateTable::_new() { | |
3530 transition(vtos, atos); | |
3531 | |
3532 Label Lslow_case, | |
3533 Ldone, | |
3534 Linitialize_header, | |
3535 Lallocate_shared, | |
3536 Linitialize_object; // Including clearing the fields. | |
3537 | |
3538 const Register RallocatedObject = R17_tos, | |
3539 RinstanceKlass = R9_ARG7, | |
3540 Rscratch = R11_scratch1, | |
3541 Roffset = R8_ARG6, | |
3542 Rinstance_size = Roffset, | |
3543 Rcpool = R4_ARG2, | |
3544 Rtags = R3_ARG1, | |
3545 Rindex = R5_ARG3; | |
3546 | |
3547 const bool allow_shared_alloc = Universe::heap()->supports_inline_contig_alloc() && !CMSIncrementalMode; | |
3548 | |
3549 // -------------------------------------------------------------------------- | |
3550 // Check if fast case is possible. | |
3551 | |
3552 // Load pointers to const pool and const pool's tags array. | |
3553 __ get_cpool_and_tags(Rcpool, Rtags); | |
3554 // Load index of constant pool entry. | |
3555 __ get_2_byte_integer_at_bcp(1, Rindex, InterpreterMacroAssembler::Unsigned); | |
3556 | |
3557 if (UseTLAB) { | |
3558 // Make sure the class we're about to instantiate has been resolved | |
3559 // This is done before loading instanceKlass to be consistent with the order | |
3560 // how Constant Pool is updated (see ConstantPoolCache::klass_at_put). | |
3561 __ addi(Rtags, Rtags, Array<u1>::base_offset_in_bytes()); | |
3562 __ lbzx(Rtags, Rindex, Rtags); | |
3563 | |
3564 __ cmpdi(CCR0, Rtags, JVM_CONSTANT_Class); | |
3565 __ bne(CCR0, Lslow_case); | |
3566 | |
3567 // Get instanceKlass (load from Rcpool + sizeof(ConstantPool) + Rindex*BytesPerWord). | |
3568 __ sldi(Roffset, Rindex, LogBytesPerWord); | |
3569 __ addi(Rscratch, Rcpool, sizeof(ConstantPool)); | |
3570 __ isync(); // Order load of instance Klass wrt. tags. | |
3571 __ ldx(RinstanceKlass, Roffset, Rscratch); | |
3572 | |
3573 // Make sure klass is fully initialized and get instance_size. | |
3574 __ lbz(Rscratch, in_bytes(InstanceKlass::init_state_offset()), RinstanceKlass); | |
3575 __ lwz(Rinstance_size, in_bytes(Klass::layout_helper_offset()), RinstanceKlass); | |
3576 | |
3577 __ cmpdi(CCR1, Rscratch, InstanceKlass::fully_initialized); | |
3578 // Make sure klass does not have has_finalizer, or is abstract, or interface or java/lang/Class. | |
3579 __ andi_(R0, Rinstance_size, Klass::_lh_instance_slow_path_bit); // slow path bit equals 0? | |
3580 | |
3581 __ crnand(/*CR0 eq*/2, /*CR1 eq*/4+2, /*CR0 eq*/2); // slow path bit set or not fully initialized? | |
3582 __ beq(CCR0, Lslow_case); | |
3583 | |
3584 // -------------------------------------------------------------------------- | |
3585 // Fast case: | |
3586 // Allocate the instance. | |
3587 // 1) Try to allocate in the TLAB. | |
3588 // 2) If fail, and the TLAB is not full enough to discard, allocate in the shared Eden. | |
3589 // 3) If the above fails (or is not applicable), go to a slow case (creates a new TLAB, etc.). | |
3590 | |
3591 Register RoldTopValue = RallocatedObject; // Object will be allocated here if it fits. | |
3592 Register RnewTopValue = R6_ARG4; | |
3593 Register RendValue = R7_ARG5; | |
3594 | |
3595 // Check if we can allocate in the TLAB. | |
3596 __ ld(RoldTopValue, in_bytes(JavaThread::tlab_top_offset()), R16_thread); | |
3597 __ ld(RendValue, in_bytes(JavaThread::tlab_end_offset()), R16_thread); | |
3598 | |
3599 __ add(RnewTopValue, Rinstance_size, RoldTopValue); | |
3600 | |
3601 // If there is enough space, we do not CAS and do not clear. | |
3602 __ cmpld(CCR0, RnewTopValue, RendValue); | |
3603 __ bgt(CCR0, allow_shared_alloc ? Lallocate_shared : Lslow_case); | |
3604 | |
3605 __ std(RnewTopValue, in_bytes(JavaThread::tlab_top_offset()), R16_thread); | |
3606 | |
3607 if (ZeroTLAB) { | |
3608 // The fields have already been cleared. | |
3609 __ b(Linitialize_header); | |
3610 } else { | |
3611 // Initialize both the header and fields. | |
3612 __ b(Linitialize_object); | |
3613 } | |
3614 | |
3615 // Fall through: TLAB was too small. | |
3616 if (allow_shared_alloc) { | |
3617 Register RtlabWasteLimitValue = R10_ARG8; | |
3618 Register RfreeValue = RnewTopValue; | |
3619 | |
3620 __ bind(Lallocate_shared); | |
3621 // Check if tlab should be discarded (refill_waste_limit >= free). | |
3622 __ ld(RtlabWasteLimitValue, in_bytes(JavaThread::tlab_refill_waste_limit_offset()), R16_thread); | |
3623 __ subf(RfreeValue, RoldTopValue, RendValue); | |
3624 __ srdi(RfreeValue, RfreeValue, LogHeapWordSize); // in dwords | |
3625 __ cmpld(CCR0, RtlabWasteLimitValue, RfreeValue); | |
3626 __ bge(CCR0, Lslow_case); | |
3627 | |
3628 // Increment waste limit to prevent getting stuck on this slow path. | |
3629 __ addi(RtlabWasteLimitValue, RtlabWasteLimitValue, (int)ThreadLocalAllocBuffer::refill_waste_limit_increment()); | |
3630 __ std(RtlabWasteLimitValue, in_bytes(JavaThread::tlab_refill_waste_limit_offset()), R16_thread); | |
3631 } | |
3632 // else: No allocation in the shared eden. // fallthru: __ b(Lslow_case); | |
3633 } | |
3634 // else: Always go the slow path. | |
3635 | |
3636 // -------------------------------------------------------------------------- | |
3637 // slow case | |
3638 __ bind(Lslow_case); | |
3639 call_VM(R17_tos, CAST_FROM_FN_PTR(address, InterpreterRuntime::_new), Rcpool, Rindex); | |
3640 | |
3641 if (UseTLAB) { | |
3642 __ b(Ldone); | |
3643 // -------------------------------------------------------------------------- | |
3644 // Init1: Zero out newly allocated memory. | |
3645 | |
3646 if (!ZeroTLAB || allow_shared_alloc) { | |
3647 // Clear object fields. | |
3648 __ bind(Linitialize_object); | |
3649 | |
3650 // Initialize remaining object fields. | |
3651 Register Rbase = Rtags; | |
3652 __ addi(Rinstance_size, Rinstance_size, 7 - (int)sizeof(oopDesc)); | |
3653 __ addi(Rbase, RallocatedObject, sizeof(oopDesc)); | |
3654 __ srdi(Rinstance_size, Rinstance_size, 3); | |
3655 | |
3656 // Clear out object skipping header. Takes also care of the zero length case. | |
3657 __ clear_memory_doubleword(Rbase, Rinstance_size); | |
3658 // fallthru: __ b(Linitialize_header); | |
3659 } | |
3660 | |
3661 // -------------------------------------------------------------------------- | |
3662 // Init2: Initialize the header: mark, klass | |
3663 __ bind(Linitialize_header); | |
3664 | |
3665 // Init mark. | |
3666 if (UseBiasedLocking) { | |
3667 __ ld(Rscratch, in_bytes(Klass::prototype_header_offset()), RinstanceKlass); | |
3668 } else { | |
3669 __ load_const_optimized(Rscratch, markOopDesc::prototype(), R0); | |
3670 } | |
3671 __ std(Rscratch, oopDesc::mark_offset_in_bytes(), RallocatedObject); | |
3672 | |
3673 // Init klass. | |
3674 __ store_klass_gap(RallocatedObject); | |
3675 __ store_klass(RallocatedObject, RinstanceKlass, Rscratch); // klass (last for cms) | |
3676 | |
3677 // Check and trigger dtrace event. | |
3678 { | |
3679 SkipIfEqualZero skip_if(_masm, Rscratch, &DTraceAllocProbes); | |
3680 __ push(atos); | |
3681 __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_object_alloc)); | |
3682 __ pop(atos); | |
3683 } | |
3684 } | |
3685 | |
3686 // continue | |
3687 __ bind(Ldone); | |
3688 | |
3689 // Must prevent reordering of stores for object initialization with stores that publish the new object. | |
3690 __ membar(Assembler::StoreStore); | |
3691 } | |
3692 | |
3693 void TemplateTable::newarray() { | |
3694 transition(itos, atos); | |
3695 | |
3696 __ lbz(R4, 1, R14_bcp); | |
3697 __ extsw(R5, R17_tos); | |
3698 call_VM(R17_tos, CAST_FROM_FN_PTR(address, InterpreterRuntime::newarray), R4, R5 /* size */); | |
3699 | |
3700 // Must prevent reordering of stores for object initialization with stores that publish the new object. | |
3701 __ membar(Assembler::StoreStore); | |
3702 } | |
3703 | |
3704 void TemplateTable::anewarray() { | |
3705 transition(itos, atos); | |
3706 | |
3707 __ get_constant_pool(R4); | |
3708 __ get_2_byte_integer_at_bcp(1, R5, InterpreterMacroAssembler::Unsigned); | |
3709 __ extsw(R6, R17_tos); // size | |
3710 call_VM(R17_tos, CAST_FROM_FN_PTR(address, InterpreterRuntime::anewarray), R4 /* pool */, R5 /* index */, R6 /* size */); | |
3711 | |
3712 // Must prevent reordering of stores for object initialization with stores that publish the new object. | |
3713 __ membar(Assembler::StoreStore); | |
3714 } | |
3715 | |
3716 // Allocate a multi dimensional array | |
3717 void TemplateTable::multianewarray() { | |
3718 transition(vtos, atos); | |
3719 | |
3720 Register Rptr = R31; // Needs to survive C call. | |
3721 | |
3722 // Put ndims * wordSize into frame temp slot | |
3723 __ lbz(Rptr, 3, R14_bcp); | |
3724 __ sldi(Rptr, Rptr, Interpreter::logStackElementSize); | |
3725 // Esp points past last_dim, so set to R4 to first_dim address. | |
3726 __ add(R4, Rptr, R15_esp); | |
3727 call_VM(R17_tos, CAST_FROM_FN_PTR(address, InterpreterRuntime::multianewarray), R4 /* first_size_address */); | |
3728 // Pop all dimensions off the stack. | |
3729 __ add(R15_esp, Rptr, R15_esp); | |
3730 | |
3731 // Must prevent reordering of stores for object initialization with stores that publish the new object. | |
3732 __ membar(Assembler::StoreStore); | |
3733 } | |
3734 | |
3735 void TemplateTable::arraylength() { | |
3736 transition(atos, itos); | |
3737 | |
3738 Label LnoException; | |
3739 __ verify_oop(R17_tos); | |
3740 __ null_check_throw(R17_tos, arrayOopDesc::length_offset_in_bytes(), R11_scratch1); | |
3741 __ lwa(R17_tos, arrayOopDesc::length_offset_in_bytes(), R17_tos); | |
3742 } | |
3743 | |
3744 // ============================================================================ | |
3745 // Typechecks | |
3746 | |
3747 void TemplateTable::checkcast() { | |
3748 transition(atos, atos); | |
3749 | |
3750 Label Ldone, Lis_null, Lquicked, Lresolved; | |
17917 | 3751 Register Roffset = R6_ARG4, |
17804 | 3752 RobjKlass = R4_ARG2, |
17917 | 3753 RspecifiedKlass = R5_ARG3, // Generate_ClassCastException_verbose_handler will read value from this register. |
17804 | 3754 Rcpool = R11_scratch1, |
3755 Rtags = R12_scratch2; | |
3756 | |
3757 // Null does not pass. | |
3758 __ cmpdi(CCR0, R17_tos, 0); | |
3759 __ beq(CCR0, Lis_null); | |
3760 | |
3761 // Get constant pool tag to find out if the bytecode has already been "quickened". | |
3762 __ get_cpool_and_tags(Rcpool, Rtags); | |
3763 | |
3764 __ get_2_byte_integer_at_bcp(1, Roffset, InterpreterMacroAssembler::Unsigned); | |
3765 | |
3766 __ addi(Rtags, Rtags, Array<u1>::base_offset_in_bytes()); | |
3767 __ lbzx(Rtags, Rtags, Roffset); | |
3768 | |
3769 __ cmpdi(CCR0, Rtags, JVM_CONSTANT_Class); | |
3770 __ beq(CCR0, Lquicked); | |
3771 | |
3772 // Call into the VM to "quicken" instanceof. | |
3773 __ push_ptr(); // for GC | |
3774 call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::quicken_io_cc)); | |
3775 __ get_vm_result_2(RspecifiedKlass); | |
3776 __ pop_ptr(); // Restore receiver. | |
3777 __ b(Lresolved); | |
3778 | |
3779 // Extract target class from constant pool. | |
3780 __ bind(Lquicked); | |
3781 __ sldi(Roffset, Roffset, LogBytesPerWord); | |
3782 __ addi(Rcpool, Rcpool, sizeof(ConstantPool)); | |
3783 __ isync(); // Order load of specified Klass wrt. tags. | |
3784 __ ldx(RspecifiedKlass, Rcpool, Roffset); | |
3785 | |
3786 // Do the checkcast. | |
3787 __ bind(Lresolved); | |
3788 // Get value klass in RobjKlass. | |
3789 __ load_klass(RobjKlass, R17_tos); | |
3790 // Generate a fast subtype check. Branch to cast_ok if no failure. Return 0 if failure. | |
3791 __ gen_subtype_check(RobjKlass, RspecifiedKlass, /*3 temp regs*/ Roffset, Rcpool, Rtags, /*target if subtype*/ Ldone); | |
3792 | |
3793 // Not a subtype; so must throw exception | |
3794 // Target class oop is in register R6_ARG4 == RspecifiedKlass by convention. | |
3795 __ load_dispatch_table(R11_scratch1, (address*)Interpreter::_throw_ClassCastException_entry); | |
3796 __ mtctr(R11_scratch1); | |
3797 __ bctr(); | |
3798 | |
3799 // Profile the null case. | |
3800 __ align(32, 12); | |
3801 __ bind(Lis_null); | |
3802 __ profile_null_seen(R11_scratch1, Rtags); // Rtags used as scratch. | |
3803 | |
3804 __ align(32, 12); | |
3805 __ bind(Ldone); | |
3806 } | |
3807 | |
3808 // Output: | |
3809 // - tos == 0: Obj was null or not an instance of class. | |
3810 // - tos == 1: Obj was an instance of class. | |
3811 void TemplateTable::instanceof() { | |
3812 transition(atos, itos); | |
3813 | |
3814 Label Ldone, Lis_null, Lquicked, Lresolved; | |
3815 Register Roffset = R5_ARG3, | |
3816 RobjKlass = R4_ARG2, | |
3817 RspecifiedKlass = R6_ARG4, // Generate_ClassCastException_verbose_handler will expect the value in this register. | |
3818 Rcpool = R11_scratch1, | |
3819 Rtags = R12_scratch2; | |
3820 | |
3821 // Null does not pass. | |
3822 __ cmpdi(CCR0, R17_tos, 0); | |
3823 __ beq(CCR0, Lis_null); | |
3824 | |
3825 // Get constant pool tag to find out if the bytecode has already been "quickened". | |
3826 __ get_cpool_and_tags(Rcpool, Rtags); | |
3827 | |
3828 __ get_2_byte_integer_at_bcp(1, Roffset, InterpreterMacroAssembler::Unsigned); | |
3829 | |
3830 __ addi(Rtags, Rtags, Array<u1>::base_offset_in_bytes()); | |
3831 __ lbzx(Rtags, Rtags, Roffset); | |
3832 | |
3833 __ cmpdi(CCR0, Rtags, JVM_CONSTANT_Class); | |
3834 __ beq(CCR0, Lquicked); | |
3835 | |
3836 // Call into the VM to "quicken" instanceof. | |
3837 __ push_ptr(); // for GC | |
3838 call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::quicken_io_cc)); | |
3839 __ get_vm_result_2(RspecifiedKlass); | |
3840 __ pop_ptr(); // Restore receiver. | |
3841 __ b(Lresolved); | |
3842 | |
3843 // Extract target class from constant pool. | |
3844 __ bind(Lquicked); | |
3845 __ sldi(Roffset, Roffset, LogBytesPerWord); | |
3846 __ addi(Rcpool, Rcpool, sizeof(ConstantPool)); | |
3847 __ isync(); // Order load of specified Klass wrt. tags. | |
3848 __ ldx(RspecifiedKlass, Rcpool, Roffset); | |
3849 | |
3850 // Do the checkcast. | |
3851 __ bind(Lresolved); | |
3852 // Get value klass in RobjKlass. | |
3853 __ load_klass(RobjKlass, R17_tos); | |
3854 // Generate a fast subtype check. Branch to cast_ok if no failure. Return 0 if failure. | |
3855 __ li(R17_tos, 1); | |
3856 __ gen_subtype_check(RobjKlass, RspecifiedKlass, /*3 temp regs*/ Roffset, Rcpool, Rtags, /*target if subtype*/ Ldone); | |
3857 __ li(R17_tos, 0); | |
3858 | |
3859 if (ProfileInterpreter) { | |
3860 __ b(Ldone); | |
3861 } | |
3862 | |
3863 // Profile the null case. | |
3864 __ align(32, 12); | |
3865 __ bind(Lis_null); | |
3866 __ profile_null_seen(Rcpool, Rtags); // Rcpool and Rtags used as scratch. | |
3867 | |
3868 __ align(32, 12); | |
3869 __ bind(Ldone); | |
3870 } | |
3871 | |
3872 // ============================================================================= | |
3873 // Breakpoints | |
3874 | |
3875 void TemplateTable::_breakpoint() { | |
3876 transition(vtos, vtos); | |
3877 | |
3878 // Get the unpatched byte code. | |
3879 __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::get_original_bytecode_at), R19_method, R14_bcp); | |
3880 __ mr(R31, R3_RET); | |
3881 | |
3882 // Post the breakpoint event. | |
3883 __ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::_breakpoint), R19_method, R14_bcp); | |
3884 | |
3885 // Complete the execution of original bytecode. | |
3886 __ dispatch_Lbyte_code(vtos, R31, Interpreter::normal_table(vtos)); | |
3887 } | |
3888 | |
3889 // ============================================================================= | |
3890 // Exceptions | |
3891 | |
3892 void TemplateTable::athrow() { | |
3893 transition(atos, vtos); | |
3894 | |
3895 // Exception oop is in tos | |
3896 __ verify_oop(R17_tos); | |
3897 | |
3898 __ null_check_throw(R17_tos, -1, R11_scratch1); | |
3899 | |
3900 // Throw exception interpreter entry expects exception oop to be in R3. | |
3901 __ mr(R3_RET, R17_tos); | |
3902 __ load_dispatch_table(R11_scratch1, (address*)Interpreter::throw_exception_entry()); | |
3903 __ mtctr(R11_scratch1); | |
3904 __ bctr(); | |
3905 } | |
3906 | |
3907 // ============================================================================= | |
3908 // Synchronization | |
3909 // Searches the basic object lock list on the stack for a free slot | |
3910 // and uses it to lock the obect in tos. | |
3911 // | |
3912 // Recursive locking is enabled by exiting the search if the same | |
3913 // object is already found in the list. Thus, a new basic lock obj lock | |
3914 // is allocated "higher up" in the stack and thus is found first | |
3915 // at next monitor exit. | |
3916 void TemplateTable::monitorenter() { | |
3917 transition(atos, vtos); | |
3918 | |
3919 __ verify_oop(R17_tos); | |
3920 | |
3921 Register Rcurrent_monitor = R11_scratch1, | |
3922 Rcurrent_obj = R12_scratch2, | |
3923 Robj_to_lock = R17_tos, | |
3924 Rscratch1 = R3_ARG1, | |
3925 Rscratch2 = R4_ARG2, | |
3926 Rscratch3 = R5_ARG3, | |
3927 Rcurrent_obj_addr = R6_ARG4; | |
3928 | |
3929 // ------------------------------------------------------------------------------ | |
3930 // Null pointer exception. | |
3931 __ null_check_throw(Robj_to_lock, -1, R11_scratch1); | |
3932 | |
3933 // Try to acquire a lock on the object. | |
3934 // Repeat until succeeded (i.e., until monitorenter returns true). | |
3935 | |
3936 // ------------------------------------------------------------------------------ | |
3937 // Find a free slot in the monitor block. | |
3938 Label Lfound, Lexit, Lallocate_new; | |
3939 ConditionRegister found_free_slot = CCR0, | |
3940 found_same_obj = CCR1, | |
3941 reached_limit = CCR6; | |
3942 { | |
3943 Label Lloop, Lentry; | |
3944 Register Rlimit = Rcurrent_monitor; | |
3945 | |
3946 // Set up search loop - start with topmost monitor. | |
3947 __ add(Rcurrent_obj_addr, BasicObjectLock::obj_offset_in_bytes(), R26_monitor); | |
3948 | |
3949 __ ld(Rlimit, 0, R1_SP); | |
3950 __ addi(Rlimit, Rlimit, - (frame::ijava_state_size + frame::interpreter_frame_monitor_size_in_bytes() - BasicObjectLock::obj_offset_in_bytes())); // Monitor base | |
3951 | |
3952 // Check if any slot is present => short cut to allocation if not. | |
3953 __ cmpld(reached_limit, Rcurrent_obj_addr, Rlimit); | |
3954 __ bgt(reached_limit, Lallocate_new); | |
3955 | |
3956 // Pre-load topmost slot. | |
3957 __ ld(Rcurrent_obj, 0, Rcurrent_obj_addr); | |
3958 __ addi(Rcurrent_obj_addr, Rcurrent_obj_addr, frame::interpreter_frame_monitor_size() * wordSize); | |
3959 // The search loop. | |
3960 __ bind(Lloop); | |
3961 // Found free slot? | |
3962 __ cmpdi(found_free_slot, Rcurrent_obj, 0); | |
3963 // Is this entry for same obj? If so, stop the search and take the found | |
3964 // free slot or allocate a new one to enable recursive locking. | |
3965 __ cmpd(found_same_obj, Rcurrent_obj, Robj_to_lock); | |
3966 __ cmpld(reached_limit, Rcurrent_obj_addr, Rlimit); | |
3967 __ beq(found_free_slot, Lexit); | |
3968 __ beq(found_same_obj, Lallocate_new); | |
3969 __ bgt(reached_limit, Lallocate_new); | |
3970 // Check if last allocated BasicLockObj reached. | |
3971 __ ld(Rcurrent_obj, 0, Rcurrent_obj_addr); | |
3972 __ addi(Rcurrent_obj_addr, Rcurrent_obj_addr, frame::interpreter_frame_monitor_size() * wordSize); | |
3973 // Next iteration if unchecked BasicObjectLocks exist on the stack. | |
3974 __ b(Lloop); | |
3975 } | |
3976 | |
3977 // ------------------------------------------------------------------------------ | |
3978 // Check if we found a free slot. | |
3979 __ bind(Lexit); | |
3980 | |
3981 __ addi(Rcurrent_monitor, Rcurrent_obj_addr, -(frame::interpreter_frame_monitor_size() * wordSize) - BasicObjectLock::obj_offset_in_bytes()); | |
3982 __ addi(Rcurrent_obj_addr, Rcurrent_obj_addr, - frame::interpreter_frame_monitor_size() * wordSize); | |
3983 __ b(Lfound); | |
3984 | |
3985 // We didn't find a free BasicObjLock => allocate one. | |
3986 __ align(32, 12); | |
3987 __ bind(Lallocate_new); | |
3988 __ add_monitor_to_stack(false, Rscratch1, Rscratch2); | |
3989 __ mr(Rcurrent_monitor, R26_monitor); | |
3990 __ addi(Rcurrent_obj_addr, R26_monitor, BasicObjectLock::obj_offset_in_bytes()); | |
3991 | |
3992 // ------------------------------------------------------------------------------ | |
3993 // We now have a slot to lock. | |
3994 __ bind(Lfound); | |
3995 | |
3996 // Increment bcp to point to the next bytecode, so exception handling for async. exceptions work correctly. | |
3997 // The object has already been poped from the stack, so the expression stack looks correct. | |
3998 __ addi(R14_bcp, R14_bcp, 1); | |
3999 | |
4000 __ std(Robj_to_lock, 0, Rcurrent_obj_addr); | |
4001 __ lock_object(Rcurrent_monitor, Robj_to_lock); | |
4002 | |
4003 // Check if there's enough space on the stack for the monitors after locking. | |
4004 Label Lskip_stack_check; | |
4005 // Optimization: If the monitors stack section is less then a std page size (4K) don't run | |
4006 // the stack check. There should be enough shadow pages to fit that in. | |
4007 __ ld(Rscratch3, 0, R1_SP); | |
4008 __ sub(Rscratch3, Rscratch3, R26_monitor); | |
4009 __ cmpdi(CCR0, Rscratch3, 4*K); | |
4010 __ blt(CCR0, Lskip_stack_check); | |
4011 | |
4012 DEBUG_ONLY(__ untested("stack overflow check during monitor enter");) | |
4013 __ li(Rscratch1, 0); | |
4014 __ generate_stack_overflow_check_with_compare_and_throw(Rscratch1, Rscratch2); | |
4015 | |
4016 __ align(32, 12); | |
4017 __ bind(Lskip_stack_check); | |
4018 | |
4019 // The bcp has already been incremented. Just need to dispatch to next instruction. | |
4020 __ dispatch_next(vtos); | |
4021 } | |
4022 | |
4023 void TemplateTable::monitorexit() { | |
4024 transition(atos, vtos); | |
4025 __ verify_oop(R17_tos); | |
4026 | |
4027 Register Rcurrent_monitor = R11_scratch1, | |
4028 Rcurrent_obj = R12_scratch2, | |
4029 Robj_to_lock = R17_tos, | |
4030 Rcurrent_obj_addr = R3_ARG1, | |
4031 Rlimit = R4_ARG2; | |
4032 Label Lfound, Lillegal_monitor_state; | |
4033 | |
4034 // Check corner case: unbalanced monitorEnter / Exit. | |
4035 __ ld(Rlimit, 0, R1_SP); | |
4036 __ addi(Rlimit, Rlimit, - (frame::ijava_state_size + frame::interpreter_frame_monitor_size_in_bytes())); // Monitor base | |
4037 | |
4038 // Null pointer check. | |
4039 __ null_check_throw(Robj_to_lock, -1, R11_scratch1); | |
4040 | |
4041 __ cmpld(CCR0, R26_monitor, Rlimit); | |
4042 __ bgt(CCR0, Lillegal_monitor_state); | |
4043 | |
4044 // Find the corresponding slot in the monitors stack section. | |
4045 { | |
4046 Label Lloop; | |
4047 | |
4048 // Start with topmost monitor. | |
4049 __ addi(Rcurrent_obj_addr, R26_monitor, BasicObjectLock::obj_offset_in_bytes()); | |
4050 __ addi(Rlimit, Rlimit, BasicObjectLock::obj_offset_in_bytes()); | |
4051 __ ld(Rcurrent_obj, 0, Rcurrent_obj_addr); | |
4052 __ addi(Rcurrent_obj_addr, Rcurrent_obj_addr, frame::interpreter_frame_monitor_size() * wordSize); | |
4053 | |
4054 __ bind(Lloop); | |
4055 // Is this entry for same obj? | |
4056 __ cmpd(CCR0, Rcurrent_obj, Robj_to_lock); | |
4057 __ beq(CCR0, Lfound); | |
4058 | |
4059 // Check if last allocated BasicLockObj reached. | |
4060 | |
4061 __ ld(Rcurrent_obj, 0, Rcurrent_obj_addr); | |
4062 __ cmpld(CCR0, Rcurrent_obj_addr, Rlimit); | |
4063 __ addi(Rcurrent_obj_addr, Rcurrent_obj_addr, frame::interpreter_frame_monitor_size() * wordSize); | |
4064 | |
4065 // Next iteration if unchecked BasicObjectLocks exist on the stack. | |
4066 __ ble(CCR0, Lloop); | |
4067 } | |
4068 | |
4069 // Fell through without finding the basic obj lock => throw up! | |
4070 __ bind(Lillegal_monitor_state); | |
4071 call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::throw_illegal_monitor_state_exception)); | |
4072 __ should_not_reach_here(); | |
4073 | |
4074 __ align(32, 12); | |
4075 __ bind(Lfound); | |
4076 __ addi(Rcurrent_monitor, Rcurrent_obj_addr, | |
4077 -(frame::interpreter_frame_monitor_size() * wordSize) - BasicObjectLock::obj_offset_in_bytes()); | |
4078 __ unlock_object(Rcurrent_monitor); | |
4079 } | |
4080 | |
4081 // ============================================================================ | |
4082 // Wide bytecodes | |
4083 | |
4084 // Wide instructions. Simply redirects to the wide entry point for that instruction. | |
4085 void TemplateTable::wide() { | |
4086 transition(vtos, vtos); | |
4087 | |
4088 const Register Rtable = R11_scratch1, | |
4089 Rindex = R12_scratch2, | |
4090 Rtmp = R0; | |
4091 | |
4092 __ lbz(Rindex, 1, R14_bcp); | |
4093 | |
4094 __ load_dispatch_table(Rtable, Interpreter::_wentry_point); | |
4095 | |
4096 __ slwi(Rindex, Rindex, LogBytesPerWord); | |
4097 __ ldx(Rtmp, Rtable, Rindex); | |
4098 __ mtctr(Rtmp); | |
4099 __ bctr(); | |
4100 // Note: the bcp increment step is part of the individual wide bytecode implementations. | |
4101 } | |
4102 #endif // !CC_INTERP |