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src/cpu/mips/vm/templateTable_mips_64.cpp@3b95e10c12fa (annotated)

src/cpu/mips/vm/templateTable_mips_64.cpp

Fri, 29 Apr 2016 11:06:40 -0400

author

fujie

date

Fri, 29 Apr 2016 11:06:40 -0400

changeset 32

3b95e10c12fa

parent 16

3cedde979d75

child 33

52672a450193

permissions

-rw-r--r--

Fix the concurrency issue for 3A2000-1way.

aoqi@1	1	/*
aoqi@1	2	* Copyright (c) 2003, 2013, Oracle and/or its affiliates. All rights reserved.
aoqi@1	3	* Copyright (c) 2015, 2016, Loongson Technology. All rights reserved.
aoqi@1	4	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
aoqi@1	5	*
aoqi@1	6	* This code is free software; you can redistribute it and/or modify it
aoqi@1	7	* under the terms of the GNU General Public License version 2 only, as
aoqi@1	8	* published by the Free Software Foundation.
aoqi@1	9	*
aoqi@1	10	* This code is distributed in the hope that it will be useful, but WITHOUT
aoqi@1	11	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
aoqi@1	12	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
aoqi@1	13	* version 2 for more details (a copy is included in the LICENSE file that
aoqi@1	14	* accompanied this code).
aoqi@1	15	*
aoqi@1	16	* You should have received a copy of the GNU General Public License version
aoqi@1	17	* 2 along with this work; if not, write to the Free Software Foundation,
aoqi@1	18	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
aoqi@1	19	*
aoqi@1	20	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
aoqi@1	21	* or visit www.oracle.com if you need additional information or have any
aoqi@1	22	* questions.
aoqi@1	23	*
aoqi@1	24	*/
aoqi@1	25
aoqi@1	26	#include "precompiled.hpp"
aoqi@1	27	#include "asm/macroAssembler.hpp"
aoqi@1	28	#include "interpreter/interpreter.hpp"
aoqi@1	29	#include "interpreter/interpreterRuntime.hpp"
aoqi@1	30	#include "interpreter/templateTable.hpp"
aoqi@1	31	#include "memory/universe.inline.hpp"
aoqi@1	32	#include "oops/methodData.hpp"
aoqi@1	33	#include "oops/objArrayKlass.hpp"
aoqi@1	34	#include "oops/oop.inline.hpp"
aoqi@1	35	#include "prims/methodHandles.hpp"
aoqi@1	36	#include "runtime/sharedRuntime.hpp"
aoqi@1	37	#include "runtime/stubRoutines.hpp"
aoqi@1	38	#include "runtime/synchronizer.hpp"
aoqi@1	39
aoqi@1	40
aoqi@1	41	#ifndef CC_INTERP
aoqi@1	42
aoqi@1	43	#define __ _masm->
aoqi@1	44
aoqi@1	45	// Platform-dependent initialization
aoqi@1	46
aoqi@1	47	void TemplateTable::pd_initialize() {
aoqi@1	48	// No mips specific initialization
aoqi@1	49	}
aoqi@1	50
aoqi@1	51	// Address computation: local variables
aoqi@1	52	// we use t8 as the local variables pointer register, by yjl 6/27/2005
aoqi@1	53	static inline Address iaddress(int n) {
aoqi@1	54	return Address(LVP, Interpreter::local_offset_in_bytes(n));
aoqi@1	55	}
aoqi@1	56
aoqi@1	57	static inline Address laddress(int n) {
aoqi@1	58	return iaddress(n + 1);
aoqi@1	59	}
aoqi@1	60
aoqi@1	61	static inline Address faddress(int n) {
aoqi@1	62	return iaddress(n);
aoqi@1	63	}
aoqi@1	64
aoqi@1	65	static inline Address daddress(int n) {
aoqi@1	66	return laddress(n);
aoqi@1	67	}
aoqi@1	68
aoqi@1	69	static inline Address aaddress(int n) {
aoqi@1	70	return iaddress(n);
aoqi@1	71	}
aoqi@1	72	static inline Address haddress(int n) { return iaddress(n + 0); }
aoqi@1	73
aoqi@1	74	//FIXME , can not use dadd and dsll
aoqi@1	75	/*
aoqi@1	76	static inline Address iaddress(Register r) {
aoqi@1	77	return Address(r14, r, Address::times_8, Interpreter::value_offset_in_bytes());
aoqi@1	78	}
aoqi@1	79
aoqi@1	80	static inline Address laddress(Register r) {
aoqi@1	81	return Address(r14, r, Address::times_8, Interpreter::local_offset_in_bytes(1));
aoqi@1	82	}
aoqi@1	83
aoqi@1	84	static inline Address faddress(Register r) {
aoqi@1	85	return iaddress(r);
aoqi@1	86	}
aoqi@1	87
aoqi@1	88	static inline Address daddress(Register r) {
aoqi@1	89	return laddress(r);
aoqi@1	90	}
aoqi@1	91
aoqi@1	92	static inline Address aaddress(Register r) {
aoqi@1	93	return iaddress(r);
aoqi@1	94	}
aoqi@1	95	*/
aoqi@1	96
aoqi@1	97	static inline Address at_sp() { return Address(SP, 0); }
aoqi@1	98	static inline Address at_sp_p1() { return Address(SP, 1 * wordSize); }
aoqi@1	99	static inline Address at_sp_p2() { return Address(SP, 2 * wordSize); }
aoqi@1	100
aoqi@1	101	// At top of Java expression stack which may be different than esp(). It
aoqi@1	102	// isn't for category 1 objects.
aoqi@1	103	static inline Address at_tos () {
aoqi@1	104	Address tos = Address(SP, Interpreter::expr_offset_in_bytes(0));
aoqi@1	105	return tos;
aoqi@1	106	}
aoqi@1	107
aoqi@1	108	static inline Address at_tos_p1() {
aoqi@1	109	return Address(SP, Interpreter::expr_offset_in_bytes(1));
aoqi@1	110	}
aoqi@1	111
aoqi@1	112	static inline Address at_tos_p2() {
aoqi@1	113	return Address(SP, Interpreter::expr_offset_in_bytes(2));
aoqi@1	114	}
aoqi@1	115
aoqi@1	116	static inline Address at_tos_p3() {
aoqi@1	117	return Address(SP, Interpreter::expr_offset_in_bytes(3));
aoqi@1	118	}
aoqi@1	119
aoqi@1	120	// we use S0 as bcp, be sure you have bcp in S0 before you call any of the Template generator
aoqi@1	121	Address TemplateTable::at_bcp(int offset) {
aoqi@1	122	assert(_desc->uses_bcp(), "inconsistent uses_bcp information");
aoqi@1	123	return Address(BCP, offset);
aoqi@1	124	}
aoqi@1	125
aoqi@1	126	#define callee_saved_register(R) assert((R>=S0 && R<=S7), "should use callee saved registers!")
aoqi@1	127
aoqi@1	128	// bytecode folding
aoqi@1	129	void TemplateTable::patch_bytecode(Bytecodes::Code bc, Register bc_reg,
aoqi@1	130	Register tmp_reg,
aoqi@1	131	bool load_bc_into_bc_reg,/*=true*/
aoqi@1	132	int byte_no) {
aoqi@1	133	if (!RewriteBytecodes) {
aoqi@1	134	return;
aoqi@1	135	}
aoqi@1	136
aoqi@1	137	Label L_patch_done;
aoqi@1	138	switch (bc) {
aoqi@1	139	case Bytecodes::_fast_aputfield:
aoqi@1	140	case Bytecodes::_fast_bputfield:
aoqi@1	141	case Bytecodes::_fast_cputfield:
aoqi@1	142	case Bytecodes::_fast_dputfield:
aoqi@1	143	case Bytecodes::_fast_fputfield:
aoqi@1	144	case Bytecodes::_fast_iputfield:
aoqi@1	145	case Bytecodes::_fast_lputfield:
aoqi@1	146	case Bytecodes::_fast_sputfield:
aoqi@1	147	{
aoqi@1	148	// We skip bytecode quickening for putfield instructions when the put_code written to the constant pool cache
aoqi@1	149	// is zero. This is required so that every execution of this instruction calls out to
aoqi@1	150	// InterpreterRuntime::resolve_get_put to do additional, required work.
aoqi@1	151	assert(byte_no == f1_byte || byte_no == f2_byte, "byte_no out of range");
aoqi@1	152	assert(load_bc_into_bc_reg, "we use bc_reg as temp");
aoqi@1	153	__ get_cache_and_index_and_bytecode_at_bcp(tmp_reg, bc_reg, tmp_reg, byte_no, 1);
aoqi@1	154	__ daddi(bc_reg, R0, bc);
aoqi@1	155	__ beq(tmp_reg, R0, L_patch_done);
aoqi@1	156	__ delayed()->nop();
aoqi@1	157	}
aoqi@1	158	break;
aoqi@1	159	default:
aoqi@1	160	assert(byte_no == -1, "sanity");
aoqi@1	161	// the pair bytecodes have already done the load.
aoqi@1	162	if (load_bc_into_bc_reg) {
aoqi@1	163	__ move(bc_reg, bc);
aoqi@1	164	}
aoqi@1	165
aoqi@1	166	}
aoqi@1	167	if (JvmtiExport::can_post_breakpoint()) {
aoqi@1	168	Label L_fast_patch;
aoqi@1	169	// if a breakpoint is present we can't rewrite the stream directly
aoqi@1	170	__ lbu(tmp_reg, at_bcp(0));
aoqi@1	171	__ move(AT, Bytecodes::_breakpoint);
aoqi@1	172	__ bne(tmp_reg, AT, L_fast_patch);
aoqi@1	173	__ delayed()->nop();
aoqi@1	174
aoqi@1	175	__ get_method(tmp_reg);
aoqi@1	176	// Let breakpoint table handling rewrite to quicker bytecode
aoqi@1	177	__ call_VM(NOREG, CAST_FROM_FN_PTR(address,
aoqi@1	178	InterpreterRuntime::set_original_bytecode_at), tmp_reg, BCP, bc_reg);
aoqi@1	179
aoqi@1	180	__ b(L_patch_done);
aoqi@1	181	__ delayed()->nop();
aoqi@1	182	__ bind(L_fast_patch);
aoqi@1	183	}
aoqi@1	184
aoqi@1	185	#ifdef ASSERT
aoqi@1	186	Label L_okay;
aoqi@1	187	__ lbu(tmp_reg, at_bcp(0));
aoqi@1	188	__ move(AT, (int)Bytecodes::java_code(bc));
aoqi@1	189	__ beq(tmp_reg, AT, L_okay);
aoqi@1	190	__ delayed()->nop();
aoqi@1	191	__ beq(tmp_reg, bc_reg, L_patch_done);
aoqi@1	192	__ delayed()->nop();
aoqi@1	193	__ stop("patching the wrong bytecode");
aoqi@1	194	__ bind(L_okay);
aoqi@1	195	#endif
aoqi@1	196
aoqi@1	197	// patch bytecode
aoqi@1	198	__ sb(bc_reg, at_bcp(0));
aoqi@1	199	__ bind(L_patch_done);
aoqi@1	200	}
aoqi@1	201
aoqi@1	202
aoqi@1	203	// Individual instructions
aoqi@1	204
aoqi@1	205	void TemplateTable::nop() {
aoqi@1	206	transition(vtos, vtos);
aoqi@1	207	// nothing to do
aoqi@1	208	}
aoqi@1	209
aoqi@1	210	void TemplateTable::shouldnotreachhere() {
aoqi@1	211	transition(vtos, vtos);
aoqi@1	212	__ stop("shouldnotreachhere bytecode");
aoqi@1	213	}
aoqi@1	214
aoqi@1	215	void TemplateTable::aconst_null() {
aoqi@1	216	transition(vtos, atos);
aoqi@1	217	__ move(FSR, R0);
aoqi@1	218	}
aoqi@1	219
aoqi@1	220	void TemplateTable::iconst(int value) {
aoqi@1	221	transition(vtos, itos);
aoqi@1	222	if (value == 0) {
aoqi@1	223	__ move(FSR, R0);
aoqi@1	224	} else {
aoqi@1	225	__ move(FSR, value);
aoqi@1	226	}
aoqi@1	227	}
aoqi@1	228
aoqi@1	229	void TemplateTable::lconst(int value) {
aoqi@1	230	transition(vtos, ltos);
aoqi@1	231	if (value == 0) {
aoqi@1	232	__ move(FSR, R0);
aoqi@1	233	} else {
aoqi@1	234	__ move(FSR, value);
aoqi@1	235	}
aoqi@1	236	assert(value >= 0, "check this code");
aoqi@1	237	//__ move(SSR, R0);
aoqi@1	238	}
aoqi@1	239
aoqi@1	240	void TemplateTable::fconst(int value) {
aoqi@1	241	static float _f1 = 1.0, _f2 = 2.0;
aoqi@1	242	transition(vtos, ftos);
aoqi@1	243	float* p;
aoqi@1	244	switch( value ) {
aoqi@1	245	default: ShouldNotReachHere();
aoqi@1	246	case 0: __ dmtc1(R0, FSF); return;
aoqi@1	247	case 1: p = &_f1; break;
aoqi@1	248	case 2: p = &_f2; break;
aoqi@1	249	}
aoqi@1	250	__ li(AT, (address)p);
aoqi@1	251	__ lwc1(FSF, AT, 0);
aoqi@1	252	}
aoqi@1	253
aoqi@1	254	void TemplateTable::dconst(int value) {
aoqi@1	255	static double _d1 = 1.0;
aoqi@1	256	transition(vtos, dtos);
aoqi@1	257	double* p;
aoqi@1	258	switch( value ) {
aoqi@1	259	default: ShouldNotReachHere();
aoqi@1	260	case 0: __ dmtc1(R0, FSF); return;
aoqi@1	261	case 1: p = &_d1; break;
aoqi@1	262	}
aoqi@1	263	__ li(AT, (address)p);
aoqi@1	264	__ ldc1(FSF, AT, 0);
aoqi@1	265	}
aoqi@1	266
aoqi@1	267	void TemplateTable::bipush() {
aoqi@1	268	transition(vtos, itos);
aoqi@1	269	__ lb(FSR, at_bcp(1));
aoqi@1	270	}
aoqi@1	271
aoqi@1	272	void TemplateTable::sipush() {
aoqi@1	273	transition(vtos, itos);
aoqi@16	274	__ get_2_byte_integer_at_bcp(FSR, AT, 1);
aoqi@1	275	__ hswap(FSR);
aoqi@1	276	}
aoqi@1	277
aoqi@1	278	// T1 : tags
aoqi@1	279	// T2 : index
aoqi@1	280	// T3 : cpool
aoqi@1	281	// T8 : tag
aoqi@1	282	void TemplateTable::ldc(bool wide) {
aoqi@1	283	transition(vtos, vtos);
aoqi@1	284	Label call_ldc, notFloat, notClass, Done;
aoqi@1	285	// get index in cpool
aoqi@1	286	if (wide) {
aoqi@16	287	__ get_2_byte_integer_at_bcp(T2, AT, 1);
aoqi@1	288	__ huswap(T2);
aoqi@1	289	} else {
aoqi@1	290	__ lbu(T2, at_bcp(1));
aoqi@1	291	}
aoqi@1	292
aoqi@1	293	__ get_cpool_and_tags(T3, T1);
aoqi@1	294
aoqi@1	295	const int base_offset = ConstantPool::header_size() * wordSize;
aoqi@1	296	const int tags_offset = Array<u1>::base_offset_in_bytes();
aoqi@1	297
aoqi@1	298	// get type
aoqi@1	299	__ dadd(AT, T1, T2);
aoqi@1	300	__ lb(T1, AT, tags_offset);
aoqi@1	301	//now T1 is the tag
aoqi@1	302
aoqi@1	303	// unresolved string - get the resolved string
aoqi@1	304	/*__ daddiu(AT, T1, - JVM_CONSTANT_UnresolvedString);
aoqi@1	305	__ beq(AT, R0, call_ldc);
aoqi@1	306	__ delayed()->nop();*/
aoqi@1	307
aoqi@1	308	// unresolved class - get the resolved class
aoqi@1	309	__ daddiu(AT, T1, - JVM_CONSTANT_UnresolvedClass);
aoqi@1	310	__ beq(AT, R0, call_ldc);
aoqi@1	311	__ delayed()->nop();
aoqi@1	312
aoqi@1	313	// unresolved class in error (resolution failed) - call into runtime
aoqi@1	314	// so that the same error from first resolution attempt is thrown.
aoqi@1	315	__ daddiu(AT, T1, -JVM_CONSTANT_UnresolvedClassInError);
aoqi@1	316	__ beq(AT, R0, call_ldc);
aoqi@1	317	__ delayed()->nop();
aoqi@1	318
aoqi@1	319	// resolved class - need to call vm to get java mirror of the class
aoqi@1	320	__ daddiu(AT, T1, - JVM_CONSTANT_Class);
aoqi@1	321	__ bne(AT, R0, notClass);
aoqi@1	322	__ delayed()->dsll(T2, T2, Address::times_8);
aoqi@1	323
aoqi@1	324	__ bind(call_ldc);
aoqi@1	325
aoqi@1	326	__ move(A1, wide);
aoqi@1	327	call_VM(FSR, CAST_FROM_FN_PTR(address, InterpreterRuntime::ldc), A1);
aoqi@1	328	// __ sw(FSR, SP, - 1 * wordSize);
aoqi@1	329	__ push(atos);
aoqi@1	330	__ b(Done);
aoqi@1	331	// __ delayed()->daddi(SP, SP, - 1 * wordSize);
aoqi@1	332	__ delayed()->nop();
aoqi@1	333	__ bind(notClass);
aoqi@1	334
aoqi@1	335	__ daddiu(AT, T1, -JVM_CONSTANT_Float);
aoqi@1	336	__ bne(AT, R0, notFloat);
aoqi@1	337	__ delayed()->nop();
aoqi@1	338	// ftos
aoqi@1	339	__ dadd(AT, T3, T2);
aoqi@1	340	__ lwc1(FSF, AT, base_offset);
aoqi@1	341	__ push_f();
aoqi@1	342	__ b(Done);
aoqi@1	343	__ delayed()->nop();
aoqi@1	344
aoqi@1	345	__ bind(notFloat);
aoqi@1	346	#ifdef ASSERT
aoqi@1	347	{
aoqi@1	348	Label L;
aoqi@1	349	__ daddiu(AT, T1, -JVM_CONSTANT_Integer);
aoqi@1	350	__ beq(AT, R0, L);
aoqi@1	351	__ delayed()->nop();
aoqi@1	352	__ stop("unexpected tag type in ldc");
aoqi@1	353	__ bind(L);
aoqi@1	354	}
aoqi@1	355	#endif
aoqi@1	356	// atos and itos
aoqi@1	357	__ dadd(T0, T3, T2);
aoqi@1	358	__ lw(FSR, T0, base_offset);
aoqi@1	359	__ push(itos);
aoqi@1	360	__ b(Done);
aoqi@1	361	__ delayed()->nop();
aoqi@1	362
aoqi@1	363
aoqi@1	364	if (VerifyOops) {
aoqi@1	365	__ verify_oop(FSR);
aoqi@1	366	}
aoqi@1	367
aoqi@1	368	__ bind(Done);
aoqi@1	369	}
aoqi@1	370
aoqi@1	371	// Fast path for caching oop constants.
aoqi@1	372	void TemplateTable::fast_aldc(bool wide) {
aoqi@1	373	transition(vtos, atos);
aoqi@1	374
aoqi@1	375	Register result = FSR;
aoqi@1	376	Register tmp = SSR;
aoqi@1	377	int index_size = wide ? sizeof(u2) : sizeof(u1);
aoqi@1	378
aoqi@1	379	Label resolved;
aoqi@1	380	// We are resolved if the resolved reference cache entry contains a
aoqi@1	381	// non-null object (String, MethodType, etc.)
aoqi@1	382	assert_different_registers(result, tmp);
aoqi@1	383	__ get_cache_index_at_bcp(tmp, 1, index_size);
aoqi@1	384	__ load_resolved_reference_at_index(result, tmp);
aoqi@1	385	__ bne(result, R0, resolved);
aoqi@1	386	__ delayed()->nop();
aoqi@1	387
aoqi@1	388	address entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_ldc);
aoqi@1	389	// first time invocation - must resolve first
aoqi@1	390	int i = (int)bytecode();
aoqi@1	391	__ move(tmp, i);
aoqi@1	392	__ call_VM(result, entry, tmp);
aoqi@1	393
aoqi@1	394	__ bind(resolved);
aoqi@1	395
aoqi@1	396	if (VerifyOops) {
aoqi@1	397	__ verify_oop(result);
aoqi@1	398	}
aoqi@1	399	}
aoqi@1	400
aoqi@1	401
aoqi@1	402	// used register: T2, T3, T1
aoqi@1	403	// T2 : index
aoqi@1	404	// T3 : cpool
aoqi@1	405	// T1 : tag
aoqi@1	406	void TemplateTable::ldc2_w() {
aoqi@1	407	transition(vtos, vtos);
aoqi@1	408	Label Long, Done;
aoqi@1	409
aoqi@1	410	// get index in cpool
aoqi@16	411	__ get_2_byte_integer_at_bcp(T2, AT, 1);
aoqi@1	412	__ huswap(T2);
aoqi@1	413
aoqi@1	414	__ get_cpool_and_tags(T3, T1);
aoqi@1	415
aoqi@1	416	const int base_offset = ConstantPool::header_size() * wordSize;
aoqi@1	417	const int tags_offset = Array<u1>::base_offset_in_bytes();
aoqi@1	418
aoqi@1	419	// get type in T1
aoqi@1	420	__ dadd(AT, T1, T2);
aoqi@1	421	__ lb(T1, AT, tags_offset);
aoqi@1	422
aoqi@1	423	__ daddiu(AT, T1, - JVM_CONSTANT_Double);
aoqi@1	424	__ bne(AT, R0, Long);
aoqi@1	425	__ delayed()->dsll(T2, T2, Address::times_8);
aoqi@1	426	// dtos
aoqi@1	427	__ daddu(AT, T3, T2);
aoqi@1	428	__ ldc1(FSF, AT, base_offset + 0 * wordSize);
aoqi@1	429	__ sdc1(FSF, SP, - 2 * wordSize);
aoqi@1	430	__ b(Done);
aoqi@1	431	__ delayed()->daddi(SP, SP, - 2 * wordSize);
aoqi@1	432
aoqi@1	433	// ltos
aoqi@1	434	__ bind(Long);
aoqi@1	435	__ dadd(AT, T3, T2);
aoqi@1	436	__ ld(FSR, AT, base_offset + 0 * wordSize);
aoqi@1	437	__ push(ltos);
aoqi@1	438
aoqi@1	439	__ bind(Done);
aoqi@1	440	}
aoqi@1	441
aoqi@1	442	// we compute the actual local variable address here
aoqi@1	443	// the x86 dont do so for it has scaled index memory access model, we dont have, so do here
aoqi@1	444	void TemplateTable::locals_index(Register reg, int offset) {
aoqi@1	445	__ lbu(reg, at_bcp(offset));
aoqi@1	446	__ dsll(reg, reg, Address::times_8);
aoqi@1	447	__ dsub(reg, LVP, reg);
aoqi@1	448	}
aoqi@1	449
aoqi@1	450	// this method will do bytecode folding of the two form:
aoqi@1	451	// iload iload iload caload
aoqi@1	452	// used register : T2, T3
aoqi@1	453	// T2 : bytecode
aoqi@1	454	// T3 : folded code
aoqi@1	455	void TemplateTable::iload() {
aoqi@1	456	transition(vtos, itos);
aoqi@1	457	if (RewriteFrequentPairs) {
aoqi@1	458	Label rewrite, done;
aoqi@1	459	// get the next bytecode in T2
aoqi@1	460	__ lbu(T2, at_bcp(Bytecodes::length_for(Bytecodes::_iload)));
aoqi@1	461	// if _iload, wait to rewrite to iload2. We only want to rewrite the
aoqi@1	462	// last two iloads in a pair. Comparing against fast_iload means that
aoqi@1	463	// the next bytecode is neither an iload or a caload, and therefore
aoqi@1	464	// an iload pair.
aoqi@1	465	__ move(AT, Bytecodes::_iload);
aoqi@1	466	__ beq(AT, T2, done);
aoqi@1	467	__ delayed()->nop();
aoqi@1	468
aoqi@1	469	__ move(T3, Bytecodes::_fast_iload2);
aoqi@1	470	__ move(AT, Bytecodes::_fast_iload);
aoqi@1	471	__ beq(AT, T2, rewrite);
aoqi@1	472	__ delayed()->nop();
aoqi@1	473
aoqi@1	474	// if _caload, rewrite to fast_icaload
aoqi@1	475	__ move(T3, Bytecodes::_fast_icaload);
aoqi@1	476	__ move(AT, Bytecodes::_caload);
aoqi@1	477	__ beq(AT, T2, rewrite);
aoqi@1	478	__ delayed()->nop();
aoqi@1	479
aoqi@1	480	// rewrite so iload doesn't check again.
aoqi@1	481	__ move(T3, Bytecodes::_fast_iload);
aoqi@1	482
aoqi@1	483	// rewrite
aoqi@1	484	// T3 : fast bytecode
aoqi@1	485	__ bind(rewrite);
aoqi@1	486	patch_bytecode(Bytecodes::_iload, T3, T2, false);
aoqi@1	487	__ bind(done);
aoqi@1	488	}
aoqi@1	489
aoqi@1	490	// Get the local value into tos
aoqi@1	491	locals_index(T2);
aoqi@1	492	__ lw(FSR, T2, 0);
aoqi@1	493	}
aoqi@1	494
aoqi@1	495	// used register T2
aoqi@1	496	// T2 : index
aoqi@1	497	void TemplateTable::fast_iload2() {
aoqi@1	498	transition(vtos, itos);
aoqi@1	499	locals_index(T2);
aoqi@1	500	__ lw(FSR, T2, 0);
aoqi@1	501	__ push(itos);
aoqi@1	502	locals_index(T2, 3);
aoqi@1	503	__ lw(FSR, T2, 0);
aoqi@1	504	}
aoqi@1	505
aoqi@1	506	// used register T2
aoqi@1	507	// T2 : index
aoqi@1	508	void TemplateTable::fast_iload() {
aoqi@1	509	transition(vtos, itos);
aoqi@1	510	locals_index(T2);
aoqi@1	511	__ lw(FSR, T2, 0);
aoqi@1	512	}
aoqi@1	513
aoqi@1	514	// used register T2
aoqi@1	515	// T2 : index
aoqi@1	516	void TemplateTable::lload() {
aoqi@1	517
aoqi@1	518	transition(vtos, ltos);
aoqi@1	519	locals_index(T2);
aoqi@1	520	__ ld(FSR, T2, -wordSize);
aoqi@1	521	__ ld(SSR, T2, 0);
aoqi@1	522	}
aoqi@1	523
aoqi@1	524	// used register T2
aoqi@1	525	// T2 : index
aoqi@1	526	void TemplateTable::fload() {
aoqi@1	527	transition(vtos, ftos);
aoqi@1	528	locals_index(T2);
aoqi@1	529	//FIXME, aoqi. How should the high 32bits be when store a single float into a 64bits register.
aoqi@1	530	//__ mtc1(R0, FSF);
aoqi@1	531	__ lwc1(FSF, T2, 0);
aoqi@1	532	}
aoqi@1	533
aoqi@1	534	// used register T2
aoqi@1	535	// T2 : index
aoqi@1	536	void TemplateTable::dload() {
aoqi@1	537
aoqi@1	538	transition(vtos, dtos);
aoqi@1	539	locals_index(T2);
aoqi@1	540	/* if (TaggedStackInterpreter) {
aoqi@1	541	// Get double out of locals array, onto temp stack and load with
aoqi@1	542	// float instruction into ST0
aoqi@1	543	__ dsll(AT,T2,Interpreter::stackElementScale());
aoqi@1	544	__ dadd(AT, LVP, AT);
aoqi@1	545	__ ldc1(FSF, AT, Interpreter::local_offset_in_bytes(1));
aoqi@1	546	} else {*/
aoqi@1	547	__ ldc1(FSF, T2, -wordSize);
aoqi@1	548	__ ldc1(SSF, T2, 0);
aoqi@1	549	// }
aoqi@1	550	}
aoqi@1	551
aoqi@1	552	// used register T2
aoqi@1	553	// T2 : index
aoqi@1	554	void TemplateTable::aload()
aoqi@1	555	{
aoqi@1	556	transition(vtos, atos);
aoqi@1	557	locals_index(T2);
aoqi@1	558	__ ld(FSR, T2, 0);
aoqi@1	559	}
aoqi@1	560
aoqi@1	561	void TemplateTable::locals_index_wide(Register reg) {
aoqi@16	562	__ get_2_byte_integer_at_bcp(reg, AT, 2);
aoqi@1	563	__ huswap(reg);
aoqi@1	564	__ dsll(reg, reg, Address::times_8);
aoqi@1	565	__ dsub(reg, LVP, reg);
aoqi@1	566	}
aoqi@1	567
aoqi@1	568	// used register T2
aoqi@1	569	// T2 : index
aoqi@1	570	void TemplateTable::wide_iload() {
aoqi@1	571	transition(vtos, itos);
aoqi@1	572	locals_index_wide(T2);
aoqi@1	573	__ ld(FSR, T2, 0);
aoqi@1	574	}
aoqi@1	575
aoqi@1	576	// used register T2
aoqi@1	577	// T2 : index
aoqi@1	578	void TemplateTable::wide_lload() {
aoqi@1	579	transition(vtos, ltos);
aoqi@1	580	locals_index_wide(T2);
aoqi@1	581	__ ld(FSR, T2, -4);
aoqi@1	582	}
aoqi@1	583
aoqi@1	584	// used register T2
aoqi@1	585	// T2 : index
aoqi@1	586	void TemplateTable::wide_fload() {
aoqi@1	587	transition(vtos, ftos);
aoqi@1	588	locals_index_wide(T2);
aoqi@1	589	__ lwc1(FSF, T2, 0);
aoqi@1	590	}
aoqi@1	591
aoqi@1	592	// used register T2
aoqi@1	593	// T2 : index
aoqi@1	594	void TemplateTable::wide_dload() {
aoqi@1	595	transition(vtos, dtos);
aoqi@1	596	locals_index_wide(T2);
aoqi@1	597	/* if (TaggedStackInterpreter) {
aoqi@1	598	// Get double out of locals array, onto temp stack and load with
aoqi@1	599	// float instruction into ST0
aoqi@1	600	// __ movl(eax, laddress(ebx));
aoqi@1	601	// __ movl(edx, haddress(ebx));
aoqi@1	602	__ dsll(AT,T2,Interpreter::stackElementScale());
aoqi@1	603	__ dadd(AT, LVP, AT);
aoqi@1	604	__ ldc1(FSF, AT, Interpreter::local_offset_in_bytes(1));
aoqi@1	605
aoqi@1	606	// __ pushl(edx); // push hi first
aoqi@1	607	// __ pushl(eax);
aoqi@1	608	// __ fld_d(Address(esp));
aoqi@1	609	// __ addl(esp, 2*wordSize);
aoqi@1	610	} else {*/
aoqi@1	611	__ ldc1(FSF, T2, -4);
aoqi@1	612	//}
aoqi@1	613	}
aoqi@1	614
aoqi@1	615	// used register T2
aoqi@1	616	// T2 : index
aoqi@1	617	void TemplateTable::wide_aload() {
aoqi@1	618	transition(vtos, atos);
aoqi@1	619	locals_index_wide(T2);
aoqi@1	620	__ ld(FSR, T2, 0);
aoqi@1	621	}
aoqi@1	622
aoqi@1	623	// we use A2 as the regiser for index, BE CAREFUL!
aoqi@1	624	// we dont use our tge 29 now, for later optimization
aoqi@1	625	void TemplateTable::index_check(Register array, Register index) {
aoqi@1	626	// Pop ptr into array
aoqi@1	627	__ pop_ptr(array);
aoqi@1	628	index_check_without_pop(array, index);
aoqi@1	629	}
aoqi@1	630
aoqi@1	631	void TemplateTable::index_check_without_pop(Register array, Register index) {
aoqi@1	632	// destroys ebx
aoqi@1	633	// check array
aoqi@1	634	__ null_check(array, arrayOopDesc::length_offset_in_bytes());
aoqi@1	635
aoqi@1	636	// check index
aoqi@1	637	Label ok;
aoqi@1	638	__ lw(AT, array, arrayOopDesc::length_offset_in_bytes());
aoqi@1	639	#ifndef OPT_RANGECHECK
aoqi@1	640	__ sltu(AT, index, AT);
aoqi@1	641	__ bne(AT, R0, ok);
aoqi@1	642	__ delayed()->nop();
aoqi@1	643
aoqi@1	644	//throw_ArrayIndexOutOfBoundsException assume abberrant index in A2
aoqi@1	645	if (A2 != index) __ move(A2, index);
aoqi@1	646	__ jmp(Interpreter::_throw_ArrayIndexOutOfBoundsException_entry);
aoqi@1	647	__ delayed()->nop();
aoqi@1	648	__ bind(ok);
aoqi@1	649	#else
aoqi@1	650	__ lw(AT, array, arrayOopDesc::length_offset_in_bytes());
aoqi@1	651	__ move(A2, index);
aoqi@1	652	__ tgeu(A2, AT, 29);
aoqi@1	653	#endif
aoqi@1	654	}
aoqi@1	655
aoqi@1	656	void TemplateTable::iaload() {
aoqi@1	657	transition(itos, itos);
aoqi@1	658	// __ pop(SSR);
aoqi@1	659	index_check(SSR, FSR);
aoqi@1	660	__ dsll(FSR, FSR, 2);
aoqi@1	661	__ dadd(FSR, SSR, FSR);
aoqi@1	662	//FSR: index
aoqi@1	663	__ lw(FSR, FSR, arrayOopDesc::base_offset_in_bytes(T_INT));
aoqi@1	664	}
aoqi@1	665
aoqi@1	666
aoqi@1	667	void TemplateTable::laload() {
aoqi@1	668	transition(itos, ltos);
aoqi@1	669	// __ pop(SSR);
aoqi@1	670	index_check(SSR, FSR);
aoqi@1	671	__ dsll(AT, FSR, Address::times_8);
aoqi@1	672	__ dadd(AT, SSR, AT);
aoqi@1	673	__ ld(FSR, AT, arrayOopDesc::base_offset_in_bytes(T_LONG) + 0 * wordSize);
aoqi@1	674	}
aoqi@1	675
aoqi@1	676	void TemplateTable::faload() {
aoqi@1	677	transition(itos, ftos);
aoqi@1	678	// __ pop(SSR);
aoqi@1	679	index_check(SSR, FSR);
aoqi@1	680	__ shl(FSR, 2);
aoqi@1	681	__ dadd(FSR, SSR, FSR);
aoqi@1	682	__ lwc1(FSF, FSR, arrayOopDesc::base_offset_in_bytes(T_FLOAT));
aoqi@1	683	}
aoqi@1	684
aoqi@1	685	void TemplateTable::daload() {
aoqi@1	686	transition(itos, dtos);
aoqi@1	687	//__ pop(SSR);
aoqi@1	688	index_check(SSR, FSR);
aoqi@1	689	__ dsll(AT, FSR, 3);
aoqi@1	690	__ dadd(AT, SSR, AT);
aoqi@1	691	__ ldc1(FSF, AT, arrayOopDesc::base_offset_in_bytes(T_DOUBLE) + 0 * wordSize);
aoqi@1	692	}
aoqi@1	693
aoqi@1	694	void TemplateTable::aaload() {
aoqi@1	695	transition(itos, atos);
aoqi@1	696	//__ pop(SSR);
aoqi@1	697	index_check(SSR, FSR);
aoqi@1	698	__ dsll(FSR, FSR, UseCompressedOops ? Address::times_4 : Address::times_8);
aoqi@1	699	__ dadd(FSR, SSR, FSR);
aoqi@1	700	//add for compressedoops
aoqi@1	701	__ load_heap_oop(FSR, Address(FSR, arrayOopDesc::base_offset_in_bytes(T_OBJECT)));
aoqi@1	702	}
aoqi@1	703
aoqi@1	704	void TemplateTable::baload() {
aoqi@1	705	transition(itos, itos);
aoqi@1	706	//__ pop(SSR);
aoqi@1	707	index_check(SSR, FSR);
aoqi@1	708	__ dadd(FSR, SSR, FSR);
aoqi@1	709	__ lb(FSR, FSR, arrayOopDesc::base_offset_in_bytes(T_BYTE));
aoqi@1	710	}
aoqi@1	711
aoqi@1	712	void TemplateTable::caload() {
aoqi@1	713	transition(itos, itos);
aoqi@1	714	// __ pop(SSR);
aoqi@1	715	index_check(SSR, FSR);
aoqi@1	716	__ dsll(FSR, FSR, Address::times_2);
aoqi@1	717	__ dadd(FSR, SSR, FSR);
aoqi@1	718	__ lhu(FSR, FSR, arrayOopDesc::base_offset_in_bytes(T_CHAR));
aoqi@1	719	}
aoqi@1	720
aoqi@1	721	// iload followed by caload frequent pair
aoqi@1	722	// used register : T2
aoqi@1	723	// T2 : index
aoqi@1	724	void TemplateTable::fast_icaload() {
aoqi@1	725	transition(vtos, itos);
aoqi@1	726	// load index out of locals
aoqi@1	727	locals_index(T2);
aoqi@1	728	__ lw(FSR, T2, 0);
aoqi@1	729	// __ pop(SSR);
aoqi@1	730	index_check(SSR, FSR);
aoqi@1	731	__ dsll(FSR, FSR, 1);
aoqi@1	732	__ dadd(FSR, SSR, FSR);
aoqi@1	733	__ lhu(FSR, FSR, arrayOopDesc::base_offset_in_bytes(T_CHAR));
aoqi@1	734	}
aoqi@1	735
aoqi@1	736	void TemplateTable::saload() {
aoqi@1	737	transition(itos, itos);
aoqi@1	738	// __ pop(SSR);
aoqi@1	739	index_check(SSR, FSR);
aoqi@1	740	__ dsll(FSR, FSR, Address::times_2);
aoqi@1	741	__ dadd(FSR, SSR, FSR);
aoqi@1	742	__ lh(FSR, FSR, arrayOopDesc::base_offset_in_bytes(T_SHORT));
aoqi@1	743	}
aoqi@1	744
aoqi@1	745	void TemplateTable::iload(int n) {
aoqi@1	746	transition(vtos, itos);
aoqi@1	747	__ lw(FSR, iaddress(n));
aoqi@1	748	}
aoqi@1	749
aoqi@1	750	void TemplateTable::lload(int n) {
aoqi@1	751	transition(vtos, ltos);
aoqi@1	752	__ ld(FSR, laddress(n));
aoqi@1	753	}
aoqi@1	754
aoqi@1	755	void TemplateTable::fload(int n) {
aoqi@1	756	transition(vtos, ftos);
aoqi@1	757	//__ mtc1(R0, FSF);
aoqi@1	758	__ lwc1(FSF, faddress(n));
aoqi@1	759	}
aoqi@1	760	//FIXME here
aoqi@1	761	void TemplateTable::dload(int n) {
aoqi@1	762	transition(vtos, dtos);
aoqi@1	763	__ ldc1(FSF, laddress(n));
aoqi@1	764	}
aoqi@1	765
aoqi@1	766	void TemplateTable::aload(int n) {
aoqi@1	767	transition(vtos, atos);
aoqi@1	768	__ ld(FSR, aaddress(n));
aoqi@1	769	}
aoqi@1	770
aoqi@1	771	// used register : T2, T3
aoqi@1	772	// T2 : bytecode
aoqi@1	773	// T3 : folded code
aoqi@1	774	void TemplateTable::aload_0() {
aoqi@1	775	transition(vtos, atos);
aoqi@1	776	// According to bytecode histograms, the pairs:
aoqi@1	777	//
aoqi@1	778	// _aload_0, _fast_igetfield
aoqi@1	779	// _aload_0, _fast_agetfield
aoqi@1	780	// _aload_0, _fast_fgetfield
aoqi@1	781	//
aoqi@1	782	// occur frequently. If RewriteFrequentPairs is set, the (slow) _aload_0
aoqi@1	783	// bytecode checks if the next bytecode is either _fast_igetfield,
aoqi@1	784	// _fast_agetfield or _fast_fgetfield and then rewrites the
aoqi@1	785	// current bytecode into a pair bytecode; otherwise it rewrites the current
aoqi@1	786	// bytecode into _fast_aload_0 that doesn't do the pair check anymore.
aoqi@1	787	//
aoqi@1	788	// Note: If the next bytecode is _getfield, the rewrite must be delayed,
aoqi@1	789	// otherwise we may miss an opportunity for a pair.
aoqi@1	790	//
aoqi@1	791	// Also rewrite frequent pairs
aoqi@1	792	// aload_0, aload_1
aoqi@1	793	// aload_0, iload_1
aoqi@1	794	// These bytecodes with a small amount of code are most profitable to rewrite
aoqi@1	795	if (RewriteFrequentPairs) {
aoqi@1	796	Label rewrite, done;
aoqi@1	797	// get the next bytecode in T2
aoqi@1	798	__ lbu(T2, at_bcp(Bytecodes::length_for(Bytecodes::_aload_0)));
aoqi@1	799
aoqi@1	800	// do actual aload_0
aoqi@1	801	aload(0);
aoqi@1	802
aoqi@1	803	// if _getfield then wait with rewrite
aoqi@1	804	__ move(AT, Bytecodes::_getfield);
aoqi@1	805	__ beq(AT, T2, done);
aoqi@1	806	__ delayed()->nop();
aoqi@1	807
aoqi@1	808	// if _igetfield then reqrite to _fast_iaccess_0
aoqi@1	809	assert(Bytecodes::java_code(Bytecodes::_fast_iaccess_0) ==
aoqi@1	810	Bytecodes::_aload_0, "fix bytecode definition");
aoqi@1	811	__ move(T3, Bytecodes::_fast_iaccess_0);
aoqi@1	812	__ move(AT, Bytecodes::_fast_igetfield);
aoqi@1	813	__ beq(AT, T2, rewrite);
aoqi@1	814	__ delayed()->nop();
aoqi@1	815
aoqi@1	816	// if _agetfield then reqrite to _fast_aaccess_0
aoqi@1	817	assert(Bytecodes::java_code(Bytecodes::_fast_aaccess_0) ==
aoqi@1	818	Bytecodes::_aload_0, "fix bytecode definition");
aoqi@1	819	__ move(T3, Bytecodes::_fast_aaccess_0);
aoqi@1	820	__ move(AT, Bytecodes::_fast_agetfield);
aoqi@1	821	__ beq(AT, T2, rewrite);
aoqi@1	822	__ delayed()->nop();
aoqi@1	823
aoqi@1	824	// if _fgetfield then reqrite to _fast_faccess_0
aoqi@1	825	assert(Bytecodes::java_code(Bytecodes::_fast_faccess_0) ==
aoqi@1	826	Bytecodes::_aload_0, "fix bytecode definition");
aoqi@1	827	__ move(T3, Bytecodes::_fast_faccess_0);
aoqi@1	828	__ move(AT, Bytecodes::_fast_fgetfield);
aoqi@1	829	__ beq(AT, T2, rewrite);
aoqi@1	830	__ delayed()->nop();
aoqi@1	831
aoqi@1	832	// else rewrite to _fast_aload0
aoqi@1	833	assert(Bytecodes::java_code(Bytecodes::_fast_aload_0) ==
aoqi@1	834	Bytecodes::_aload_0, "fix bytecode definition");
aoqi@1	835	__ move(T3, Bytecodes::_fast_aload_0);
aoqi@1	836
aoqi@1	837	// rewrite
aoqi@1	838	__ bind(rewrite);
aoqi@1	839	patch_bytecode(Bytecodes::_aload_0, T3, T2, false);
aoqi@1	840
aoqi@1	841	__ bind(done);
aoqi@1	842	} else {
aoqi@1	843	aload(0);
aoqi@1	844	}
aoqi@1	845	}
aoqi@1	846
aoqi@1	847	void TemplateTable::istore() {
aoqi@1	848	transition(itos, vtos);
aoqi@1	849	locals_index(T2);
aoqi@1	850	__ sw(FSR, T2, 0);
aoqi@1	851	}
aoqi@1	852
aoqi@1	853	void TemplateTable::lstore() {
aoqi@1	854	transition(ltos, vtos);
aoqi@1	855	locals_index(T2);
aoqi@1	856	__ sd(FSR, T2, -wordSize);
aoqi@1	857	}
aoqi@1	858
aoqi@1	859	void TemplateTable::fstore() {
aoqi@1	860	transition(ftos, vtos);
aoqi@1	861	locals_index(T2);
aoqi@1	862	__ swc1(FSF, T2, 0);
aoqi@1	863	}
aoqi@1	864
aoqi@1	865	void TemplateTable::dstore() {
aoqi@1	866	transition(dtos, vtos);
aoqi@1	867	locals_index(T2);
aoqi@1	868	__ sdc1(FSF, T2, -wordSize);
aoqi@1	869	}
aoqi@1	870
aoqi@1	871	void TemplateTable::astore() {
aoqi@1	872	transition(vtos, vtos);
aoqi@1	873	// __ pop(FSR);
aoqi@1	874	__ pop_ptr(FSR);
aoqi@1	875	locals_index(T2);
aoqi@1	876	__ sd(FSR, T2, 0);
aoqi@1	877	}
aoqi@1	878
aoqi@1	879	void TemplateTable::wide_istore() {
aoqi@1	880	transition(vtos, vtos);
aoqi@1	881	// __ pop(FSR);
aoqi@1	882	__ pop_i(FSR);
aoqi@1	883	locals_index_wide(T2);
aoqi@1	884	__ sd(FSR, T2, 0);
aoqi@1	885	}
aoqi@1	886
aoqi@1	887	void TemplateTable::wide_lstore() {
aoqi@1	888	transition(vtos, vtos);
aoqi@1	889	//__ pop2(FSR, SSR);
aoqi@1	890	//__ pop_l(FSR, SSR);
aoqi@1	891	__ pop_l(FSR); //aoqi:FIXME Is this right?
aoqi@1	892	locals_index_wide(T2);
aoqi@1	893	__ sd(FSR, T2, -4);
aoqi@1	894	}
aoqi@1	895
aoqi@1	896	void TemplateTable::wide_fstore() {
aoqi@1	897	wide_istore();
aoqi@1	898	}
aoqi@1	899
aoqi@1	900	void TemplateTable::wide_dstore() {
aoqi@1	901	wide_lstore();
aoqi@1	902	}
aoqi@1	903
aoqi@1	904	void TemplateTable::wide_astore() {
aoqi@1	905	transition(vtos, vtos);
aoqi@1	906	__ pop_ptr(FSR);
aoqi@1	907	locals_index_wide(T2);
aoqi@1	908	__ sd(FSR, T2, 0);
aoqi@1	909	}
aoqi@1	910
aoqi@1	911	// used register : T2
aoqi@1	912	void TemplateTable::iastore() {
aoqi@1	913	transition(itos, vtos);
aoqi@1	914	__ pop_i(SSR);
aoqi@1	915	index_check(T2, SSR); // prefer index in ebx
aoqi@1	916	__ dsll(SSR, SSR, Address::times_4);
aoqi@1	917	__ dadd(T2, T2, SSR);
aoqi@1	918	__ sw(FSR, T2, arrayOopDesc::base_offset_in_bytes(T_INT));
aoqi@1	919	}
aoqi@1	920
aoqi@1	921
aoqi@1	922
aoqi@1	923	// used register T2, T3
aoqi@1	924	void TemplateTable::lastore() {
aoqi@1	925	transition(ltos, vtos);
aoqi@1	926	__ pop_i (T2);
aoqi@1	927	index_check(T3, T2);
aoqi@1	928	__ dsll(T2, T2, Address::times_8);
aoqi@1	929	__ dadd(T3, T3, T2);
aoqi@1	930	__ sd(FSR, T3, arrayOopDesc::base_offset_in_bytes(T_LONG) + 0 * wordSize);
aoqi@1	931	}
aoqi@1	932
aoqi@1	933	// used register T2
aoqi@1	934	void TemplateTable::fastore() {
aoqi@1	935	transition(ftos, vtos);
aoqi@1	936	__ pop_i(SSR);
aoqi@1	937	index_check(T2, SSR);
aoqi@1	938	__ dsll(SSR, SSR, Address::times_4);
aoqi@1	939	__ dadd(T2, T2, SSR);
aoqi@1	940	__ swc1(FSF, T2, arrayOopDesc::base_offset_in_bytes(T_FLOAT));
aoqi@1	941	}
aoqi@1	942
aoqi@1	943	// used register T2, T3
aoqi@1	944	void TemplateTable::dastore() {
aoqi@1	945	transition(dtos, vtos);
aoqi@1	946	__ pop_i (T2);
aoqi@1	947	index_check(T3, T2);
aoqi@1	948	__ dsll(T2, T2, Address::times_8);
aoqi@1	949	__ daddu(T3, T3, T2);
aoqi@1	950	__ sdc1(FSF, T3, arrayOopDesc::base_offset_in_bytes(T_DOUBLE) + 0 * wordSize);
aoqi@1	951
aoqi@1	952	}
aoqi@1	953
aoqi@1	954	// used register : T2, T3, T8
aoqi@1	955	// T2 : array
aoqi@1	956	// T3 : subklass
aoqi@1	957	// T8 : supklass
aoqi@1	958	void TemplateTable::aastore() {
aoqi@1	959	Label is_null, ok_is_subtype, done;
aoqi@1	960	transition(vtos, vtos);
aoqi@1	961	// stack: ..., array, index, value
aoqi@1	962	__ ld(FSR, at_tos()); // Value
aoqi@1	963	__ lw(SSR, at_tos_p1()); // Index
aoqi@1	964	__ ld(T2, at_tos_p2()); // Array
aoqi@1	965
aoqi@1	966	// index_check(T2, SSR);
aoqi@1	967	index_check_without_pop(T2, SSR);
aoqi@1	968	// do array store check - check for NULL value first
aoqi@1	969	__ beq(FSR, R0, is_null);
aoqi@1	970	__ delayed()->nop();
aoqi@1	971
aoqi@1	972	// Move subklass into T3
aoqi@1	973	//__ ld(T3, Address(FSR, oopDesc::klass_offset_in_bytes()));
aoqi@1	974	//add for compressedoops
aoqi@1	975	__ load_klass(T3, FSR);
aoqi@1	976	// Move superklass into T8
aoqi@1	977	//__ ld(T8, Address(T2, oopDesc::klass_offset_in_bytes()));
aoqi@1	978	//add for compressedoops
aoqi@1	979	__ load_klass(T8, T2);
aoqi@1	980	__ ld(T8, Address(T8, ObjArrayKlass::element_klass_offset()));
aoqi@1	981	// Compress array+index*4+12 into a single register. T2
aoqi@1	982	__ dsll(AT, SSR, UseCompressedOops? Address::times_4 : Address::times_8);
aoqi@1	983	__ dadd(T2, T2, AT);
aoqi@1	984	__ daddi(T2, T2, arrayOopDesc::base_offset_in_bytes(T_OBJECT));
aoqi@1	985
aoqi@1	986	// Generate subtype check.
aoqi@1	987	// Superklass in T8. Subklass in T3.
aoqi@1	988	__ gen_subtype_check(T8, T3, ok_is_subtype); // <-- Jin
aoqi@1	989	// Come here on failure
aoqi@1	990	// object is at FSR
aoqi@1	991	__ jmp(Interpreter::_throw_ArrayStoreException_entry); // <-- Jin
aoqi@1	992	__ delayed()->nop();
aoqi@1	993	// Come here on success
aoqi@1	994	__ bind(ok_is_subtype);
aoqi@1	995	//replace with do_oop_store->store_heap_oop
aoqi@1	996	//__ sd(FSR, T2, 0);
aoqi@1	997	__ store_heap_oop(Address(T2, 0), FSR); // <-- Jin
fujie@32	998	__ sync();
aoqi@1	999	__ store_check(T2);
aoqi@1	1000	__ b(done);
aoqi@1	1001	__ delayed()->nop();
aoqi@1	1002
aoqi@1	1003	// Have a NULL in FSR, EDX=T2, SSR=index. Store NULL at ary[idx]
aoqi@1	1004	__ bind(is_null);
aoqi@1	1005	__ profile_null_seen(T9);
aoqi@1	1006	__ dsll(AT, SSR, UseCompressedOops? Address::times_4 : Address::times_8);
aoqi@1	1007	__ dadd(T2, T2, AT);
aoqi@1	1008	//__ sd(FSR, T2, arrayOopDesc::base_offset_in_bytes(T_OBJECT));
aoqi@1	1009	__ store_heap_oop(Address(T2, arrayOopDesc::base_offset_in_bytes(T_OBJECT)), FSR); /* FSR is null here */
fujie@32	1010	__ sync();
aoqi@1	1011
aoqi@1	1012	__ bind(done);
aoqi@1	1013	__ daddi(SP, SP, 3 * Interpreter::stackElementSize);
aoqi@1	1014	}
aoqi@1	1015
aoqi@1	1016	void TemplateTable::bastore() {
aoqi@1	1017	transition(itos, vtos);
aoqi@1	1018	__ pop_i (SSR);
aoqi@1	1019	index_check(T2, SSR);
aoqi@1	1020	__ dadd(SSR, T2, SSR);
aoqi@1	1021	__ sb(FSR, SSR, arrayOopDesc::base_offset_in_bytes(T_BYTE));
aoqi@1	1022	}
aoqi@1	1023
aoqi@1	1024	void TemplateTable::castore() {
aoqi@1	1025	transition(itos, vtos);
aoqi@1	1026	__ pop_i(SSR);
aoqi@1	1027	index_check(T2, SSR);
aoqi@1	1028	__ dsll(SSR, SSR, Address::times_2);
aoqi@1	1029	__ dadd(SSR, T2, SSR);
aoqi@1	1030	__ sh(FSR, SSR, arrayOopDesc::base_offset_in_bytes(T_CHAR));
aoqi@1	1031	}
aoqi@1	1032
aoqi@1	1033	void TemplateTable::sastore() {
aoqi@1	1034	castore();
aoqi@1	1035	}
aoqi@1	1036
aoqi@1	1037	void TemplateTable::istore(int n) {
aoqi@1	1038	transition(itos, vtos);
aoqi@1	1039	__ sw(FSR, iaddress(n));
aoqi@1	1040	}
aoqi@1	1041
aoqi@1	1042	void TemplateTable::lstore(int n) {
aoqi@1	1043	transition(ltos, vtos);
aoqi@1	1044	__ sd(FSR, laddress(n));
aoqi@1	1045	}
aoqi@1	1046
aoqi@1	1047	void TemplateTable::fstore(int n) {
aoqi@1	1048	transition(ftos, vtos);
aoqi@1	1049	__ swc1(FSF, faddress(n));
aoqi@1	1050	}
aoqi@1	1051
aoqi@1	1052	void TemplateTable::dstore(int n) {
aoqi@1	1053	transition(dtos, vtos);
aoqi@1	1054	__ sdc1(FSF, laddress(n));
aoqi@1	1055	}
aoqi@1	1056
aoqi@1	1057	void TemplateTable::astore(int n) {
aoqi@1	1058	transition(vtos, vtos);
aoqi@1	1059	__ pop_ptr(FSR);
aoqi@1	1060	__ sd(FSR, aaddress(n));
aoqi@1	1061	}
aoqi@1	1062
aoqi@1	1063	void TemplateTable::pop() {
aoqi@1	1064	transition(vtos, vtos);
aoqi@1	1065	__ daddi(SP, SP, Interpreter::stackElementSize);
aoqi@1	1066	}
aoqi@1	1067
aoqi@1	1068	void TemplateTable::pop2() {
aoqi@1	1069	transition(vtos, vtos);
aoqi@1	1070	__ daddi(SP, SP, 2 * Interpreter::stackElementSize);
aoqi@1	1071	}
aoqi@1	1072
aoqi@1	1073	void TemplateTable::dup() {
aoqi@1	1074	transition(vtos, vtos);
aoqi@1	1075	// stack: ..., a
aoqi@1	1076	__ load_ptr(0, FSR);
aoqi@1	1077	__ push_ptr(FSR);
aoqi@1	1078	// stack: ..., a, a
aoqi@1	1079	}
aoqi@1	1080
aoqi@1	1081	// blows FSR
aoqi@1	1082	void TemplateTable::dup_x1() {
aoqi@1	1083	transition(vtos, vtos);
aoqi@1	1084	// stack: ..., a, b
aoqi@1	1085	__ load_ptr(0, FSR); // load b
aoqi@1	1086	__ load_ptr(1, A5); // load a
aoqi@1	1087	__ store_ptr(1, FSR); // store b
aoqi@1	1088	__ store_ptr(0, A5); // store a
aoqi@1	1089	__ push_ptr(FSR); // push b
aoqi@1	1090	// stack: ..., b, a, b
aoqi@1	1091	}
aoqi@1	1092
aoqi@1	1093	// blows FSR
aoqi@1	1094	void TemplateTable::dup_x2() {
aoqi@1	1095	transition(vtos, vtos);
aoqi@1	1096	// stack: ..., a, b, c
aoqi@1	1097	__ load_ptr(0, FSR); // load c
aoqi@1	1098	__ load_ptr(2, A5); // load a
aoqi@1	1099	__ store_ptr(2, FSR); // store c in a
aoqi@1	1100	__ push_ptr(FSR); // push c
aoqi@1	1101	// stack: ..., c, b, c, c
aoqi@1	1102	__ load_ptr(2, FSR); // load b
aoqi@1	1103	__ store_ptr(2, A5); // store a in b
aoqi@1	1104	// stack: ..., c, a, c, c
aoqi@1	1105	__ store_ptr(1, FSR); // store b in c
aoqi@1	1106	// stack: ..., c, a, b, c
aoqi@1	1107	}
aoqi@1	1108
aoqi@1	1109	// blows FSR
aoqi@1	1110	void TemplateTable::dup2() {
aoqi@1	1111	transition(vtos, vtos);
aoqi@1	1112	// stack: ..., a, b
aoqi@1	1113	__ load_ptr(1, FSR); // load a
aoqi@1	1114	__ push_ptr(FSR); // push a
aoqi@1	1115	__ load_ptr(1, FSR); // load b
aoqi@1	1116	__ push_ptr(FSR); // push b
aoqi@1	1117	// stack: ..., a, b, a, b
aoqi@1	1118	}
aoqi@1	1119
aoqi@1	1120	// blows FSR
aoqi@1	1121	void TemplateTable::dup2_x1() {
aoqi@1	1122	transition(vtos, vtos);
aoqi@1	1123	// stack: ..., a, b, c
aoqi@1	1124	__ load_ptr(0, T2); // load c
aoqi@1	1125	__ load_ptr(1, FSR); // load b
aoqi@1	1126	__ push_ptr(FSR); // push b
aoqi@1	1127	__ push_ptr(T2); // push c
aoqi@1	1128	// stack: ..., a, b, c, b, c
aoqi@1	1129	__ store_ptr(3, T2); // store c in b
aoqi@1	1130	// stack: ..., a, c, c, b, c
aoqi@1	1131	__ load_ptr(4, T2); // load a
aoqi@1	1132	__ store_ptr(2, T2); // store a in 2nd c
aoqi@1	1133	// stack: ..., a, c, a, b, c
aoqi@1	1134	__ store_ptr(4, FSR); // store b in a
aoqi@1	1135	// stack: ..., b, c, a, b, c
aoqi@1	1136
aoqi@1	1137	// stack: ..., b, c, a, b, c
aoqi@1	1138	}
aoqi@1	1139
aoqi@1	1140	// blows FSR, SSR
aoqi@1	1141	void TemplateTable::dup2_x2() {
aoqi@1	1142	transition(vtos, vtos);
aoqi@1	1143	// stack: ..., a, b, c, d
aoqi@1	1144	// stack: ..., a, b, c, d
aoqi@1	1145	__ load_ptr(0, T2); // load d
aoqi@1	1146	__ load_ptr(1, FSR); // load c
aoqi@1	1147	__ push_ptr(FSR); // push c
aoqi@1	1148	__ push_ptr(T2); // push d
aoqi@1	1149	// stack: ..., a, b, c, d, c, d
aoqi@1	1150	__ load_ptr(4, FSR); // load b
aoqi@1	1151	__ store_ptr(2, FSR); // store b in d
aoqi@1	1152	__ store_ptr(4, T2); // store d in b
aoqi@1	1153	// stack: ..., a, d, c, b, c, d
aoqi@1	1154	__ load_ptr(5, T2); // load a
aoqi@1	1155	__ load_ptr(3, FSR); // load c
aoqi@1	1156	__ store_ptr(3, T2); // store a in c
aoqi@1	1157	__ store_ptr(5, FSR); // store c in a
aoqi@1	1158	// stack: ..., c, d, a, b, c, d
aoqi@1	1159
aoqi@1	1160	// stack: ..., c, d, a, b, c, d
aoqi@1	1161	}
aoqi@1	1162
aoqi@1	1163	// blows FSR
aoqi@1	1164	void TemplateTable::swap() {
aoqi@1	1165	transition(vtos, vtos);
aoqi@1	1166	// stack: ..., a, b
aoqi@1	1167
aoqi@1	1168	__ load_ptr(1, A5); // load a
aoqi@1	1169	__ load_ptr(0, FSR); // load b
aoqi@1	1170	__ store_ptr(0, A5); // store a in b
aoqi@1	1171	__ store_ptr(1, FSR); // store b in a
aoqi@1	1172
aoqi@1	1173	// stack: ..., b, a
aoqi@1	1174	}
aoqi@1	1175
aoqi@1	1176	void TemplateTable::iop2(Operation op) {
aoqi@1	1177	transition(itos, itos);
aoqi@1	1178	switch (op) {
aoqi@1	1179	case add :
aoqi@1	1180	__ pop_i(SSR);
aoqi@1	1181	__ addu32(FSR, SSR, FSR);
aoqi@1	1182	break;
aoqi@1	1183	case sub :
aoqi@1	1184	__ pop_i(SSR);
aoqi@1	1185	__ subu32(FSR, SSR, FSR);
aoqi@1	1186	break;
aoqi@1	1187	case mul :
aoqi@1	1188	__ lw(SSR, SP, 0);
aoqi@1	1189	__ mult(SSR, FSR);
aoqi@1	1190	__ daddi(SP, SP, wordSize);
aoqi@1	1191	__ nop();
aoqi@1	1192	__ mflo(FSR);
aoqi@1	1193	break;
aoqi@1	1194	case _and :
aoqi@1	1195	__ pop_i(SSR);
aoqi@1	1196	__ andr(FSR, SSR, FSR);
aoqi@1	1197	break;
aoqi@1	1198	case _or :
aoqi@1	1199	__ pop_i(SSR);
aoqi@1	1200	__ orr(FSR, SSR, FSR);
aoqi@1	1201	break;
aoqi@1	1202	case _xor :
aoqi@1	1203	__ pop_i(SSR);
aoqi@1	1204	__ xorr(FSR, SSR, FSR);
aoqi@1	1205	break;
aoqi@1	1206	case shl :
aoqi@1	1207	__ pop_i(SSR);
aoqi@1	1208	__ sllv(FSR, SSR, FSR);
aoqi@1	1209	break; // implicit masking of lower 5 bits by Intel shift instr. mips also
aoqi@1	1210	case shr :
aoqi@1	1211	__ pop_i(SSR);
aoqi@1	1212	__ srav(FSR, SSR, FSR);
aoqi@1	1213	break; // implicit masking of lower 5 bits by Intel shift instr. mips also
aoqi@1	1214	case ushr :
aoqi@1	1215	__ pop_i(SSR);
aoqi@1	1216	__ srlv(FSR, SSR, FSR);
aoqi@1	1217	break; // implicit masking of lower 5 bits by Intel shift instr. mips also
aoqi@1	1218	default : ShouldNotReachHere();
aoqi@1	1219	}
aoqi@1	1220	}
aoqi@1	1221
aoqi@1	1222	// the result stored in FSR, SSR,
aoqi@1	1223	// used registers : T2, T3
aoqi@1	1224	//FIXME, aoqi
aoqi@1	1225	void TemplateTable::lop2(Operation op) {
aoqi@1	1226	transition(ltos, ltos);
aoqi@1	1227	//__ pop2(T2, T3);
aoqi@1	1228	__ pop_l(T2, T3);
aoqi@1	1229	#ifdef ASSERT
aoqi@1	1230	{
aoqi@1	1231	Label L;
aoqi@1	1232	__ beq(T3, R0, L);
aoqi@1	1233	__ delayed()->nop();
aoqi@1	1234	// FIXME: stack verification required
aoqi@1	1235	// __ stop("lop2, wrong stack"); // <--- Fu 20130930
aoqi@1	1236	__ bind(L);
aoqi@1	1237	}
aoqi@1	1238	#endif
aoqi@1	1239	switch (op) {
aoqi@1	1240	case add :
aoqi@1	1241	__ daddu(FSR, T2, FSR);
aoqi@1	1242	//__ sltu(AT, FSR, T2);
aoqi@1	1243	//__ daddu(SSR, T3, SSR);
aoqi@1	1244	//__ daddu(SSR, SSR, AT);
aoqi@1	1245	break;
aoqi@1	1246	case sub :
aoqi@1	1247	__ dsubu(FSR, T2, FSR);
aoqi@1	1248	//__ sltu(AT, T2, FSR);
aoqi@1	1249	//__ dsubu(SSR, T3, SSR);
aoqi@1	1250	//__ dsubu(SSR, SSR, AT);
aoqi@1	1251	break;
aoqi@1	1252	case _and:
aoqi@1	1253	__ andr(FSR, T2, FSR);
aoqi@1	1254	//__ andr(SSR, T3, SSR);
aoqi@1	1255	break;
aoqi@1	1256	case _or :
aoqi@1	1257	__ orr(FSR, T2, FSR);
aoqi@1	1258	//__ orr(SSR, T3, SSR);
aoqi@1	1259	break;
aoqi@1	1260	case _xor:
aoqi@1	1261	__ xorr(FSR, T2, FSR);
aoqi@1	1262	//__ xorr(SSR, T3, SSR);
aoqi@1	1263	break;
aoqi@1	1264	default : ShouldNotReachHere();
aoqi@1	1265	}
aoqi@1	1266	}
aoqi@1	1267
aoqi@1	1268	// java require this bytecode could handle 0x80000000/-1, dont cause a overflow exception,
aoqi@1	1269	// the result is 0x80000000
aoqi@1	1270	// the godson2 cpu do the same, so we need not handle this specially like x86
aoqi@1	1271	void TemplateTable::idiv() {
aoqi@1	1272	transition(itos, itos);
aoqi@1	1273	Label not_zero;
aoqi@1	1274	//__ pop(SSR);
aoqi@1	1275	__ pop_i(SSR);
aoqi@1	1276	__ div(SSR, FSR);
aoqi@1	1277
aoqi@1	1278	__ bne(FSR, R0, not_zero);
aoqi@1	1279	__ delayed()->nop();
aoqi@1	1280	//__ brk(7);
aoqi@1	1281	__ jmp(Interpreter::_throw_ArithmeticException_entry);
aoqi@1	1282	__ delayed()->nop();
aoqi@1	1283
aoqi@1	1284	__ bind(not_zero);
aoqi@1	1285	__ mflo(FSR);
aoqi@1	1286	}
aoqi@1	1287
aoqi@1	1288	void TemplateTable::irem() {
aoqi@1	1289	transition(itos, itos);
aoqi@1	1290	Label not_zero;
aoqi@1	1291	//__ pop(SSR);
aoqi@1	1292	__ pop_i(SSR);
aoqi@1	1293	__ div(SSR, FSR);
aoqi@1	1294
aoqi@1	1295	__ bne(FSR, R0, not_zero);
aoqi@1	1296	__ delayed()->nop();
aoqi@1	1297	//__ brk(7);
aoqi@1	1298	__ jmp(Interpreter::_throw_ArithmeticException_entry);
aoqi@1	1299	__ delayed()->nop();
aoqi@1	1300
aoqi@1	1301	__ bind(not_zero);
aoqi@1	1302	__ mfhi(FSR);
aoqi@1	1303	}
aoqi@1	1304
aoqi@1	1305	// the multiplier in SSR||FSR, the multiplicand in stack
aoqi@1	1306	// the result in SSR||FSR
aoqi@1	1307	// used registers : T2, T3
aoqi@1	1308	void TemplateTable::lmul() {
aoqi@1	1309	transition(ltos, ltos);
aoqi@1	1310	Label done;
aoqi@1	1311
aoqi@1	1312	__ pop_l(T2, T3);
aoqi@1	1313	#ifdef ASSERT
aoqi@1	1314	{
aoqi@1	1315	Label L;
aoqi@1	1316	__ orr(AT, T3, SSR);
aoqi@1	1317	__ beq(AT, R0, L);
aoqi@1	1318	__ delayed()->nop();
aoqi@1	1319	//FIXME, aoqi
aoqi@1	1320	//__ stop("lmul, wrong stack");
aoqi@1	1321	__ bind(L);
aoqi@1	1322	}
aoqi@1	1323	#endif
aoqi@1	1324	__ orr(AT, T2, FSR);
aoqi@1	1325	__ beq(AT, R0, done);
aoqi@1	1326	__ delayed()->nop();
aoqi@1	1327
aoqi@1	1328	__ dmultu(T2, FSR);
aoqi@1	1329	__ daddu(SSR, SSR, T3);
aoqi@1	1330	__ nop();
aoqi@1	1331	__ mflo(FSR);
aoqi@1	1332	__ mfhi(SSR);
aoqi@1	1333	__ b(done);
aoqi@1	1334	__ delayed()->nop();
aoqi@1	1335
aoqi@1	1336	__ bind(done);
aoqi@1	1337	}
aoqi@1	1338
aoqi@1	1339	// NOTE: i DONT use the Interpreter::_throw_ArithmeticException_entry
aoqi@1	1340	void TemplateTable::ldiv() {
aoqi@1	1341	transition(ltos, ltos);
aoqi@1	1342	Label normal;
aoqi@1	1343
aoqi@1	1344	__ bne(FSR, R0, normal);
aoqi@1	1345	__ delayed()->nop();
aoqi@1	1346
aoqi@1	1347	//__ brk(7); //generate FPE
aoqi@1	1348	__ jmp(Interpreter::_throw_ArithmeticException_entry);
aoqi@1	1349	__ delayed()->nop();
aoqi@1	1350
aoqi@1	1351	__ bind(normal);
aoqi@1	1352	__ move(A1, FSR);
aoqi@1	1353	__ pop_l(A2, A3);
aoqi@1	1354	__ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::ldiv), A1, A2);
aoqi@1	1355	}
aoqi@1	1356
aoqi@1	1357	// NOTE: i DONT use the Interpreter::_throw_ArithmeticException_entry
aoqi@1	1358	void TemplateTable::lrem() {
aoqi@1	1359	transition(ltos, ltos);
aoqi@1	1360	Label normal;
aoqi@1	1361
aoqi@1	1362	__ bne(FSR, R0, normal);
aoqi@1	1363	__ delayed()->nop();
aoqi@1	1364
aoqi@1	1365	__ jmp(Interpreter::_throw_ArithmeticException_entry);
aoqi@1	1366	__ delayed()->nop();
aoqi@1	1367
aoqi@1	1368	__ bind(normal);
aoqi@1	1369	__ move(A1, FSR);
aoqi@1	1370	__ pop_l (A2, A3);
aoqi@1	1371	__ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::lrem), A1, A2);
aoqi@1	1372	}
aoqi@1	1373
aoqi@1	1374	// result in FSR
aoqi@1	1375	// used registers : T0
aoqi@1	1376	void TemplateTable::lshl() {
aoqi@1	1377	transition(itos, ltos);
aoqi@1	1378	__ pop_l(T0, T1);
aoqi@1	1379	#ifdef ASSERT
aoqi@1	1380	{
aoqi@1	1381	Label L;
aoqi@1	1382	__ beq(T1, R0, L);
aoqi@1	1383	__ delayed()->nop();
aoqi@1	1384	//__ stop("lshl, wrong stack"); // <-- Fu 20130930
aoqi@1	1385	__ bind(L);
aoqi@1	1386	}
aoqi@1	1387	#endif
aoqi@1	1388	__ andi(FSR, FSR, 0x3f); // the bit to be shifted
aoqi@1	1389	__ dsllv(FSR, T0, FSR);
aoqi@1	1390	}
aoqi@1	1391
aoqi@1	1392	// used registers : T0
aoqi@1	1393	void TemplateTable::lshr() {
aoqi@1	1394	transition(itos, ltos);
aoqi@1	1395	__ pop_l(T0, T1);
aoqi@1	1396	#ifdef ASSERT
aoqi@1	1397	{
aoqi@1	1398	Label L;
aoqi@1	1399	__ beq(T1, R0, L);
aoqi@1	1400	__ delayed()->nop();
aoqi@1	1401	__ stop("lshr, wrong stack");
aoqi@1	1402	__ bind(L);
aoqi@1	1403	}
aoqi@1	1404	#endif
aoqi@1	1405	__ andi(FSR, FSR, 0x3f); // the bit to be shifted
aoqi@1	1406	__ dsrav(FSR, T0, FSR);
aoqi@1	1407	}
aoqi@1	1408
aoqi@1	1409	// used registers : T0
aoqi@1	1410	void TemplateTable::lushr() {
aoqi@1	1411	transition(itos, ltos);
aoqi@1	1412	__ pop_l(T0, T1);
aoqi@1	1413	#ifdef ASSERT
aoqi@1	1414	{
aoqi@1	1415	Label L;
aoqi@1	1416	__ beq(T1, R0, L);
aoqi@1	1417	__ delayed()->nop();
aoqi@1	1418	__ stop("lushr, wrong stack");
aoqi@1	1419	__ bind(L);
aoqi@1	1420	}
aoqi@1	1421	#endif
aoqi@1	1422	__ andi(FSR, FSR, 0x3f); // the bit to be shifted
aoqi@1	1423	__ dsrlv(FSR, T0, FSR);
aoqi@1	1424	}
aoqi@1	1425
aoqi@1	1426	// result in FSF
aoqi@1	1427	void TemplateTable::fop2(Operation op) {
aoqi@1	1428	transition(ftos, ftos);
aoqi@1	1429	__ pop_ftos_to_esp(); // pop ftos into esp
aoqi@1	1430	switch (op) {
aoqi@1	1431	case add:
aoqi@1	1432	__ lwc1(FTF, at_sp());
aoqi@1	1433	__ add_s(FSF, FTF, FSF);
aoqi@1	1434	break;
aoqi@1	1435	case sub:
aoqi@1	1436	__ lwc1(FTF, at_sp());
aoqi@1	1437	__ sub_s(FSF, FTF, FSF);
aoqi@1	1438	break;
aoqi@1	1439	case mul:
aoqi@1	1440	__ lwc1(FTF, at_sp());
aoqi@1	1441	__ mul_s(FSF, FTF, FSF);
aoqi@1	1442	break;
aoqi@1	1443	case div:
aoqi@1	1444	__ lwc1(FTF, at_sp());
aoqi@1	1445	__ div_s(FSF, FTF, FSF);
aoqi@1	1446	break;
aoqi@1	1447	case rem:
aoqi@1	1448	__ mfc1(FSR, FSF);
aoqi@1	1449	__ mtc1(FSR, F12);
aoqi@1	1450	__ lwc1(FTF, at_sp());
aoqi@1	1451	__ rem_s(FSF, FTF, F12, FSF);
aoqi@1	1452	break;
aoqi@1	1453	default : ShouldNotReachHere();
aoqi@1	1454	}
aoqi@1	1455
aoqi@1	1456	__ daddi(SP, SP, 1 * wordSize);
aoqi@1	1457	}
aoqi@1	1458
aoqi@1	1459	// result in SSF||FSF
aoqi@1	1460	// i dont handle the strict flags
aoqi@1	1461	void TemplateTable::dop2(Operation op) {
aoqi@1	1462	transition(dtos, dtos);
aoqi@1	1463	__ pop_dtos_to_esp(); // pop dtos into esp
aoqi@1	1464	switch (op) {
aoqi@1	1465	case add:
aoqi@1	1466	__ ldc1(FTF, at_sp());
aoqi@1	1467	__ add_d(FSF, FTF, FSF);
aoqi@1	1468	break;
aoqi@1	1469	case sub:
aoqi@1	1470	__ ldc1(FTF, at_sp());
aoqi@1	1471	__ sub_d(FSF, FTF, FSF);
aoqi@1	1472	break;
aoqi@1	1473	case mul:
aoqi@1	1474	__ ldc1(FTF, at_sp());
aoqi@1	1475	__ mul_d(FSF, FTF, FSF);
aoqi@1	1476	break;
aoqi@1	1477	case div:
aoqi@1	1478	__ ldc1(FTF, at_sp());
aoqi@1	1479	__ div_d(FSF, FTF, FSF);
aoqi@1	1480	break;
aoqi@1	1481	case rem:
aoqi@1	1482	__ dmfc1(FSR, FSF);
aoqi@1	1483	__ dmtc1(FSR, F12);
aoqi@1	1484	__ ldc1(FTF, at_sp());
aoqi@1	1485	__ rem_d(FSF, FTF, F12, FSF);
aoqi@1	1486	break;
aoqi@1	1487	default : ShouldNotReachHere();
aoqi@1	1488	}
aoqi@1	1489
aoqi@1	1490	__ daddi(SP, SP, 2 * wordSize);
aoqi@1	1491	}
aoqi@1	1492
aoqi@1	1493	void TemplateTable::ineg() {
aoqi@1	1494	transition(itos, itos);
aoqi@1	1495	__ neg(FSR);
aoqi@1	1496	}
aoqi@1	1497
aoqi@1	1498	void TemplateTable::lneg() {
aoqi@1	1499	transition(ltos, ltos);
aoqi@1	1500	__ dsubu(FSR, R0, FSR);
aoqi@1	1501	}
aoqi@1	1502	/*
aoqi@1	1503	// Note: 'double' and 'long long' have 32-bits alignment on x86.
aoqi@1	1504	static jlong* double_quadword(jlong *adr, jlong lo, jlong hi) {
aoqi@1	1505	// Use the expression (adr)&(~0xF) to provide 128-bits aligned address
aoqi@1	1506	// of 128-bits operands for SSE instructions.
aoqi@1	1507	jlong *operand = (jlong*)(((intptr_t)adr)&((intptr_t)(~0xF)));
aoqi@1	1508	// Store the value to a 128-bits operand.
aoqi@1	1509	operand[0] = lo;
aoqi@1	1510	operand[1] = hi;
aoqi@1	1511	return operand;
aoqi@1	1512	}
aoqi@1	1513
aoqi@1	1514	// Buffer for 128-bits masks used by SSE instructions.
aoqi@1	1515	static jlong float_signflip_pool[2*2];
aoqi@1	1516	static jlong double_signflip_pool[2*2];
aoqi@1	1517	*/
aoqi@1	1518	void TemplateTable::fneg() {
aoqi@1	1519	transition(ftos, ftos);
aoqi@1	1520	__ neg_s(FSF, FSF);
aoqi@1	1521	}
aoqi@1	1522
aoqi@1	1523	void TemplateTable::dneg() {
aoqi@1	1524	transition(dtos, dtos);
aoqi@1	1525	__ neg_d(FSF, FSF);
aoqi@1	1526	}
aoqi@1	1527
aoqi@1	1528	// used registers : T2
aoqi@1	1529	void TemplateTable::iinc() {
aoqi@1	1530	transition(vtos, vtos);
aoqi@1	1531	locals_index(T2);
aoqi@1	1532	__ lw(FSR, T2, 0);
aoqi@1	1533	__ lb(AT, at_bcp(2)); // get constant
aoqi@1	1534	__ daddu(FSR, FSR, AT);
aoqi@1	1535	__ sw(FSR, T2, 0);
aoqi@1	1536	}
aoqi@1	1537
aoqi@1	1538	// used register : T2
aoqi@1	1539	void TemplateTable::wide_iinc() {
aoqi@1	1540	transition(vtos, vtos);
aoqi@1	1541	locals_index_wide(T2);
aoqi@16	1542	__ get_2_byte_integer_at_bcp(FSR, AT, 4);
aoqi@1	1543	__ hswap(FSR);
aoqi@1	1544	__ lw(AT, T2, 0);
aoqi@1	1545	__ daddu(FSR, AT, FSR);
aoqi@1	1546	__ sw(FSR, T2, 0);
aoqi@1	1547	}
aoqi@1	1548
aoqi@1	1549	void TemplateTable::convert() {
aoqi@1	1550	// Checking
aoqi@1	1551	#ifdef ASSERT
aoqi@1	1552	{ TosState tos_in = ilgl;
aoqi@1	1553	TosState tos_out = ilgl;
aoqi@1	1554	switch (bytecode()) {
aoqi@1	1555	case Bytecodes::_i2l: // fall through
aoqi@1	1556	case Bytecodes::_i2f: // fall through
aoqi@1	1557	case Bytecodes::_i2d: // fall through
aoqi@1	1558	case Bytecodes::_i2b: // fall through
aoqi@1	1559	case Bytecodes::_i2c: // fall through
aoqi@1	1560	case Bytecodes::_i2s: tos_in = itos; break;
aoqi@1	1561	case Bytecodes::_l2i: // fall through
aoqi@1	1562	case Bytecodes::_l2f: // fall through
aoqi@1	1563	case Bytecodes::_l2d: tos_in = ltos; break;
aoqi@1	1564	case Bytecodes::_f2i: // fall through
aoqi@1	1565	case Bytecodes::_f2l: // fall through
aoqi@1	1566	case Bytecodes::_f2d: tos_in = ftos; break;
aoqi@1	1567	case Bytecodes::_d2i: // fall through
aoqi@1	1568	case Bytecodes::_d2l: // fall through
aoqi@1	1569	case Bytecodes::_d2f: tos_in = dtos; break;
aoqi@1	1570	default : ShouldNotReachHere();
aoqi@1	1571	}
aoqi@1	1572	switch (bytecode()) {
aoqi@1	1573	case Bytecodes::_l2i: // fall through
aoqi@1	1574	case Bytecodes::_f2i: // fall through
aoqi@1	1575	case Bytecodes::_d2i: // fall through
aoqi@1	1576	case Bytecodes::_i2b: // fall through
aoqi@1	1577	case Bytecodes::_i2c: // fall through
aoqi@1	1578	case Bytecodes::_i2s: tos_out = itos; break;
aoqi@1	1579	case Bytecodes::_i2l: // fall through
aoqi@1	1580	case Bytecodes::_f2l: // fall through
aoqi@1	1581	case Bytecodes::_d2l: tos_out = ltos; break;
aoqi@1	1582	case Bytecodes::_i2f: // fall through
aoqi@1	1583	case Bytecodes::_l2f: // fall through
aoqi@1	1584	case Bytecodes::_d2f: tos_out = ftos; break;
aoqi@1	1585	case Bytecodes::_i2d: // fall through
aoqi@1	1586	case Bytecodes::_l2d: // fall through
aoqi@1	1587	case Bytecodes::_f2d: tos_out = dtos; break;
aoqi@1	1588	default : ShouldNotReachHere();
aoqi@1	1589	}
aoqi@1	1590	transition(tos_in, tos_out);
aoqi@1	1591	}
aoqi@1	1592	#endif // ASSERT
aoqi@1	1593
aoqi@1	1594	// Conversion
aoqi@1	1595	// (Note: use pushl(ecx)/popl(ecx) for 1/2-word stack-ptr manipulation)
aoqi@1	1596	switch (bytecode()) {
aoqi@1	1597	case Bytecodes::_i2l:
aoqi@1	1598	//__ extend_sign(SSR, FSR);
aoqi@1	1599	__ sll(FSR, FSR, 0);
aoqi@1	1600	break;
aoqi@1	1601	case Bytecodes::_i2f:
aoqi@1	1602	__ mtc1(FSR, FSF);
aoqi@1	1603	__ cvt_s_w(FSF, FSF);
aoqi@1	1604	break;
aoqi@1	1605	case Bytecodes::_i2d:
aoqi@1	1606	__ mtc1(FSR, FSF);
aoqi@1	1607	__ cvt_d_w(FSF, FSF);
aoqi@1	1608	break;
aoqi@1	1609	case Bytecodes::_i2b:
aoqi@1	1610	__ dsll32(FSR, FSR, 24);
aoqi@1	1611	__ dsra32(FSR, FSR, 24);
aoqi@1	1612	break;
aoqi@1	1613	case Bytecodes::_i2c:
aoqi@1	1614	__ andi(FSR, FSR, 0xFFFF); // truncate upper 56 bits
aoqi@1	1615	break;
aoqi@1	1616	case Bytecodes::_i2s:
aoqi@1	1617	__ dsll32(FSR, FSR, 16);
aoqi@1	1618	__ dsra32(FSR, FSR, 16);
aoqi@1	1619	break;
aoqi@1	1620	case Bytecodes::_l2i:
aoqi@1	1621	__ dsll32(FSR, FSR, 0);
aoqi@1	1622	__ dsra32(FSR, FSR, 0);
aoqi@1	1623	break;
aoqi@1	1624	case Bytecodes::_l2f:
aoqi@1	1625	__ dmtc1(FSR, FSF);
aoqi@1	1626	//__ mtc1(SSR, SSF);
aoqi@1	1627	__ cvt_s_l(FSF, FSF);
aoqi@1	1628	break;
aoqi@1	1629	case Bytecodes::_l2d:
aoqi@1	1630	__ dmtc1(FSR, FSF);
aoqi@1	1631	//__ mtc1(SSR, SSF);
aoqi@1	1632	__ cvt_d_l(FSF, FSF);
aoqi@1	1633	break;
aoqi@1	1634	case Bytecodes::_f2i:
aoqi@1	1635	{
aoqi@1	1636	Label L;
aoqi@1	1637	/*
aoqi@1	1638	__ c_un_s(FSF, FSF); //NaN?
aoqi@1	1639	__ bc1t(L);
aoqi@1	1640	__ delayed(); __ move(FSR, R0);
aoqi@1	1641	*/
aoqi@1	1642	__ trunc_w_s(F12, FSF);
aoqi@1	1643	__ cfc1(AT, 31);
aoqi@1	1644	__ li(T0, 0x10000);
aoqi@1	1645	__ andr(AT, AT, T0);
aoqi@1	1646	__ beq(AT, R0, L);
aoqi@1	1647	__ delayed()->mfc1(FSR, F12);
aoqi@1	1648
aoqi@1	1649	__ mov_s(F12, FSF);
aoqi@1	1650	__ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::f2i), 1);
aoqi@1	1651	__ bind(L);
aoqi@1	1652	}
aoqi@1	1653	break;
aoqi@1	1654	case Bytecodes::_f2l:
aoqi@1	1655	{
aoqi@1	1656	Label L;
aoqi@1	1657	/*
aoqi@1	1658	__ move(SSR, R0);
aoqi@1	1659	__ c_un_s(FSF, FSF); //NaN?
aoqi@1	1660	__ bc1t(L);
aoqi@1	1661	__ delayed();
aoqi@1	1662	__ move(FSR, R0);
aoqi@1	1663	*/
aoqi@1	1664	__ trunc_l_s(F12, FSF);
aoqi@1	1665	__ cfc1(AT, 31);
aoqi@1	1666	__ li(T0, 0x10000);
aoqi@1	1667	__ andr(AT, AT, T0);
aoqi@1	1668	__ beq(AT, R0, L);
aoqi@1	1669	__ delayed()->dmfc1(FSR, F12);
aoqi@1	1670
aoqi@1	1671	__ mov_s(F12, FSF);
aoqi@1	1672	__ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::f2l), 1);
aoqi@1	1673	__ bind(L);
aoqi@1	1674	}
aoqi@1	1675	break;
aoqi@1	1676	case Bytecodes::_f2d:
aoqi@1	1677	__ cvt_d_s(FSF, FSF);
aoqi@1	1678	break;
aoqi@1	1679	case Bytecodes::_d2i:
aoqi@1	1680	{
aoqi@1	1681	Label L;
aoqi@1	1682	/*
aoqi@1	1683	__ c_un_d(FSF, FSF); //NaN?
aoqi@1	1684	__ bc1t(L);
aoqi@1	1685	__ delayed(); __ move(FSR, R0);
aoqi@1	1686	*/
aoqi@1	1687	__ trunc_w_d(F12, FSF);
aoqi@1	1688	__ cfc1(AT, 31);
aoqi@1	1689	__ li(T0, 0x10000);
aoqi@1	1690	__ andr(AT, AT, T0);
aoqi@1	1691	__ beq(AT, R0, L);
aoqi@1	1692	__ delayed()->mfc1(FSR, F12);
aoqi@1	1693
aoqi@1	1694	__ mov_d(F12, FSF);
aoqi@1	1695	__ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::d2i), 1);
aoqi@1	1696	__ bind(L);
aoqi@1	1697	}
aoqi@1	1698	break;
aoqi@1	1699	case Bytecodes::_d2l:
aoqi@1	1700	{
aoqi@1	1701	Label L;
aoqi@1	1702	/*
aoqi@1	1703	__ move(SSR, R0);
aoqi@1	1704	__ c_un_d(FSF, FSF); //NaN?
aoqi@1	1705	__ bc1t(L);
aoqi@1	1706	__ delayed(); __ move(FSR, R0);
aoqi@1	1707	*/
aoqi@1	1708	__ trunc_l_d(F12, FSF);
aoqi@1	1709	__ cfc1(AT, 31);
aoqi@1	1710	__ li(T0, 0x10000);
aoqi@1	1711	__ andr(AT, AT, T0);
aoqi@1	1712	__ beq(AT, R0, L);
aoqi@1	1713	__ delayed()->dmfc1(FSR, F12);
aoqi@1	1714
aoqi@1	1715	__ mov_d(F12, FSF);
aoqi@1	1716	__ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::d2l), 1);
aoqi@1	1717	__ bind(L);
aoqi@1	1718	}
aoqi@1	1719	break;
aoqi@1	1720	case Bytecodes::_d2f:
aoqi@1	1721	__ cvt_s_d(FSF, FSF);
aoqi@1	1722	break;
aoqi@1	1723	default :
aoqi@1	1724	ShouldNotReachHere();
aoqi@1	1725	}
aoqi@1	1726	}
aoqi@1	1727
aoqi@1	1728	void TemplateTable::lcmp() {
aoqi@1	1729	transition(ltos, itos);
aoqi@1	1730
aoqi@1	1731	Label low, high, done;
aoqi@1	1732	__ pop(T0);
aoqi@1	1733	__ pop(R0);
aoqi@1	1734	__ slt(AT, T0, FSR);
aoqi@1	1735	__ bne(AT, R0, low);
aoqi@1	1736	__ delayed()->nop();
aoqi@1	1737
aoqi@1	1738	__ bne(T0, FSR, high);
aoqi@1	1739	__ delayed()->nop();
aoqi@1	1740
aoqi@1	1741	__ li(FSR, (long)0);
aoqi@1	1742	__ b(done);
aoqi@1	1743	__ delayed()->nop();
aoqi@1	1744
aoqi@1	1745	__ bind(low);
aoqi@1	1746	__ li(FSR, (long)-1);
aoqi@1	1747	__ b(done);
aoqi@1	1748	__ delayed()->nop();
aoqi@1	1749
aoqi@1	1750	__ bind(high);
aoqi@1	1751	__ li(FSR, (long)1);
aoqi@1	1752	__ b(done);
aoqi@1	1753	__ delayed()->nop();
aoqi@1	1754
aoqi@1	1755	__ bind(done);
aoqi@1	1756	}
aoqi@1	1757
aoqi@1	1758	void TemplateTable::float_cmp(bool is_float, int unordered_result) {
aoqi@1	1759	Label less, done;
aoqi@1	1760
aoqi@1	1761	__ move(FSR, R0);
aoqi@1	1762
aoqi@1	1763	if (is_float) {
aoqi@1	1764	__ pop_ftos_to_esp();
aoqi@1	1765	__ lwc1(FTF, at_sp());
aoqi@1	1766	__ c_eq_s(FTF, FSF);
aoqi@1	1767	__ bc1t(done);
aoqi@1	1768	__ delayed()->daddi(SP, SP, 1 * wordSize);
aoqi@1	1769
aoqi@1	1770	if (unordered_result<0)
aoqi@1	1771	__ c_ult_s(FTF, FSF);
aoqi@1	1772	else
aoqi@1	1773	__ c_olt_s(FTF, FSF);
aoqi@1	1774	} else {
aoqi@1	1775	__ pop_dtos_to_esp();
aoqi@1	1776	__ ldc1(FTF, at_sp());
aoqi@1	1777	__ c_eq_d(FTF, FSF);
aoqi@1	1778	__ bc1t(done);
aoqi@1	1779	__ delayed()->daddi(SP, SP, 2 * wordSize);
aoqi@1	1780
aoqi@1	1781	if (unordered_result<0)
aoqi@1	1782	__ c_ult_d(FTF, FSF);
aoqi@1	1783	else
aoqi@1	1784	__ c_olt_d(FTF, FSF);
aoqi@1	1785	}
aoqi@1	1786	__ bc1t(less);
aoqi@1	1787	__ delayed()->nop();
aoqi@1	1788	__ move(FSR, 1);
aoqi@1	1789	__ b(done);
aoqi@1	1790	__ delayed()->nop();
aoqi@1	1791	__ bind(less);
aoqi@1	1792	__ move(FSR, -1);
aoqi@1	1793	__ bind(done);
aoqi@1	1794	}
aoqi@1	1795
aoqi@1	1796
aoqi@1	1797	// used registers : T3, A7, Rnext
aoqi@1	1798	// FSR : return bci, this is defined by the vm specification
aoqi@1	1799	// T2 : MDO taken count
aoqi@1	1800	// T3 : method
aoqi@1	1801	// A7 : offset
aoqi@1	1802	// Rnext : next bytecode, this is required by dispatch_base
aoqi@1	1803	void TemplateTable::branch(bool is_jsr, bool is_wide) {
aoqi@1	1804	__ get_method(T3);
aoqi@1	1805	__ profile_taken_branch(A7, T2); // only C2 meaningful
aoqi@1	1806
aoqi@1	1807	#ifndef CORE
aoqi@1	1808	const ByteSize be_offset = MethodCounters::backedge_counter_offset()
aoqi@1	1809	+ InvocationCounter::counter_offset();
aoqi@1	1810	const ByteSize inv_offset = MethodCounters::invocation_counter_offset()
aoqi@1	1811	+ InvocationCounter::counter_offset();
aoqi@1	1812	const int method_offset = frame::interpreter_frame_method_offset * wordSize;
aoqi@1	1813	#endif // CORE
aoqi@1	1814
aoqi@1	1815	// Load up T4 with the branch displacement
aoqi@1	1816	if (!is_wide) {
aoqi@16	1817	__ get_2_byte_integer_at_bcp(A7, AT, 1);
aoqi@1	1818	__ hswap(A7);
aoqi@1	1819	} else {
aoqi@15	1820	__ get_4_byte_integer_at_bcp(A7, AT, 1);
aoqi@1	1821	__ swap(A7);
aoqi@1	1822	}
aoqi@1	1823
aoqi@1	1824	// Handle all the JSR stuff here, then exit.
aoqi@1	1825	// It's much shorter and cleaner than intermingling with the
aoqi@1	1826	// non-JSR normal-branch stuff occuring below.
aoqi@1	1827	if (is_jsr) {
aoqi@1	1828	// Pre-load the next target bytecode into Rnext
aoqi@1	1829	__ dadd(AT, BCP, A7);
aoqi@1	1830	__ lbu(Rnext, AT, 0);
aoqi@1	1831
aoqi@1	1832	// compute return address as bci in FSR
aoqi@1	1833	__ daddi(FSR, BCP, (is_wide?5:3) - in_bytes(ConstMethod::codes_offset()));
aoqi@1	1834	__ ld(AT, T3, in_bytes(Method::const_offset()));
aoqi@1	1835	__ dsub(FSR, FSR, AT);
aoqi@1	1836	// Adjust the bcp in BCP by the displacement in A7
aoqi@1	1837	__ dadd(BCP, BCP, A7);
aoqi@1	1838	// jsr returns atos that is not an oop
aoqi@1	1839	// __ dispatch_only_noverify(atos);
aoqi@1	1840	// Push return address
aoqi@1	1841	__ push_i(FSR);
aoqi@1	1842	// jsr returns vtos
aoqi@1	1843	__ dispatch_only_noverify(vtos);
aoqi@1	1844
aoqi@1	1845	return;
aoqi@1	1846	}
aoqi@1	1847
aoqi@1	1848	// Normal (non-jsr) branch handling
aoqi@1	1849
aoqi@1	1850	// Adjust the bcp in S0 by the displacement in T4
aoqi@1	1851	__ dadd(BCP, BCP, A7);
aoqi@1	1852
aoqi@1	1853	#ifdef CORE
aoqi@1	1854	// Pre-load the next target bytecode into EBX
aoqi@1	1855	__ lbu(Rnext, BCP, 0);
aoqi@1	1856	// continue with the bytecode @ target
aoqi@1	1857	__ dispatch_only(vtos);
aoqi@1	1858	#else
aoqi@1	1859	assert(UseLoopCounter || !UseOnStackReplacement, "on-stack-replacement requires loop counters");
aoqi@1	1860	Label backedge_counter_overflow;
aoqi@1	1861	Label profile_method;
aoqi@1	1862	Label dispatch;
aoqi@1	1863	if (UseLoopCounter) {
aoqi@1	1864	// increment backedge counter for backward branches
aoqi@1	1865	// eax: MDO
aoqi@1	1866	// ebx: MDO bumped taken-count
aoqi@1	1867	// T3: method
aoqi@1	1868	// T4: target offset
aoqi@1	1869	// BCP: target bcp
aoqi@1	1870	// LVP: locals pointer
aoqi@1	1871	__ bgtz(A7, dispatch); // check if forward or backward branch
aoqi@1	1872	__ delayed()->nop();
aoqi@1	1873
aoqi@1	1874	// check if MethodCounters exists
aoqi@1	1875	Label has_counters;
aoqi@1	1876	__ ld(AT, T3, in_bytes(Method::method_counters_offset())); // use AT as MDO, TEMP
aoqi@1	1877	__ bne(AT, R0, has_counters);
aoqi@1	1878	__ nop();
aoqi@1	1879	//__ push(T3);
aoqi@1	1880	//__ push(A7);
aoqi@1	1881	__ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::build_method_counters),
aoqi@1	1882	T3);
aoqi@1	1883	//__ pop(A7);
aoqi@1	1884	//__ pop(T3);
aoqi@1	1885	__ ld(AT, T3, in_bytes(Method::method_counters_offset())); // use AT as MDO, TEMP
aoqi@1	1886	__ beq(AT, R0, dispatch);
aoqi@1	1887	__ nop();
aoqi@1	1888	__ bind(has_counters);
aoqi@1	1889
aoqi@1	1890	// increment back edge counter
aoqi@1	1891	__ ld(T1, T3, in_bytes(Method::method_counters_offset()));
aoqi@1	1892	__ lw(T0, T1, in_bytes(be_offset));
aoqi@1	1893	__ increment(T0, InvocationCounter::count_increment);
aoqi@1	1894	__ sw(T0, T1, in_bytes(be_offset));
aoqi@1	1895
aoqi@1	1896	// load invocation counter
aoqi@1	1897	__ lw(T1, T1, in_bytes(inv_offset));
aoqi@1	1898	// buffer bit added, mask no needed
aoqi@1	1899	// by yjl 10/24/2005
aoqi@1	1900	//__ move(AT, InvocationCounter::count_mask_value);
aoqi@1	1901	//__ andr(T1, T1, AT);
aoqi@1	1902
aoqi@1	1903	// dadd backedge counter & invocation counter
aoqi@1	1904	__ dadd(T1, T1, T0);
aoqi@1	1905
aoqi@1	1906	if (ProfileInterpreter) {
aoqi@1	1907	// Test to see if we should create a method data oop
aoqi@1	1908	//__ lui(AT, Assembler::split_high(int(&InvocationCounter::InterpreterProfileLimit)));
aoqi@1	1909	//__ lw(AT, AT, Assembler::split_low(int(&InvocationCounter::InterpreterProfileLimit)));
aoqi@1	1910	// T1 : backedge counter & invocation counter
aoqi@1	1911	__ li(AT, (long)&InvocationCounter::InterpreterProfileLimit);
aoqi@1	1912	__ lw(AT, AT, 0);
aoqi@1	1913	__ slt(AT, T1, AT);
aoqi@1	1914	__ bne(AT, R0, dispatch);
aoqi@1	1915	__ delayed()->nop();
aoqi@1	1916
aoqi@1	1917	// if no method data exists, go to profile method
aoqi@1	1918	__ test_method_data_pointer(T1, profile_method);
aoqi@1	1919
aoqi@1	1920	if (UseOnStackReplacement) {
aoqi@1	1921	// check for overflow against ebx which is the MDO taken count
aoqi@1	1922	//__ lui(AT, Assembler::split_high(int(&InvocationCounter::InterpreterBackwardBranchLimit)));
aoqi@1	1923	//__ lw(AT, AT, Assembler::split_low(int(&InvocationCounter::InterpreterBackwardBranchLimit)));
aoqi@1	1924	__ li(AT, (long)&InvocationCounter::InterpreterBackwardBranchLimit);
aoqi@1	1925	__ lw(AT, AT, 0);
aoqi@1	1926	// the value Rnext Is get from the beginning profile_taken_branch
aoqi@1	1927	__ slt(AT, T2, AT);
aoqi@1	1928	__ bne(AT, R0, dispatch);
aoqi@1	1929	__ delayed()->nop();
aoqi@1	1930
aoqi@1	1931	// When ProfileInterpreter is on, the backedge_count comes
aoqi@1	1932	// from the methodDataOop, which value does not get reset on
aoqi@1	1933	// the call to frequency_counter_overflow().
aoqi@1	1934	// To avoid excessive calls to the overflow routine while
aoqi@1	1935	// the method is being compiled, dadd a second test to make
aoqi@1	1936	// sure the overflow function is called only once every
aoqi@1	1937	// overflow_frequency.
aoqi@1	1938	const int overflow_frequency = 1024;
aoqi@1	1939	__ andi(AT, T2, overflow_frequency-1);
aoqi@1	1940	__ beq(AT, R0, backedge_counter_overflow);
aoqi@1	1941	__ delayed()->nop();
aoqi@1	1942	}
aoqi@1	1943	} else {
aoqi@1	1944	if (UseOnStackReplacement) {
aoqi@1	1945	// check for overflow against eax, which is the sum of the counters
aoqi@1	1946	//__ lui(AT, Assembler::split_high(int(&InvocationCounter::InterpreterBackwardBranchLimit)));
aoqi@1	1947	//__ lw(AT, AT, Assembler::split_low(int(&InvocationCounter::InterpreterBackwardBranchLimit)));
aoqi@1	1948	__ li(AT, (long)&InvocationCounter::InterpreterBackwardBranchLimit);
aoqi@1	1949	__ lw(AT, AT, 0);
aoqi@1	1950	__ slt(AT, T1, AT);
aoqi@1	1951	__ beq(AT, R0, backedge_counter_overflow);
aoqi@1	1952	__ delayed()->nop();
aoqi@1	1953	}
aoqi@1	1954	}
aoqi@1	1955	__ bind(dispatch);
aoqi@1	1956	}
aoqi@1	1957
aoqi@1	1958	// Pre-load the next target bytecode into Rnext
aoqi@1	1959	__ lbu(Rnext, BCP, 0);
aoqi@1	1960
aoqi@1	1961	// continue with the bytecode @ target
aoqi@1	1962	// FSR: return bci for jsr's, unused otherwise
aoqi@1	1963	// Rnext: target bytecode
aoqi@1	1964	// BCP: target bcp
aoqi@1	1965	__ dispatch_only(vtos);
aoqi@1	1966
aoqi@1	1967	if (UseLoopCounter) {
aoqi@1	1968	if (ProfileInterpreter) {
aoqi@1	1969	// Out-of-line code to allocate method data oop.
aoqi@1	1970	__ bind(profile_method);
aoqi@1	1971	__ call_VM(NOREG, CAST_FROM_FN_PTR(address, InterpreterRuntime::profile_method));
aoqi@1	1972	__ lbu(Rnext, BCP, 0);
aoqi@1	1973
aoqi@1	1974	__ set_method_data_pointer_for_bcp();
aoqi@1	1975	/*
aoqi@1	1976	__ ld(T3, FP, method_offset);
aoqi@1	1977	__ lw(T3, T3, in_bytes(Method::method_data_offset()));
aoqi@1	1978	__ sw(T3, FP, frame::interpreter_frame_mdx_offset * wordSize);
aoqi@1	1979	__ test_method_data_pointer(T3, dispatch);
aoqi@1	1980	// offset non-null mdp by MDO::data_offset() + IR::profile_method()
aoqi@1	1981	__ daddi(T3, T3, in_bytes(MethodData::data_offset()));
aoqi@1	1982	__ dadd(T3, T3, T1);
aoqi@1	1983	__ sw(T3, FP, frame::interpreter_frame_mdx_offset * wordSize);
aoqi@1	1984	*/
aoqi@1	1985	__ b(dispatch);
aoqi@1	1986	__ delayed()->nop();
aoqi@1	1987	}
aoqi@1	1988
aoqi@1	1989	if (UseOnStackReplacement) {
aoqi@1	1990	// invocation counter overflow
aoqi@1	1991	__ bind(backedge_counter_overflow);
aoqi@1	1992	__ sub(A7, BCP, A7); // branch bcp
aoqi@1	1993	call_VM(NOREG, CAST_FROM_FN_PTR(address,
aoqi@1	1994	InterpreterRuntime::frequency_counter_overflow), A7);
aoqi@1	1995	__ lbu(Rnext, BCP, 0);
aoqi@1	1996
aoqi@1	1997	// V0: osr nmethod (osr ok) or NULL (osr not possible)
aoqi@1	1998	// V1: osr adapter frame return address
aoqi@1	1999	// Rnext: target bytecode
aoqi@1	2000	// LVP: locals pointer
aoqi@1	2001	// BCP: bcp
aoqi@1	2002	__ beq(V0, R0, dispatch);
aoqi@1	2003	__ delayed()->nop();
aoqi@1	2004	// nmethod may have been invalidated (VM may block upon call_VM return)
aoqi@1	2005	__ lw(T3, V0, nmethod::entry_bci_offset());
aoqi@1	2006	__ move(AT, InvalidOSREntryBci);
aoqi@1	2007	__ beq(AT, T3, dispatch);
aoqi@1	2008	__ delayed()->nop();
aoqi@1	2009	// We need to prepare to execute the OSR method. First we must
aoqi@1	2010	// migrate the locals and monitors off of the stack.
aoqi@1	2011	//eax V0: osr nmethod (osr ok) or NULL (osr not possible)
aoqi@1	2012	//ebx V1: osr adapter frame return address
aoqi@1	2013	//edx Rnext: target bytecode
aoqi@1	2014	//edi LVP: locals pointer
aoqi@1	2015	//esi BCP: bcp
aoqi@1	2016	__ move(BCP, V0);
aoqi@1	2017	// const Register thread = ecx;
aoqi@1	2018	const Register thread = TREG;
aoqi@1	2019	#ifndef OPT_THREAD
aoqi@1	2020	__ get_thread(thread);
aoqi@1	2021	#endif
aoqi@1	2022	call_VM(noreg, CAST_FROM_FN_PTR(address,
aoqi@1	2023	SharedRuntime::OSR_migration_begin));
aoqi@1	2024	// eax is OSR buffer, move it to expected parameter location
aoqi@1	2025	//refer to osrBufferPointer in c1_LIRAssembler_mips.cpp
aoqi@1	2026	__ move(T0, V0);
aoqi@1	2027
aoqi@1	2028	// pop the interpreter frame
aoqi@1	2029	// __ movl(edx, Address(ebp, frame::interpreter_frame_sender_sp_offset
aoqi@1	2030	// * wordSize)); // get sender sp
aoqi@1	2031	__ ld(A7, Address(FP,
aoqi@1	2032	frame::interpreter_frame_sender_sp_offset * wordSize));
aoqi@1	2033	//FIXME, shall we keep the return address on the stack?
aoqi@1	2034	__ leave(); // remove frame anchor
aoqi@1	2035	// __ popl(edi); // get return address
aoqi@1	2036	//__ daddi(SP, SP, wordSize); // get return address
aoqi@1	2037	// __ pop(LVP);
aoqi@1	2038	__ move(LVP, RA);
aoqi@1	2039	// __ movl(esp, edx); // set sp to sender sp
aoqi@1	2040	__ move(SP, A7);
aoqi@1	2041
aoqi@1	2042	Label skip;
aoqi@1	2043	Label chkint;
aoqi@1	2044
aoqi@1	2045	// The interpreter frame we have removed may be returning to
aoqi@1	2046	// either the callstub or the interpreter. Since we will
aoqi@1	2047	// now be returning from a compiled (OSR) nmethod we must
aoqi@1	2048	// adjust the return to the return were it can handler compiled
aoqi@1	2049	// results and clean the fpu stack. This is very similar to
aoqi@1	2050	// what a i2c adapter must do.
aoqi@1	2051
aoqi@1	2052	// Are we returning to the call stub?
aoqi@1	2053	#if 0
aoqi@1	2054	// __ cmpl(edi, (int)StubRoutines::_call_stub_return_address);
aoqi@1	2055	__ daddi(AT, LVP, -(int)StubRoutines::_call_stub_return_address);
aoqi@1	2056	// __ jcc(Assembler::notEqual, chkint);
aoqi@1	2057	__ bne(AT, R0, chkint);
aoqi@1	2058	__ delayed()->nop();
aoqi@1	2059	// yes adjust to the specialized call stub return.
aoqi@1	2060	// assert(StubRoutines::i486::get_call_stub_compiled_return() != NULL,
aoqi@1	2061	// "must be set");
aoqi@1	2062	assert(StubRoutines::gs2::get_call_stub_compiled_return() != NULL,
aoqi@1	2063	"must be set");
aoqi@1	2064	// __ movl(edi, (intptr_t) StubRoutines::i486::get_call_stub_compiled_return());
aoqi@1	2065	__ move(LVP, (intptr_t) StubRoutines::gs2::get_call_stub_compiled_return());
aoqi@1	2066	// __ jmp(skip);
aoqi@1	2067	__ b(skip);
aoqi@1	2068	__ delayed()->nop();
aoqi@1	2069	__ bind(chkint);
aoqi@1	2070
aoqi@1	2071	// Are we returning to the interpreter? Look for sentinel
aoqi@1	2072
aoqi@1	2073	//__ cmpl(Address(edi, -8), Interpreter::return_sentinel);
aoqi@1	2074	__ lw(AT, LVP , -8);
aoqi@1	2075	__ daddi(AT, AT, -Interpreter::return_sentinel);
aoqi@1	2076	//__ jcc(Assembler::notEqual, skip);
aoqi@1	2077	__ bne(AT, R0, skip);
aoqi@1	2078	__ delayed()->nop();
aoqi@1	2079	// Adjust to compiled return back to interpreter
aoqi@1	2080
aoqi@1	2081	// __ movl(edi, Address(edi, -4));
aoqi@1	2082	__ lw(LVP, LVP, -4);
aoqi@1	2083
aoqi@1	2084	__ bind(skip);
aoqi@1	2085	#endif
aoqi@1	2086	// Align stack pointer for compiled code (note that caller is
aoqi@1	2087	// responsible for undoing this fixup by remembering the old SP
aoqi@1	2088	// in an ebp-relative location)
aoqi@1	2089	// __ andl(esp, -(StackAlignmentInBytes));
aoqi@1	2090	__ move(AT, -(StackAlignmentInBytes));
aoqi@1	2091	__ andr(SP , SP , AT);
aoqi@1	2092	// push the (possibly adjusted) return address
aoqi@1	2093	// __ pushl(edi);
aoqi@1	2094	//__ push(LVP);
aoqi@1	2095	// __ move(RA, LVP);
aoqi@1	2096	// and begin the OSR nmethod
aoqi@1	2097	// __ jmp(Address(esi, nmethod::osr_entry_point_offset()));
aoqi@1	2098	//refer to osr_entry in c1_LIRAssembler_mips.cpp
aoqi@1	2099	__ ld(AT, BCP, nmethod::osr_entry_point_offset());
aoqi@1	2100	__ jr(AT);
aoqi@1	2101	__ delayed()->nop();
aoqi@1	2102	}
aoqi@1	2103	}
aoqi@1	2104	#endif // not CORE
aoqi@1	2105	}
aoqi@1	2106
aoqi@1	2107	void TemplateTable::if_0cmp(Condition cc) {
aoqi@1	2108	transition(itos, vtos);
aoqi@1	2109	// assume branch is more often taken than not (loops use backward branches)
aoqi@1	2110	Label not_taken;
aoqi@1	2111	switch(cc) {
aoqi@1	2112	case not_equal:
aoqi@1	2113	__ beq(FSR, R0, not_taken);
aoqi@1	2114	break;
aoqi@1	2115	case equal:
aoqi@1	2116	__ bne(FSR, R0, not_taken);
aoqi@1	2117	break;
aoqi@1	2118	case less:
aoqi@1	2119	__ bgez(FSR, not_taken);
aoqi@1	2120	break;
aoqi@1	2121	case less_equal:
aoqi@1	2122	__ bgtz(FSR, not_taken);
aoqi@1	2123	break;
aoqi@1	2124	case greater:
aoqi@1	2125	__ blez(FSR, not_taken);
aoqi@1	2126	break;
aoqi@1	2127	case greater_equal:
aoqi@1	2128	__ bltz(FSR, not_taken);
aoqi@1	2129	break;
aoqi@1	2130	}
aoqi@1	2131	__ delayed()->nop();
aoqi@1	2132
aoqi@1	2133	branch(false, false);
aoqi@1	2134
aoqi@1	2135	__ bind(not_taken);
aoqi@1	2136	__ profile_not_taken_branch(FSR);
aoqi@1	2137	}
aoqi@1	2138
aoqi@1	2139
aoqi@1	2140	void TemplateTable::if_icmp(Condition cc) {
aoqi@1	2141	transition(itos, vtos);
aoqi@1	2142	// assume branch is more often taken than not (loops use backward branches)
aoqi@1	2143	Label not_taken;
aoqi@1	2144
aoqi@1	2145	__ pop_i(SSR);
aoqi@1	2146	switch(cc) {
aoqi@1	2147	case not_equal:
aoqi@1	2148	__ beq(SSR, FSR, not_taken);
aoqi@1	2149	break;
aoqi@1	2150	case equal:
aoqi@1	2151	__ bne(SSR, FSR, not_taken);
aoqi@1	2152	break;
aoqi@1	2153	case less:
aoqi@1	2154	__ slt(AT, SSR, FSR);
aoqi@1	2155	__ beq(AT, R0, not_taken);
aoqi@1	2156	break;
aoqi@1	2157	case less_equal:
aoqi@1	2158	__ slt(AT, FSR, SSR);
aoqi@1	2159	__ bne(AT, R0, not_taken);
aoqi@1	2160	break;
aoqi@1	2161	case greater:
aoqi@1	2162	__ slt(AT, FSR, SSR);
aoqi@1	2163	__ beq(AT, R0, not_taken);
aoqi@1	2164	break;
aoqi@1	2165	case greater_equal:
aoqi@1	2166	__ slt(AT, SSR, FSR);
aoqi@1	2167	__ bne(AT, R0, not_taken);
aoqi@1	2168	break;
aoqi@1	2169	}
aoqi@1	2170	__ delayed()->nop();
aoqi@1	2171
aoqi@1	2172	branch(false, false);
aoqi@1	2173
aoqi@1	2174	__ bind(not_taken);
aoqi@1	2175	__ profile_not_taken_branch(FSR);
aoqi@1	2176	}
aoqi@1	2177
aoqi@1	2178
aoqi@1	2179	void TemplateTable::if_nullcmp(Condition cc) {
aoqi@1	2180	transition(atos, vtos);
aoqi@1	2181	// assume branch is more often taken than not (loops use backward branches)
aoqi@1	2182	Label not_taken;
aoqi@1	2183	switch(cc) {
aoqi@1	2184	case not_equal:
aoqi@1	2185	__ beq(FSR, R0, not_taken);
aoqi@1	2186	break;
aoqi@1	2187	case equal:
aoqi@1	2188	__ bne(FSR, R0, not_taken);
aoqi@1	2189	break;
aoqi@1	2190	default:
aoqi@1	2191	ShouldNotReachHere();
aoqi@1	2192	}
aoqi@1	2193	__ delayed()->nop();
aoqi@1	2194
aoqi@1	2195	branch(false, false);
aoqi@1	2196
aoqi@1	2197	__ bind(not_taken);
aoqi@1	2198	__ profile_not_taken_branch(FSR);
aoqi@1	2199	}
aoqi@1	2200
aoqi@1	2201
aoqi@1	2202	void TemplateTable::if_acmp(Condition cc) {
aoqi@1	2203	transition(atos, vtos);
aoqi@1	2204	// assume branch is more often taken than not (loops use backward branches)
aoqi@1	2205	Label not_taken;
aoqi@1	2206	// __ lw(SSR, SP, 0);
aoqi@1	2207	__ pop_ptr(SSR);
aoqi@1	2208	switch(cc) {
aoqi@1	2209	case not_equal:
aoqi@1	2210	__ beq(SSR, FSR, not_taken);
aoqi@1	2211	break;
aoqi@1	2212	case equal:
aoqi@1	2213	__ bne(SSR, FSR, not_taken);
aoqi@1	2214	break;
aoqi@1	2215	default:
aoqi@1	2216	ShouldNotReachHere();
aoqi@1	2217	}
aoqi@1	2218	// __ delayed()->daddi(SP, SP, 4);
aoqi@1	2219	__ delayed()->nop();
aoqi@1	2220
aoqi@1	2221	branch(false, false);
aoqi@1	2222
aoqi@1	2223	__ bind(not_taken);
aoqi@1	2224	__ profile_not_taken_branch(FSR);
aoqi@1	2225	}
aoqi@1	2226
aoqi@1	2227	// used registers : T1, T2, T3
aoqi@1	2228	// T1 : method
aoqi@1	2229	// T2 : returb bci
aoqi@1	2230	void TemplateTable::ret() {
aoqi@1	2231	transition(vtos, vtos);
aoqi@1	2232
aoqi@1	2233	locals_index(T2);
aoqi@1	2234	__ ld(T2, T2, 0);
aoqi@1	2235	__ profile_ret(T2, T3);
aoqi@1	2236
aoqi@1	2237	__ get_method(T1);
aoqi@1	2238	__ ld(BCP, T1, in_bytes(Method::const_offset()));
aoqi@1	2239	__ dadd(BCP, BCP, T2);
aoqi@1	2240	__ daddi(BCP, BCP, in_bytes(ConstMethod::codes_offset()));
aoqi@1	2241
aoqi@1	2242	__ dispatch_next(vtos);
aoqi@1	2243	}
aoqi@1	2244
aoqi@1	2245	// used registers : T1, T2, T3
aoqi@1	2246	// T1 : method
aoqi@1	2247	// T2 : returb bci
aoqi@1	2248	void TemplateTable::wide_ret() {
aoqi@1	2249	transition(vtos, vtos);
aoqi@1	2250
aoqi@1	2251	locals_index_wide(T2);
aoqi@1	2252	__ ld(T2, T2, 0); // get return bci, compute return bcp
aoqi@1	2253	__ profile_ret(T2, T3);
aoqi@1	2254
aoqi@1	2255	__ get_method(T1);
aoqi@1	2256	__ ld(BCP, T1, in_bytes(Method::const_offset()));
aoqi@1	2257	__ dadd(BCP, BCP, T2);
aoqi@1	2258	__ daddi(BCP, BCP, in_bytes(ConstMethod::codes_offset()));
aoqi@1	2259
aoqi@1	2260	__ dispatch_next(vtos);
aoqi@1	2261	}
aoqi@1	2262
aoqi@1	2263	// used register T2, T3, A7, Rnext
aoqi@1	2264	// T2 : bytecode pointer
aoqi@1	2265	// T3 : low
aoqi@1	2266	// A7 : high
aoqi@1	2267	// Rnext : dest bytecode, required by dispatch_base
aoqi@1	2268	void TemplateTable::tableswitch() {
aoqi@1	2269	Label default_case, continue_execution;
aoqi@1	2270	transition(itos, vtos);
aoqi@1	2271
aoqi@1	2272	// align BCP
aoqi@1	2273	__ daddi(T2, BCP, BytesPerInt);
aoqi@1	2274	__ li(AT, -BytesPerInt);
aoqi@1	2275	__ andr(T2, T2, AT);
aoqi@1	2276
aoqi@1	2277	// load lo & hi
aoqi@1	2278	__ lw(T3, T2, 1 * BytesPerInt);
aoqi@1	2279	__ swap(T3);
aoqi@1	2280	__ lw(A7, T2, 2 * BytesPerInt);
aoqi@1	2281	__ swap(A7);
aoqi@1	2282
aoqi@1	2283	// check against lo & hi
aoqi@1	2284	__ slt(AT, FSR, T3);
aoqi@1	2285	__ bne(AT, R0, default_case);
aoqi@1	2286	__ delayed()->nop();
aoqi@1	2287
aoqi@1	2288	__ slt(AT, A7, FSR);
aoqi@1	2289	__ bne(AT, R0, default_case);
aoqi@1	2290	__ delayed()->nop();
aoqi@1	2291
aoqi@1	2292	// lookup dispatch offset, in A7 big endian
aoqi@1	2293	__ dsub(FSR, FSR, T3);
aoqi@1	2294	__ dsll(AT, FSR, Address::times_4);
aoqi@1	2295	__ dadd(AT, T2, AT);
aoqi@1	2296	__ lw(A7, AT, 3 * BytesPerInt);
aoqi@1	2297	__ profile_switch_case(FSR, T9, T3);
aoqi@1	2298
aoqi@1	2299	__ bind(continue_execution);
aoqi@1	2300	__ swap(A7);
aoqi@1	2301	__ dadd(BCP, BCP, A7);
aoqi@1	2302	__ lbu(Rnext, BCP, 0);
aoqi@1	2303	__ dispatch_only(vtos);
aoqi@1	2304
aoqi@1	2305	// handle default
aoqi@1	2306	__ bind(default_case);
aoqi@1	2307	__ profile_switch_default(FSR);
aoqi@1	2308	__ lw(A7, T2, 0);
aoqi@1	2309	__ b(continue_execution);
aoqi@1	2310	__ delayed()->nop();
aoqi@1	2311	}
aoqi@1	2312
aoqi@1	2313	void TemplateTable::lookupswitch() {
aoqi@1	2314	transition(itos, itos);
aoqi@1	2315	__ stop("lookupswitch bytecode should have been rewritten");
aoqi@1	2316	}
aoqi@1	2317
aoqi@1	2318	// used registers : T2, T3, A7, Rnext
aoqi@1	2319	// T2 : bytecode pointer
aoqi@1	2320	// T3 : pair index
aoqi@1	2321	// A7 : offset
aoqi@1	2322	// Rnext : dest bytecode
aoqi@1	2323	// the data after the opcode is the same as lookupswitch
aoqi@1	2324	// see Rewriter::rewrite_method for more information
aoqi@1	2325	void TemplateTable::fast_linearswitch() {
aoqi@1	2326	transition(itos, vtos);
aoqi@1	2327	Label loop_entry, loop, found, continue_execution;
aoqi@1	2328
aoqi@1	2329	// swap eax so we can avoid swapping the table entries
aoqi@1	2330	__ swap(FSR);
aoqi@1	2331
aoqi@1	2332	// align BCP
aoqi@1	2333	__ daddi(T2, BCP, BytesPerInt);
aoqi@1	2334	__ li(AT, -BytesPerInt);
aoqi@1	2335	__ andr(T2, T2, AT);
aoqi@1	2336
aoqi@1	2337	// set counter
aoqi@1	2338	__ lw(T3, T2, BytesPerInt);
aoqi@1	2339	__ swap(T3);
aoqi@1	2340	__ b(loop_entry);
aoqi@1	2341	__ delayed()->nop();
aoqi@1	2342
aoqi@1	2343	// table search
aoqi@1	2344	__ bind(loop);
aoqi@1	2345	// get the entry value
aoqi@1	2346	__ dsll(AT, T3, Address::times_8);
aoqi@1	2347	__ dadd(AT, T2, AT);
aoqi@1	2348	__ lw(AT, AT, 2 * BytesPerInt);
aoqi@1	2349
aoqi@1	2350	// found?
aoqi@1	2351	__ beq(FSR, AT, found);
aoqi@1	2352	__ delayed()->nop();
aoqi@1	2353
aoqi@1	2354	__ bind(loop_entry);
aoqi@1	2355	__ bgtz(T3, loop);
aoqi@1	2356	__ delayed()->daddiu(T3, T3, -1);
aoqi@1	2357
aoqi@1	2358	// default case
aoqi@1	2359	__ profile_switch_default(FSR);
aoqi@1	2360	__ lw(A7, T2, 0);
aoqi@1	2361	__ b(continue_execution);
aoqi@1	2362	__ delayed()->nop();
aoqi@1	2363
aoqi@1	2364	// entry found -> get offset
aoqi@1	2365	__ bind(found);
aoqi@1	2366	__ dsll(AT, T3, Address::times_8);
aoqi@1	2367	__ dadd(AT, T2, AT);
aoqi@1	2368	__ lw(A7, AT, 3 * BytesPerInt);
aoqi@1	2369	__ profile_switch_case(T3, FSR, T2);
aoqi@1	2370
aoqi@1	2371	// continue execution
aoqi@1	2372	__ bind(continue_execution);
aoqi@1	2373	__ swap(A7);
aoqi@1	2374	__ dadd(BCP, BCP, A7);
aoqi@1	2375	__ lbu(Rnext, BCP, 0);
aoqi@1	2376	__ dispatch_only(vtos);
aoqi@1	2377	}
aoqi@1	2378
aoqi@1	2379	// used registers : T0, T1, T2, T3, A7, Rnext
aoqi@1	2380	// T2 : pairs address(array)
aoqi@1	2381	// Rnext : dest bytecode
aoqi@1	2382	// the data after the opcode is the same as lookupswitch
aoqi@1	2383	// see Rewriter::rewrite_method for more information
aoqi@1	2384	void TemplateTable::fast_binaryswitch() {
aoqi@1	2385	transition(itos, vtos);
aoqi@1	2386	// Implementation using the following core algorithm:
aoqi@1	2387	//
aoqi@1	2388	// int binary_search(int key, LookupswitchPair* array, int n) {
aoqi@1	2389	// // Binary search according to "Methodik des Programmierens" by
aoqi@1	2390	// // Edsger W. Dijkstra and W.H.J. Feijen, Addison Wesley Germany 1985.
aoqi@1	2391	// int i = 0;
aoqi@1	2392	// int j = n;
aoqi@1	2393	// while (i+1 < j) {
aoqi@1	2394	// // invariant P: 0 <= i < j <= n and (a[i] <= key < a[j] or Q)
aoqi@1	2395	// // with Q: for all i: 0 <= i < n: key < a[i]
aoqi@1	2396	// // where a stands for the array and assuming that the (inexisting)
aoqi@1	2397	// // element a[n] is infinitely big.
aoqi@1	2398	// int h = (i + j) >> 1;
aoqi@1	2399	// // i < h < j
aoqi@1	2400	// if (key < array[h].fast_match()) {
aoqi@1	2401	// j = h;
aoqi@1	2402	// } else {
aoqi@1	2403	// i = h;
aoqi@1	2404	// }
aoqi@1	2405	// }
aoqi@1	2406	// // R: a[i] <= key < a[i+1] or Q
aoqi@1	2407	// // (i.e., if key is within array, i is the correct index)
aoqi@1	2408	// return i;
aoqi@1	2409	// }
aoqi@1	2410
aoqi@1	2411	// register allocation
aoqi@1	2412	const Register array = T2;
aoqi@1	2413	const Register i = T3, j = A7;
aoqi@1	2414	const Register h = T1;
aoqi@1	2415	const Register temp = T0;
aoqi@1	2416	const Register key = FSR;
aoqi@1	2417
aoqi@1	2418	// setup array
aoqi@1	2419	__ daddi(array, BCP, 3*BytesPerInt);
aoqi@1	2420	__ li(AT, -BytesPerInt);
aoqi@1	2421	__ andr(array, array, AT);
aoqi@1	2422
aoqi@1	2423	// initialize i & j
aoqi@1	2424	__ move(i, R0);
aoqi@1	2425	__ lw(j, array, - 1 * BytesPerInt);
aoqi@1	2426	// Convert j into native byteordering
aoqi@1	2427	__ swap(j);
aoqi@1	2428
aoqi@1	2429	// and start
aoqi@1	2430	Label entry;
aoqi@1	2431	__ b(entry);
aoqi@1	2432	__ delayed()->nop();
aoqi@1	2433
aoqi@1	2434	// binary search loop
aoqi@1	2435	{
aoqi@1	2436	Label loop;
aoqi@1	2437	__ bind(loop);
aoqi@1	2438	// int h = (i + j) >> 1;
aoqi@1	2439	__ dadd(h, i, j);
aoqi@1	2440	__ dsrl(h, h, 1);
aoqi@1	2441	// if (key < array[h].fast_match()) {
aoqi@1	2442	// j = h;
aoqi@1	2443	// } else {
aoqi@1	2444	// i = h;
aoqi@1	2445	// }
aoqi@1	2446	// Convert array[h].match to native byte-ordering before compare
aoqi@1	2447	__ dsll(AT, h, Address::times_8);
aoqi@1	2448	__ dadd(AT, array, AT);
aoqi@1	2449	__ lw(temp, AT, 0 * BytesPerInt);
aoqi@1	2450	__ swap(temp);
aoqi@1	2451
aoqi@1	2452	{
aoqi@1	2453	Label set_i, end_of_if;
aoqi@1	2454	__ slt(AT, key, temp);
aoqi@1	2455	__ beq(AT, R0, set_i);
aoqi@1	2456	__ delayed()->nop();
aoqi@1	2457
aoqi@1	2458	__ b(end_of_if);
aoqi@1	2459	__ delayed(); __ move(j, h);
aoqi@1	2460
aoqi@1	2461	__ bind(set_i);
aoqi@1	2462	__ move(i, h);
aoqi@1	2463
aoqi@1	2464	__ bind(end_of_if);
aoqi@1	2465	}
aoqi@1	2466	// while (i+1 < j)
aoqi@1	2467	__ bind(entry);
aoqi@1	2468	__ daddi(h, i, 1);
aoqi@1	2469	__ slt(AT, h, j);
aoqi@1	2470	__ bne(AT, R0, loop);
aoqi@1	2471	__ delayed()->nop();
aoqi@1	2472	}
aoqi@1	2473
aoqi@1	2474	// end of binary search, result index is i (must check again!)
aoqi@1	2475	Label default_case;
aoqi@1	2476	// Convert array[i].match to native byte-ordering before compare
aoqi@1	2477	__ dsll(AT, i, Address::times_8);
aoqi@1	2478	__ dadd(AT, array, AT);
aoqi@1	2479	__ lw(temp, AT, 0 * BytesPerInt);
aoqi@1	2480	__ swap(temp);
aoqi@1	2481	__ bne(key, temp, default_case);
aoqi@1	2482	__ delayed()->nop();
aoqi@1	2483
aoqi@1	2484	// entry found -> j = offset
aoqi@1	2485	__ dsll(AT, i, Address::times_8);
aoqi@1	2486	__ dadd(AT, array, AT);
aoqi@1	2487	__ lw(j, AT, 1 * BytesPerInt);
aoqi@1	2488	__ profile_switch_case(i, key, array);
aoqi@1	2489	__ swap(j);
aoqi@1	2490
aoqi@1	2491	__ dadd(BCP, BCP, j);
aoqi@1	2492	__ lbu(Rnext, BCP, 0);
aoqi@1	2493	__ dispatch_only(vtos);
aoqi@1	2494
aoqi@1	2495	// default case -> j = default offset
aoqi@1	2496	__ bind(default_case);
aoqi@1	2497	__ profile_switch_default(i);
aoqi@1	2498	__ lw(j, array, - 2 * BytesPerInt);
aoqi@1	2499	__ swap(j);
aoqi@1	2500	__ dadd(BCP, BCP, j);
aoqi@1	2501	__ lbu(Rnext, BCP, 0);
aoqi@1	2502	__ dispatch_only(vtos);
aoqi@1	2503	}
aoqi@1	2504
aoqi@1	2505	void TemplateTable::_return(TosState state) {
aoqi@1	2506	transition(state, state);
aoqi@1	2507	assert(_desc->calls_vm(), "inconsistent calls_vm information"); // call in remove_activation
aoqi@1	2508	if (_desc->bytecode() == Bytecodes::_return_register_finalizer) {
aoqi@1	2509	assert(state == vtos, "only valid state");
aoqi@1	2510	__ ld(T1, aaddress(0));
aoqi@1	2511	//__ ld(LVP, T1, oopDesc::klass_offset_in_bytes());
aoqi@1	2512	__ load_klass(LVP, T1);
aoqi@1	2513	__ lw(LVP, LVP, in_bytes(Klass::access_flags_offset()));
aoqi@1	2514	__ move(AT, JVM_ACC_HAS_FINALIZER);
aoqi@1	2515	__ andr(AT, AT, LVP);//by_css
aoqi@1	2516	Label skip_register_finalizer;
aoqi@1	2517	__ beq(AT, R0, skip_register_finalizer);
aoqi@1	2518	__ delayed()->nop();
aoqi@1	2519	__ call_VM(noreg, CAST_FROM_FN_PTR(address,
aoqi@1	2520	InterpreterRuntime::register_finalizer), T1);
aoqi@1	2521	__ bind(skip_register_finalizer);
aoqi@1	2522	}
aoqi@1	2523	__ remove_activation(state, T9);
fujie@32	2524	__ sync();
aoqi@1	2525
aoqi@1	2526	__ jr(T9);
aoqi@1	2527	__ delayed()->nop();
aoqi@1	2528	}
aoqi@1	2529
aoqi@1	2530	// ----------------------------------------------------------------------------
aoqi@1	2531	// Volatile variables demand their effects be made known to all CPU's
aoqi@1	2532	// in order. Store buffers on most chips allow reads & writes to
aoqi@1	2533	// reorder; the JMM's ReadAfterWrite.java test fails in -Xint mode
aoqi@1	2534	// without some kind of memory barrier (i.e., it's not sufficient that
aoqi@1	2535	// the interpreter does not reorder volatile references, the hardware
aoqi@1	2536	// also must not reorder them).
aoqi@1	2537	//
aoqi@1	2538	// According to the new Java Memory Model (JMM):
aoqi@1	2539	// (1) All volatiles are serialized wrt to each other. ALSO reads &
aoqi@1	2540	// writes act as aquire & release, so:
aoqi@1	2541	// (2) A read cannot let unrelated NON-volatile memory refs that
aoqi@1	2542	// happen after the read float up to before the read. It's OK for
aoqi@1	2543	// non-volatile memory refs that happen before the volatile read to
aoqi@1	2544	// float down below it.
aoqi@1	2545	// (3) Similar a volatile write cannot let unrelated NON-volatile
aoqi@1	2546	// memory refs that happen BEFORE the write float down to after the
aoqi@1	2547	// write. It's OK for non-volatile memory refs that happen after the
aoqi@1	2548	// volatile write to float up before it.
aoqi@1	2549	//
aoqi@1	2550	// We only put in barriers around volatile refs (they are expensive),
aoqi@1	2551	// not _between_ memory refs (that would require us to track the
aoqi@1	2552	// flavor of the previous memory refs). Requirements (2) and (3)
aoqi@1	2553	// require some barriers before volatile stores and after volatile
aoqi@1	2554	// loads. These nearly cover requirement (1) but miss the
aoqi@1	2555	// volatile-store-volatile-load case. This final case is placed after
aoqi@1	2556	// volatile-stores although it could just as well go before
aoqi@1	2557	// volatile-loads.
aoqi@1	2558	//void TemplateTable::volatile_barrier(Assembler::Membar_mask_bits
aoqi@1	2559	// order_constraint) {
aoqi@1	2560	void TemplateTable::volatile_barrier( ) {
aoqi@1	2561	// Helper function to insert a is-volatile test and memory barrier
aoqi@1	2562	//if (os::is_MP()) { // Not needed on single CPU
aoqi@1	2563	// __ membar(order_constraint);
aoqi@1	2564	//}
aoqi@1	2565	if( !os::is_MP() ) return; // Not needed on single CPU
aoqi@1	2566	__ sync();
aoqi@1	2567	}
aoqi@1	2568
aoqi@1	2569	// we dont shift left 2 bits in get_cache_and_index_at_bcp
aoqi@1	2570	// for we always need shift the index we use it. the ConstantPoolCacheEntry
aoqi@1	2571	// is 16-byte long, index is the index in
aoqi@1	2572	// ConstantPoolCache, so cache + base_offset() + index * 16 is
aoqi@1	2573	// the corresponding ConstantPoolCacheEntry
aoqi@1	2574	// used registers : T2
aoqi@1	2575	// NOTE : the returned index need also shift left 4 to get the address!
aoqi@1	2576	void TemplateTable::resolve_cache_and_index(int byte_no,
aoqi@1	2577	Register Rcache,
aoqi@1	2578	Register index,
aoqi@1	2579	size_t index_size) {
aoqi@1	2580	assert(byte_no == f1_byte || byte_no == f2_byte, "byte_no out of range");
aoqi@1	2581	const Register temp = A1;
aoqi@1	2582	assert_different_registers(Rcache, index);
aoqi@1	2583	const int shift_count = (1 + byte_no)*BitsPerByte;
aoqi@1	2584	Label resolved;
aoqi@1	2585	__ get_cache_and_index_and_bytecode_at_bcp(Rcache, index, temp, byte_no, 1, index_size);
aoqi@1	2586	// is resolved?
aoqi@1	2587	int i = (int)bytecode();
aoqi@1	2588	__ addi(temp, temp, -i);
aoqi@1	2589	__ beq(temp, R0, resolved);
aoqi@1	2590	__ delayed()->nop();
aoqi@1	2591	// resolve first time through
aoqi@1	2592	address entry;
aoqi@1	2593	switch (bytecode()) {
aoqi@1	2594	case Bytecodes::_getstatic : // fall through
aoqi@1	2595	case Bytecodes::_putstatic : // fall through
aoqi@1	2596	case Bytecodes::_getfield : // fall through
aoqi@1	2597	case Bytecodes::_putfield :
aoqi@1	2598	entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_get_put);
aoqi@1	2599	break;
aoqi@1	2600	case Bytecodes::_invokevirtual : // fall through
aoqi@1	2601	case Bytecodes::_invokespecial : // fall through
aoqi@1	2602	case Bytecodes::_invokestatic : // fall through
aoqi@1	2603	case Bytecodes::_invokeinterface:
aoqi@1	2604	entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_invoke);
aoqi@1	2605	break;
aoqi@1	2606	case Bytecodes::_invokehandle:
aoqi@1	2607	entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_invokehandle);
aoqi@1	2608	break;
aoqi@1	2609	case Bytecodes::_invokedynamic:
aoqi@1	2610	entry = CAST_FROM_FN_PTR(address, InterpreterRuntime::resolve_invokedynamic);
aoqi@1	2611	break;
aoqi@1	2612	default :
aoqi@1	2613	fatal(err_msg("unexpected bytecode: %s", Bytecodes::name(bytecode())));
aoqi@1	2614	}
aoqi@1	2615
aoqi@1	2616	__ move(temp, i);
aoqi@1	2617	__ call_VM(NOREG, entry, temp);
aoqi@1	2618
aoqi@1	2619	// Update registers with resolved info
aoqi@1	2620	__ get_cache_and_index_at_bcp(Rcache, index, 1, index_size);
aoqi@1	2621	__ bind(resolved);
aoqi@1	2622	}
aoqi@1	2623
aoqi@1	2624	// The Rcache and index registers must be set before call
aoqi@1	2625	void TemplateTable::load_field_cp_cache_entry(Register obj,
aoqi@1	2626	Register cache,
aoqi@1	2627	Register index,
aoqi@1	2628	Register off,
aoqi@1	2629	Register flags,
aoqi@1	2630	bool is_static = false) {
aoqi@1	2631	assert_different_registers(cache, index, flags, off);
aoqi@1	2632	ByteSize cp_base_offset = ConstantPoolCache::base_offset();
aoqi@1	2633	// Field offset
aoqi@1	2634	__ dsll(AT, index, Address::times_ptr);
aoqi@1	2635	__ dadd(AT, cache, AT);
aoqi@1	2636	__ ld(off, AT, in_bytes(cp_base_offset + ConstantPoolCacheEntry::f2_offset()));
aoqi@1	2637	// Flags
aoqi@1	2638	__ ld(flags, AT, in_bytes(cp_base_offset + ConstantPoolCacheEntry::flags_offset()));
aoqi@1	2639
aoqi@1	2640	// klass overwrite register
aoqi@1	2641	if (is_static) {
aoqi@1	2642	__ ld(obj, AT, in_bytes(cp_base_offset + ConstantPoolCacheEntry::f1_offset()));
aoqi@1	2643	const int mirror_offset = in_bytes(Klass::java_mirror_offset());
aoqi@1	2644	__ ld(obj, Address(obj, mirror_offset));
aoqi@1	2645
aoqi@1	2646	__ verify_oop(obj);
aoqi@1	2647	}
aoqi@1	2648	}
aoqi@1	2649
aoqi@1	2650	// get the method, itable_index and flags of the current invoke
aoqi@1	2651	void TemplateTable::load_invoke_cp_cache_entry(int byte_no,
aoqi@1	2652	Register method,
aoqi@1	2653	Register itable_index,
aoqi@1	2654	Register flags,
aoqi@1	2655	bool is_invokevirtual,
aoqi@1	2656	bool is_invokevfinal, /*unused*/
aoqi@1	2657	bool is_invokedynamic) {
aoqi@1	2658	// setup registers
aoqi@1	2659	const Register cache = T3;
aoqi@1	2660	const Register index = T1;
aoqi@1	2661	assert_different_registers(method, flags);
aoqi@1	2662	assert_different_registers(method, cache, index);
aoqi@1	2663	assert_different_registers(itable_index, flags);
aoqi@1	2664	assert_different_registers(itable_index, cache, index);
aoqi@1	2665	assert(is_invokevirtual == (byte_no == f2_byte), "is invokevirtual flag redundant");
aoqi@1	2666	// determine constant pool cache field offsets
aoqi@1	2667	const int method_offset = in_bytes(
aoqi@1	2668	ConstantPoolCache::base_offset() +
aoqi@1	2669	((byte_no == f2_byte)
aoqi@1	2670	? ConstantPoolCacheEntry::f2_offset()
aoqi@1	2671	: ConstantPoolCacheEntry::f1_offset()
aoqi@1	2672	)
aoqi@1	2673	);
aoqi@1	2674	const int flags_offset = in_bytes(ConstantPoolCache::base_offset() +
aoqi@1	2675	ConstantPoolCacheEntry::flags_offset());
aoqi@1	2676	// access constant pool cache fields
aoqi@1	2677	const int index_offset = in_bytes(ConstantPoolCache::base_offset() +
aoqi@1	2678	ConstantPoolCacheEntry::f2_offset());
aoqi@1	2679	size_t index_size = (is_invokedynamic ? sizeof(u4): sizeof(u2));
aoqi@1	2680	resolve_cache_and_index(byte_no, cache, index, index_size);
aoqi@1	2681
aoqi@1	2682	//assert(wordSize == 8, "adjust code below");
aoqi@1	2683	// note we shift 4 not 2, for we get is the true inde
aoqi@1	2684	// of ConstantPoolCacheEntry, not the shifted 2-bit index as x86 version
aoqi@1	2685	__ dsll(AT, index, Address::times_ptr);
aoqi@1	2686	__ dadd(AT, cache, AT);
aoqi@1	2687	__ ld(method, AT, method_offset);
aoqi@1	2688
aoqi@1	2689
aoqi@1	2690	if (itable_index != NOREG) {
aoqi@1	2691	__ ld(itable_index, AT, index_offset);
aoqi@1	2692	}
aoqi@1	2693	__ ld(flags, AT, flags_offset);
aoqi@1	2694	}
aoqi@1	2695
aoqi@1	2696
aoqi@1	2697	// The registers cache and index expected to be set before call.
aoqi@1	2698	// Correct values of the cache and index registers are preserved.
aoqi@1	2699	void TemplateTable::jvmti_post_field_access(Register cache, Register index,
aoqi@1	2700	bool is_static, bool has_tos) {
aoqi@1	2701	// do the JVMTI work here to avoid disturbing the register state below
aoqi@1	2702	// We use c_rarg registers here because we want to use the register used in
aoqi@1	2703	// the call to the VM
aoqi@1	2704	if (JvmtiExport::can_post_field_access()) {
aoqi@1	2705	// Check to see if a field access watch has been set before we take
aoqi@1	2706	// the time to call into the VM.
aoqi@1	2707	Label L1;
aoqi@1	2708	assert_different_registers(cache, index, FSR);
aoqi@1	2709	__ li(AT, (intptr_t)JvmtiExport::get_field_access_count_addr());
aoqi@1	2710	__ lw(FSR, AT, 0);
aoqi@1	2711	__ beq(FSR, R0, L1);
aoqi@1	2712	__ delayed()->nop();
aoqi@1	2713
aoqi@1	2714	// We rely on the bytecode being resolved and the cpCache entry filled in.
aoqi@1	2715	// cache entry pointer
aoqi@1	2716	//__ get_cache_and_index_at_bcp(c_rarg2, c_rarg3, 1);
aoqi@1	2717	__ daddi(cache, cache, in_bytes(ConstantPoolCache::base_offset()));
aoqi@1	2718	__ shl(index, 4);
aoqi@1	2719	__ dadd(cache, cache, index);
aoqi@1	2720	if (is_static) {
aoqi@1	2721	__ move(FSR, R0);
aoqi@1	2722	} else {
aoqi@1	2723	__ lw(FSR, SP, 0);
aoqi@1	2724	__ verify_oop(FSR);
aoqi@1	2725	}
aoqi@1	2726	// FSR: object pointer or NULL
aoqi@1	2727	// cache: cache entry pointer
aoqi@1	2728	__ call_VM(NOREG, CAST_FROM_FN_PTR(address,
aoqi@1	2729	InterpreterRuntime::post_field_access), FSR, cache);
aoqi@1	2730	__ get_cache_and_index_at_bcp(cache, index, 1);
aoqi@1	2731	__ bind(L1);
aoqi@1	2732	}
aoqi@1	2733	}
aoqi@1	2734
aoqi@1	2735	void TemplateTable::pop_and_check_object(Register r) {
aoqi@1	2736	__ pop_ptr(r);
aoqi@1	2737	__ null_check(r); // for field access must check obj.
aoqi@1	2738	__ verify_oop(r);
aoqi@1	2739	}
aoqi@1	2740
aoqi@1	2741	// used registers : T1, T2, T3, T1
aoqi@1	2742	// T1 : flags
aoqi@1	2743	// T2 : off
aoqi@1	2744	// T3 : obj
aoqi@1	2745	// T1 : field address
aoqi@1	2746	// The flags 31, 30, 29, 28 together build a 4 bit number 0 to 8 with the
aoqi@1	2747	// following mapping to the TosState states:
aoqi@1	2748	// btos: 0
aoqi@1	2749	// ctos: 1
aoqi@1	2750	// stos: 2
aoqi@1	2751	// itos: 3
aoqi@1	2752	// ltos: 4
aoqi@1	2753	// ftos: 5
aoqi@1	2754	// dtos: 6
aoqi@1	2755	// atos: 7
aoqi@1	2756	// vtos: 8
aoqi@1	2757	// see ConstantPoolCacheEntry::set_field for more info
aoqi@1	2758	void TemplateTable::getfield_or_static(int byte_no, bool is_static) {
aoqi@1	2759	transition(vtos, vtos);
aoqi@1	2760
aoqi@1	2761	const Register cache = T3;
aoqi@1	2762	const Register index = T0;
aoqi@1	2763
aoqi@1	2764	const Register obj = T3;
aoqi@1	2765	const Register off = T2;
aoqi@1	2766	const Register flags = T1;
aoqi@1	2767	resolve_cache_and_index(byte_no, cache, index, sizeof(u2));
aoqi@1	2768	//jvmti_post_field_access(cache, index, is_static, false);
aoqi@1	2769
aoqi@1	2770	load_field_cp_cache_entry(obj, cache, index, off, flags, is_static);
aoqi@1	2771
aoqi@1	2772	if (!is_static) pop_and_check_object(obj);
aoqi@1	2773	__ dadd(index, obj, off);
aoqi@1	2774
aoqi@1	2775
aoqi@1	2776	Label Done, notByte, notInt, notShort, notChar, notLong, notFloat, notObj, notDouble;
aoqi@1	2777
aoqi@1	2778	assert(btos == 0, "change code, btos != 0");
aoqi@1	2779	__ dsrl(flags, flags, ConstantPoolCacheEntry::tos_state_shift);
aoqi@1	2780	__ andi(flags, flags, 0xf);
aoqi@1	2781	__ bne(flags, R0, notByte);
aoqi@1	2782	__ delayed()->nop();
aoqi@1	2783
aoqi@1	2784	// btos
aoqi@1	2785	__ lb(FSR, index, 0);
aoqi@1	2786	__ sd(FSR, SP, - wordSize);
aoqi@1	2787
aoqi@1	2788	// Rewrite bytecode to be faster
aoqi@1	2789	if (!is_static) {
aoqi@1	2790	patch_bytecode(Bytecodes::_fast_bgetfield, T3, T2);
aoqi@1	2791	}
aoqi@1	2792	__ b(Done);
aoqi@1	2793	__ delayed()->daddi(SP, SP, - wordSize);
aoqi@1	2794
aoqi@1	2795	__ bind(notByte);
aoqi@1	2796	__ move(AT, itos);
aoqi@1	2797	__ bne(flags, AT, notInt);
aoqi@1	2798	__ delayed()->nop();
aoqi@1	2799
aoqi@1	2800	// itos
aoqi@1	2801	__ lw(FSR, index, 0);
aoqi@1	2802	__ sd(FSR, SP, - wordSize);
aoqi@1	2803
aoqi@1	2804	// Rewrite bytecode to be faster
aoqi@1	2805	if (!is_static) {
aoqi@1	2806	// patch_bytecode(Bytecodes::_fast_igetfield, T3, T2);
aoqi@1	2807	patch_bytecode(Bytecodes::_fast_igetfield, T3, T2);
aoqi@1	2808	}
aoqi@1	2809	__ b(Done);
aoqi@1	2810	__ delayed()->daddi(SP, SP, - wordSize);
aoqi@1	2811
aoqi@1	2812	__ bind(notInt);
aoqi@1	2813	__ move(AT, atos);
aoqi@1	2814	__ bne(flags, AT, notObj);
aoqi@1	2815	__ delayed()->nop();
aoqi@1	2816
aoqi@1	2817	// atos
aoqi@1	2818	//add for compressedoops
aoqi@1	2819	__ load_heap_oop(FSR, Address(index, 0));
aoqi@1	2820	__ sd(FSR, SP, - wordSize);
aoqi@1	2821
aoqi@1	2822	if (!is_static) {
aoqi@1	2823	//patch_bytecode(Bytecodes::_fast_agetfield, T3, T2);
aoqi@1	2824	patch_bytecode(Bytecodes::_fast_agetfield, T3, T2);
aoqi@1	2825	}
aoqi@1	2826	__ b(Done);
aoqi@1	2827	__ delayed()->daddi(SP, SP, - wordSize);
aoqi@1	2828
aoqi@1	2829	__ bind(notObj);
aoqi@1	2830	__ move(AT, ctos);
aoqi@1	2831	__ bne(flags, AT, notChar);
aoqi@1	2832	__ delayed()->nop();
aoqi@1	2833
aoqi@1	2834	// ctos
aoqi@1	2835	__ lhu(FSR, index, 0);
aoqi@1	2836	__ sd(FSR, SP, - wordSize);
aoqi@1	2837
aoqi@1	2838	if (!is_static) {
aoqi@1	2839	patch_bytecode(Bytecodes::_fast_cgetfield, T3, T2);
aoqi@1	2840	}
aoqi@1	2841	__ b(Done);
aoqi@1	2842	__ delayed()->daddi(SP, SP, - wordSize);
aoqi@1	2843
aoqi@1	2844	__ bind(notChar);
aoqi@1	2845	__ move(AT, stos);
aoqi@1	2846	__ bne(flags, AT, notShort);
aoqi@1	2847	__ delayed()->nop();
aoqi@1	2848
aoqi@1	2849	// stos
aoqi@1	2850	__ lh(FSR, index, 0);
aoqi@1	2851	__ sd(FSR, SP, - wordSize);
aoqi@1	2852
aoqi@1	2853	if (!is_static) {
aoqi@1	2854	// patch_bytecode(Bytecodes::_fast_sgetfield, T3, T2);
aoqi@1	2855	patch_bytecode(Bytecodes::_fast_sgetfield, T3, T2);
aoqi@1	2856	}
aoqi@1	2857	__ b(Done);
aoqi@1	2858	__ delayed()->daddi(SP, SP, - wordSize);
aoqi@1	2859
aoqi@1	2860	__ bind(notShort);
aoqi@1	2861	__ move(AT, ltos);
aoqi@1	2862	__ bne(flags, AT, notLong);
aoqi@1	2863	__ delayed()->nop();
aoqi@1	2864
aoqi@1	2865	// FIXME : the load/store should be atomic, we have no simple method to do this in mips32
aoqi@1	2866	// ltos
aoqi@1	2867	__ ld(FSR, index, 0 * wordSize);
aoqi@1	2868	__ sd(FSR, SP, -2 * wordSize);
aoqi@1	2869	__ sd(R0, SP, -1 * wordSize);
aoqi@1	2870
aoqi@1	2871	// Don't rewrite to _fast_lgetfield for potential volatile case.
aoqi@1	2872	__ b(Done);
aoqi@1	2873	__ delayed()->daddi(SP, SP, - 2 * wordSize);
aoqi@1	2874
aoqi@1	2875	__ bind(notLong);
aoqi@1	2876	__ move(AT, ftos);
aoqi@1	2877	__ bne(flags, AT, notFloat);
aoqi@1	2878	__ delayed()->nop();
aoqi@1	2879
aoqi@1	2880	// ftos
aoqi@1	2881	__ lwc1(FSF, index, 0);
aoqi@1	2882	__ sdc1(FSF, SP, - wordSize);
aoqi@1	2883
aoqi@1	2884	if (!is_static) {
aoqi@1	2885	patch_bytecode(Bytecodes::_fast_fgetfield, T3, T2);
aoqi@1	2886	}
aoqi@1	2887	__ b(Done);
aoqi@1	2888	__ delayed()->daddi(SP, SP, - wordSize);
aoqi@1	2889
aoqi@1	2890	__ bind(notFloat);
aoqi@1	2891	__ move(AT, dtos);
aoqi@1	2892	__ bne(flags, AT, notDouble);
aoqi@1	2893	__ delayed()->nop();
aoqi@1	2894
aoqi@1	2895	// dtos
aoqi@1	2896	__ ldc1(FSF, index, 0 * wordSize);
aoqi@1	2897	__ sdc1(FSF, SP, - 2 * wordSize);
aoqi@1	2898	__ sd(R0, SP, - 1 * wordSize);
aoqi@1	2899
aoqi@1	2900	if (!is_static) {
aoqi@1	2901	patch_bytecode(Bytecodes::_fast_dgetfield, T3, T2);
aoqi@1	2902	}
aoqi@1	2903	__ b(Done);
aoqi@1	2904	__ delayed()->daddi(SP, SP, - 2 * wordSize);
aoqi@1	2905
aoqi@1	2906	__ bind(notDouble);
aoqi@1	2907
aoqi@1	2908	__ stop("Bad state");
aoqi@1	2909
aoqi@1	2910	__ bind(Done);
aoqi@1	2911	}
aoqi@1	2912
aoqi@1	2913	void TemplateTable::getfield(int byte_no) {
aoqi@1	2914	getfield_or_static(byte_no, false);
aoqi@1	2915	}
aoqi@1	2916
aoqi@1	2917	void TemplateTable::getstatic(int byte_no) {
aoqi@1	2918	getfield_or_static(byte_no, true);
aoqi@1	2919	}
aoqi@1	2920	/*
aoqi@1	2921	// used registers : T1, T2, T3, T1
aoqi@1	2922	// T1 : cache & cp entry
aoqi@1	2923	// T2 : obj
aoqi@1	2924	// T3 : flags & value pointer
aoqi@1	2925	// T1 : index
aoqi@1	2926	// see ConstantPoolCacheEntry::set_field for more info
aoqi@1	2927	void TemplateTable::jvmti_post_field_mod(int byte_no, bool is_static) {
aoqi@1	2928	*/
aoqi@1	2929
aoqi@1	2930	// The registers cache and index expected to be set before call.
aoqi@1	2931	// The function may destroy various registers, just not the cache and index registers.
aoqi@1	2932	void TemplateTable::jvmti_post_field_mod(Register cache, Register index, bool is_static) {
aoqi@1	2933	ByteSize cp_base_offset = ConstantPoolCache::base_offset();
aoqi@1	2934
aoqi@1	2935	if (JvmtiExport::can_post_field_modification()) {
aoqi@1	2936	// Check to see if a field modification watch has been set before we take
aoqi@1	2937	// the time to call into the VM.
aoqi@1	2938	Label L1;
aoqi@1	2939	assert_different_registers(cache, index, AT);
aoqi@1	2940
aoqi@1	2941	//__ lui(AT, Assembler::split_high((int)JvmtiExport::get_field_modification_count_addr()));
aoqi@1	2942	//__ lw(FSR, AT, Assembler::split_low((int)JvmtiExport::get_field_modification_count_addr()));
aoqi@1	2943	__ li(AT, JvmtiExport::get_field_modification_count_addr());
aoqi@1	2944	__ lw(FSR, AT, 0);
aoqi@1	2945	__ beq(FSR, R0, L1);
aoqi@1	2946	__ delayed()->nop();
aoqi@1	2947
aoqi@1	2948	/* // We rely on the bytecode being resolved and the cpCache entry filled in.
aoqi@1	2949	resolve_cache_and_index(byte_no, T1, T1);
aoqi@1	2950	*/
aoqi@1	2951	// The cache and index registers have been already set.
aoqi@1	2952	// This allows to eliminate this call but the cache and index
aoqi@1	2953	// registers have to be correspondingly used after this line.
aoqi@1	2954	// __ get_cache_and_index_at_bcp(eax, edx, 1);
aoqi@1	2955	__ get_cache_and_index_at_bcp(T1, T9, 1);
aoqi@1	2956
aoqi@1	2957	if (is_static) {
aoqi@1	2958	__ move(T2, R0);
aoqi@1	2959	} else {
aoqi@1	2960	// Life is harder. The stack holds the value on top,
aoqi@1	2961	// followed by the object.
aoqi@1	2962	// We don't know the size of the value, though;
aoqi@1	2963	// it could be one or two words
aoqi@1	2964	// depending on its type. As a result, we must find
aoqi@1	2965	// the type to determine where the object is.
aoqi@1	2966	Label two_word, valsize_known;
aoqi@1	2967	__ dsll(AT, T1, 4);
aoqi@1	2968	__ dadd(AT, T1, AT);
aoqi@1	2969	__ lw(T3, AT, in_bytes(cp_base_offset
aoqi@1	2970	+ ConstantPoolCacheEntry::flags_offset()));
aoqi@1	2971	__ move(T2, SP);
aoqi@1	2972	__ shr(T3, ConstantPoolCacheEntry::tos_state_shift);
aoqi@1	2973
aoqi@1	2974	// Make sure we don't need to mask ecx for tos_state_shift
aoqi@1	2975	// after the above shift
aoqi@1	2976	ConstantPoolCacheEntry::verify_tos_state_shift();
aoqi@1	2977	__ move(AT, ltos);
aoqi@1	2978	__ beq(T3, AT, two_word);
aoqi@1	2979	__ delayed()->nop();
aoqi@1	2980	__ move(AT, dtos);
aoqi@1	2981	__ beq(T3, AT, two_word);
aoqi@1	2982	__ delayed()->nop();
aoqi@1	2983	__ b(valsize_known);
aoqi@1	2984	//__ delayed()->daddi(T2, T2, wordSize*1);
aoqi@1	2985	__ delayed()->daddi(T2, T2,Interpreter::expr_offset_in_bytes(1) );
aoqi@1	2986
aoqi@1	2987	__ bind(two_word);
aoqi@1	2988	// __ daddi(T2, T2, wordSize*2);
aoqi@1	2989	__ daddi(T2, T2,Interpreter::expr_offset_in_bytes(2));
aoqi@1	2990
aoqi@1	2991	__ bind(valsize_known);
aoqi@1	2992	// setup object pointer
aoqi@1	2993	__ lw(T2, T2, 0*wordSize);
aoqi@1	2994	}
aoqi@1	2995	// cache entry pointer
aoqi@1	2996	__ daddi(T1, T1, in_bytes(cp_base_offset));
aoqi@1	2997	__ shl(T1, 4);
aoqi@1	2998	__ daddu(T1, T1, T1);
aoqi@1	2999	// object (tos)
aoqi@1	3000	__ move(T3, SP);
aoqi@1	3001	// T2: object pointer set up above (NULL if static)
aoqi@1	3002	// T1: cache entry pointer
aoqi@1	3003	// T3: jvalue object on the stack
aoqi@1	3004	__ call_VM(NOREG, CAST_FROM_FN_PTR(address,
aoqi@1	3005	InterpreterRuntime::post_field_modification), T2, T1, T3);
aoqi@1	3006	__ get_cache_and_index_at_bcp(cache, index, 1);
aoqi@1	3007	__ bind(L1);
aoqi@1	3008	}
aoqi@1	3009	}
aoqi@1	3010
aoqi@1	3011	// used registers : T0, T1, T2, T3, T8
aoqi@1	3012	// T1 : flags
aoqi@1	3013	// T2 : off
aoqi@1	3014	// T3 : obj
aoqi@1	3015	// T8 : volatile bit
aoqi@1	3016	// see ConstantPoolCacheEntry::set_field for more info
aoqi@1	3017	void TemplateTable::putfield_or_static(int byte_no, bool is_static) {
aoqi@1	3018	transition(vtos, vtos);
aoqi@1	3019
aoqi@1	3020	const Register cache = T3;
aoqi@1	3021	const Register index = T0;
aoqi@1	3022	const Register obj = T3;
aoqi@1	3023	const Register off = T2;
aoqi@1	3024	const Register flags = T1;
aoqi@1	3025	const Register bc = T3;
aoqi@1	3026
aoqi@1	3027	resolve_cache_and_index(byte_no, cache, index, sizeof(u2));
aoqi@1	3028	//TODO: LEE
aoqi@1	3029	//jvmti_post_field_mod(cache, index, is_static);
aoqi@1	3030	load_field_cp_cache_entry(obj, cache, index, off, flags, is_static);
aoqi@1	3031	// Doug Lea believes this is not needed with current Sparcs (TSO) and Intel (PSO).
aoqi@1	3032	// volatile_barrier( );
aoqi@1	3033
aoqi@1	3034	Label notVolatile, Done;
aoqi@1	3035	__ move(AT, 1<<ConstantPoolCacheEntry::is_volatile_shift);
aoqi@1	3036	__ andr(T8, flags, AT);
aoqi@1	3037
aoqi@1	3038	Label notByte, notInt, notShort, notChar, notLong, notFloat, notObj, notDouble;
aoqi@1	3039
aoqi@1	3040	assert(btos == 0, "change code, btos != 0");
aoqi@1	3041	// btos
aoqi@1	3042	__ dsrl(flags, flags, ConstantPoolCacheEntry::tos_state_shift);
aoqi@1	3043	__ andi(flags, flags, ConstantPoolCacheEntry::tos_state_mask);
aoqi@1	3044	__ bne(flags, R0, notByte);
aoqi@1	3045	__ delayed()->nop();
aoqi@1	3046
aoqi@1	3047	__ pop(btos);
aoqi@1	3048	if (!is_static) {
aoqi@1	3049	pop_and_check_object(obj);
aoqi@1	3050	}
aoqi@1	3051	__ dadd(AT, obj, off);
aoqi@1	3052	__ sb(FSR, AT, 0);
aoqi@1	3053
aoqi@1	3054	if (!is_static) {
aoqi@1	3055	patch_bytecode(Bytecodes::_fast_bputfield, bc, off, true, byte_no);
aoqi@1	3056	}
aoqi@1	3057	__ b(Done);
aoqi@1	3058	__ delayed()->nop();
aoqi@1	3059
aoqi@1	3060	__ bind(notByte);
aoqi@1	3061	// itos
aoqi@1	3062	__ move(AT, itos);
aoqi@1	3063	__ bne(flags, AT, notInt);
aoqi@1	3064	__ delayed()->nop();
aoqi@1	3065
aoqi@1	3066	__ pop(itos);
aoqi@1	3067	if (!is_static) {
aoqi@1	3068	pop_and_check_object(obj);
aoqi@1	3069	}
aoqi@1	3070	__ dadd(AT, obj, off);
aoqi@1	3071	__ sw(FSR, AT, 0);
aoqi@1	3072
aoqi@1	3073	if (!is_static) {
aoqi@1	3074	patch_bytecode(Bytecodes::_fast_iputfield, bc, off, true, byte_no);
aoqi@1	3075	}
aoqi@1	3076	__ b(Done);
aoqi@1	3077	__ delayed()->nop();
aoqi@1	3078	__ bind(notInt);
aoqi@1	3079	// atos
aoqi@1	3080	__ move(AT, atos);
aoqi@1	3081	__ bne(flags, AT, notObj);
aoqi@1	3082	__ delayed()->nop();
aoqi@1	3083
aoqi@1	3084	__ pop(atos);
aoqi@1	3085	if (!is_static) {
aoqi@1	3086	pop_and_check_object(obj);
aoqi@1	3087	}
aoqi@1	3088
aoqi@1	3089	__ dadd(AT, obj, off);
aoqi@1	3090	//__ sd(FSR, AT, 0);
aoqi@1	3091	__ store_heap_oop(Address(AT, 0), FSR);
fujie@32	3092	__ sync();
aoqi@1	3093	__ store_check(obj);
aoqi@1	3094
aoqi@1	3095	if (!is_static) {
aoqi@1	3096	patch_bytecode(Bytecodes::_fast_aputfield, bc, off, true, byte_no);
aoqi@1	3097	}
aoqi@1	3098	__ b(Done);
aoqi@1	3099	__ delayed()->nop();
aoqi@1	3100	__ bind(notObj);
aoqi@1	3101	// ctos
aoqi@1	3102	__ move(AT, ctos);
aoqi@1	3103	__ bne(flags, AT, notChar);
aoqi@1	3104	__ delayed()->nop();
aoqi@1	3105
aoqi@1	3106	__ pop(ctos);
aoqi@1	3107	if (!is_static) {
aoqi@1	3108	pop_and_check_object(obj);
aoqi@1	3109	}
aoqi@1	3110	__ dadd(AT, obj, off);
aoqi@1	3111	__ sh(FSR, AT, 0);
aoqi@1	3112	if (!is_static) {
aoqi@1	3113	patch_bytecode(Bytecodes::_fast_cputfield, bc, off, true, byte_no);
aoqi@1	3114	}
aoqi@1	3115	__ b(Done);
aoqi@1	3116	__ delayed()->nop();
aoqi@1	3117	__ bind(notChar);
aoqi@1	3118	// stos
aoqi@1	3119	__ move(AT, stos);
aoqi@1	3120	__ bne(flags, AT, notShort);
aoqi@1	3121	__ delayed()->nop();
aoqi@1	3122
aoqi@1	3123	__ pop(stos);
aoqi@1	3124	if (!is_static) {
aoqi@1	3125	pop_and_check_object(obj);
aoqi@1	3126	}
aoqi@1	3127	__ dadd(AT, obj, off);
aoqi@1	3128	__ sh(FSR, AT, 0);
aoqi@1	3129	if (!is_static) {
aoqi@1	3130	patch_bytecode(Bytecodes::_fast_sputfield, bc, off, true, byte_no);
aoqi@1	3131	}
aoqi@1	3132	__ b(Done);
aoqi@1	3133	__ delayed()->nop();
aoqi@1	3134	__ bind(notShort);
aoqi@1	3135	// ltos
aoqi@1	3136	__ move(AT, ltos);
aoqi@1	3137	__ bne(flags, AT, notLong);
aoqi@1	3138	__ delayed()->nop();
aoqi@1	3139
aoqi@1	3140	// FIXME: there is no simple method to load/store 64-bit data in a atomic operation
aoqi@1	3141	// we just ignore the volatile flag.
aoqi@1	3142	//Label notVolatileLong;
aoqi@1	3143	//__ beq(T1, R0, notVolatileLong);
aoqi@1	3144	//__ delayed()->nop();
aoqi@1	3145
aoqi@1	3146	//addent = 2 * wordSize;
aoqi@1	3147	// no need
aoqi@1	3148	//__ lw(FSR, SP, 0);
aoqi@1	3149	//__ lw(SSR, SP, 1 * wordSize);
aoqi@1	3150	//if (!is_static) {
aoqi@1	3151	// __ lw(T3, SP, addent);
aoqi@1	3152	// addent += 1 * wordSize;
aoqi@1	3153	// __ verify_oop(T3);
aoqi@1	3154	//}
aoqi@1	3155
aoqi@1	3156	//__ daddu(AT, T3, T2);
aoqi@1	3157
aoqi@1	3158	// Replace with real volatile test
aoqi@1	3159	// NOTE : we assume that sdc1&ldc1 operate in 32-bit, this is true for Godson2 even in 64-bit kernel
aoqi@1	3160	// last modified by yjl 7/12/2005
aoqi@1	3161	//__ ldc1(FSF, SP, 0);
aoqi@1	3162	//__ sdc1(FSF, AT, 0);
aoqi@1	3163	//volatile_barrier();
aoqi@1	3164
aoqi@1	3165	// Don't rewrite volatile version
aoqi@1	3166	//__ b(notVolatile);
aoqi@1	3167	//__ delayed()->addiu(SP, SP, addent);
aoqi@1	3168
aoqi@1	3169	//__ bind(notVolatileLong);
aoqi@1	3170
aoqi@1	3171	//__ pop(ltos); // overwrites edx
aoqi@1	3172	// __ lw(FSR, SP, 0 * wordSize);
aoqi@1	3173	// __ lw(SSR, SP, 1 * wordSize);
aoqi@1	3174	// __ daddi(SP, SP, 2*wordSize);
aoqi@1	3175	__ pop(ltos);
aoqi@1	3176	if (!is_static) {
aoqi@1	3177	pop_and_check_object(obj);
aoqi@1	3178	}
aoqi@1	3179	__ dadd(AT, obj, off);
aoqi@1	3180	__ sd(FSR, AT, 0);
aoqi@1	3181	if (!is_static) {
aoqi@1	3182	patch_bytecode(Bytecodes::_fast_lputfield, bc, off, true, byte_no);
aoqi@1	3183	}
aoqi@1	3184	__ b(notVolatile);
aoqi@1	3185	__ delayed()->nop();
aoqi@1	3186
aoqi@1	3187	__ bind(notLong);
aoqi@1	3188	// ftos
aoqi@1	3189	__ move(AT, ftos);
aoqi@1	3190	__ bne(flags, AT, notFloat);
aoqi@1	3191	__ delayed()->nop();
aoqi@1	3192
aoqi@1	3193	__ pop(ftos);
aoqi@1	3194	if (!is_static) {
aoqi@1	3195	pop_and_check_object(obj);
aoqi@1	3196	}
aoqi@1	3197	__ dadd(AT, obj, off);
aoqi@1	3198	__ swc1(FSF, AT, 0);
aoqi@1	3199	if (!is_static) {
aoqi@1	3200	patch_bytecode(Bytecodes::_fast_fputfield, bc, off, true, byte_no);
aoqi@1	3201	}
aoqi@1	3202	__ b(Done);
aoqi@1	3203	__ delayed()->nop();
aoqi@1	3204	__ bind(notFloat);
aoqi@1	3205	// dtos
aoqi@1	3206	__ move(AT, dtos);
aoqi@1	3207	__ bne(flags, AT, notDouble);
aoqi@1	3208	__ delayed()->nop();
aoqi@1	3209
aoqi@1	3210	__ pop(dtos);
aoqi@1	3211	if (!is_static) {
aoqi@1	3212	pop_and_check_object(obj);
aoqi@1	3213	}
aoqi@1	3214	__ dadd(AT, obj, off);
aoqi@1	3215	__ sdc1(FSF, AT, 0);
aoqi@1	3216	if (!is_static) {
aoqi@1	3217	patch_bytecode(Bytecodes::_fast_dputfield, bc, off, true, byte_no);
aoqi@1	3218	}
aoqi@1	3219	__ b(Done);
aoqi@1	3220	__ delayed()->nop();
aoqi@1	3221	__ bind(notDouble);
aoqi@1	3222
aoqi@1	3223	__ stop("Bad state");
aoqi@1	3224
aoqi@1	3225	__ bind(Done);
aoqi@1	3226
aoqi@1	3227	// Check for volatile store
aoqi@1	3228	__ beq(T8, R0, notVolatile);
aoqi@1	3229	__ delayed()->nop();
aoqi@1	3230	volatile_barrier( );
aoqi@1	3231	__ bind(notVolatile);
aoqi@1	3232	}
aoqi@1	3233
aoqi@1	3234	void TemplateTable::putfield(int byte_no) {
aoqi@1	3235	putfield_or_static(byte_no, false);
aoqi@1	3236	}
aoqi@1	3237
aoqi@1	3238	void TemplateTable::putstatic(int byte_no) {
aoqi@1	3239	putfield_or_static(byte_no, true);
aoqi@1	3240	}
aoqi@1	3241
aoqi@1	3242	// used registers : T1, T2, T3
aoqi@1	3243	// T1 : cp_entry
aoqi@1	3244	// T2 : obj
aoqi@1	3245	// T3 : value pointer
aoqi@1	3246	void TemplateTable::jvmti_post_fast_field_mod() {
aoqi@1	3247	if (JvmtiExport::can_post_field_modification()) {
aoqi@1	3248	// Check to see if a field modification watch has been set before we take
aoqi@1	3249	// the time to call into the VM.
aoqi@1	3250	Label L2;
aoqi@1	3251	//__ lui(AT, Assembler::split_high((intptr_t)JvmtiExport::get_field_modification_count_addr()));
aoqi@1	3252	//__ lw(T3, AT, Assembler::split_low((intptr_t)JvmtiExport::get_field_modification_count_addr()));
aoqi@1	3253	__ li(AT, JvmtiExport::get_field_modification_count_addr());
aoqi@1	3254	__ lw(T3, AT, 0);
aoqi@1	3255	__ beq(T3, R0, L2);
aoqi@1	3256	__ delayed()->nop();
aoqi@1	3257	//__ pop(T2);
aoqi@1	3258	__ pop_ptr(T2);
aoqi@1	3259	//__ lw(T2, SP, 0);
aoqi@1	3260	__ verify_oop(T2);
aoqi@1	3261	__ push_ptr(T2);
aoqi@1	3262	__ li(AT, -sizeof(jvalue));
aoqi@1	3263	__ daddu(SP, SP, AT);
aoqi@1	3264	__ move(T3, SP);
aoqi@1	3265	//__ push(T2);
aoqi@1	3266	//__ move(T2, R0);
aoqi@1	3267
aoqi@1	3268	switch (bytecode()) { // load values into the jvalue object
aoqi@1	3269	case Bytecodes::_fast_bputfield:
aoqi@1	3270	__ sb(FSR, SP, 0);
aoqi@1	3271	break;
aoqi@1	3272	case Bytecodes::_fast_sputfield:
aoqi@1	3273	__ sh(FSR, SP, 0);
aoqi@1	3274	break;
aoqi@1	3275	case Bytecodes::_fast_cputfield:
aoqi@1	3276	__ sh(FSR, SP, 0);
aoqi@1	3277	break;
aoqi@1	3278	case Bytecodes::_fast_iputfield:
aoqi@1	3279	__ sw(FSR, SP, 0);
aoqi@1	3280	break;
aoqi@1	3281	case Bytecodes::_fast_lputfield:
aoqi@1	3282	__ sd(FSR, SP, 0);
aoqi@1	3283	break;
aoqi@1	3284	case Bytecodes::_fast_fputfield:
aoqi@1	3285	__ swc1(FSF, SP, 0);
aoqi@1	3286	break;
aoqi@1	3287	case Bytecodes::_fast_dputfield:
aoqi@1	3288	__ sdc1(FSF, SP, 0);
aoqi@1	3289	break;
aoqi@1	3290	case Bytecodes::_fast_aputfield:
aoqi@1	3291	__ sd(FSR, SP, 0);
aoqi@1	3292	break;
aoqi@1	3293	default: ShouldNotReachHere();
aoqi@1	3294	}
aoqi@1	3295
aoqi@1	3296	//__ pop(T2); // restore copy of object pointer
aoqi@1	3297
aoqi@1	3298	// Save eax and sometimes edx because call_VM() will clobber them,
aoqi@1	3299	// then use them for JVM/DI purposes
aoqi@1	3300	__ push(FSR);
aoqi@1	3301	if (bytecode() == Bytecodes::_fast_lputfield) __ push(SSR);
aoqi@1	3302	// access constant pool cache entry
aoqi@1	3303	__ get_cache_entry_pointer_at_bcp(T1, T2, 1);
aoqi@1	3304	// no need, verified ahead
aoqi@1	3305	__ verify_oop(T2);
aoqi@1	3306
aoqi@1	3307	// ebx: object pointer copied above
aoqi@1	3308	// eax: cache entry pointer
aoqi@1	3309	// ecx: jvalue object on the stack
aoqi@1	3310	__ call_VM(NOREG, CAST_FROM_FN_PTR(address,
aoqi@1	3311	InterpreterRuntime::post_field_modification), T2, T1, T3);
aoqi@1	3312	if (bytecode() == Bytecodes::_fast_lputfield) __ pop(SSR); // restore high value
aoqi@1	3313	//__ pop(FSR); // restore lower value
aoqi@1	3314	//__ daddi(SP, SP, sizeof(jvalue)); // release jvalue object space
aoqi@1	3315	__ lw(FSR, SP, 0);
aoqi@1	3316	__ daddiu(SP, SP, sizeof(jvalue) + 1 * wordSize);
aoqi@1	3317	__ bind(L2);
aoqi@1	3318	}
aoqi@1	3319	}
aoqi@1	3320
aoqi@1	3321	// used registers : T2, T3, T1
aoqi@1	3322	// T2 : index & off & field address
aoqi@1	3323	// T3 : cache & obj
aoqi@1	3324	// T1 : flags
aoqi@1	3325	void TemplateTable::fast_storefield(TosState state) {
aoqi@1	3326	transition(state, vtos);
aoqi@1	3327
aoqi@1	3328	ByteSize base = ConstantPoolCache::base_offset();
aoqi@1	3329
aoqi@1	3330	jvmti_post_fast_field_mod();
aoqi@1	3331
aoqi@1	3332	// access constant pool cache
aoqi@1	3333	__ get_cache_and_index_at_bcp(T3, T2, 1);
aoqi@1	3334
aoqi@1	3335	// test for volatile with edx but edx is tos register for lputfield.
aoqi@1	3336	__ dsll(AT, T2, Address::times_8);
aoqi@1	3337	__ dadd(AT, T3, AT);
aoqi@1	3338	__ ld(T1, AT, in_bytes(base + ConstantPoolCacheEntry::flags_offset()));
aoqi@1	3339
aoqi@1	3340	// replace index with field offset from cache entry
aoqi@1	3341	__ ld(T2, AT, in_bytes(base + ConstantPoolCacheEntry::f2_offset()));
aoqi@1	3342
aoqi@1	3343	// Doug Lea believes this is not needed with current Sparcs (TSO) and Intel (PSO).
aoqi@1	3344	// volatile_barrier( );
aoqi@1	3345
aoqi@1	3346	Label notVolatile, Done;
aoqi@1	3347	// Check for volatile store
aoqi@1	3348	__ move(AT, 1<<ConstantPoolCacheEntry::is_volatile_shift);
aoqi@1	3349	__ andr(AT, T1, AT);
aoqi@1	3350	__ beq(AT, R0, notVolatile);
aoqi@1	3351	__ delayed()->nop();
aoqi@1	3352
aoqi@1	3353
aoqi@1	3354	// Get object from stack
aoqi@1	3355	// NOTE : the value in FSR/FSF now
aoqi@1	3356	// __ pop(T3);
aoqi@1	3357	// __ verify_oop(T3);
aoqi@1	3358	pop_and_check_object(T3);
aoqi@1	3359	// field addresses
aoqi@1	3360	__ dadd(T2, T3, T2);
aoqi@1	3361
aoqi@1	3362	// access field
aoqi@1	3363	switch (bytecode()) {
aoqi@1	3364	case Bytecodes::_fast_bputfield:
aoqi@1	3365	__ sb(FSR, T2, 0);
aoqi@1	3366	break;
aoqi@1	3367	case Bytecodes::_fast_sputfield: // fall through
aoqi@1	3368	case Bytecodes::_fast_cputfield:
aoqi@1	3369	__ sh(FSR, T2, 0);
aoqi@1	3370	break;
aoqi@1	3371	case Bytecodes::_fast_iputfield:
aoqi@1	3372	__ sw(FSR, T2, 0);
aoqi@1	3373	break;
aoqi@1	3374	case Bytecodes::_fast_lputfield:
aoqi@1	3375	__ sd(FSR, T2, 0 * wordSize);
aoqi@1	3376	break;
aoqi@1	3377	case Bytecodes::_fast_fputfield:
aoqi@1	3378	__ swc1(FSF, T2, 0);
aoqi@1	3379	break;
aoqi@1	3380	case Bytecodes::_fast_dputfield:
aoqi@1	3381	__ sdc1(FSF, T2, 0 * wordSize);
aoqi@1	3382	break;
aoqi@1	3383	case Bytecodes::_fast_aputfield:
aoqi@1	3384	__ store_heap_oop(Address(T2, 0), FSR);
fujie@32	3385	__ sync();
aoqi@1	3386	__ store_check(T3);
aoqi@1	3387	break;
aoqi@1	3388	default:
aoqi@1	3389	ShouldNotReachHere();
aoqi@1	3390	}
aoqi@1	3391
aoqi@1	3392	Label done;
aoqi@1	3393	volatile_barrier( );
aoqi@1	3394	__ b(done);
aoqi@1	3395	__ delayed()->nop();
aoqi@1	3396
aoqi@1	3397	// Same code as above, but don't need edx to test for volatile.
aoqi@1	3398	__ bind(notVolatile);
aoqi@1	3399
aoqi@1	3400	// Get object from stack
aoqi@1	3401	// __ pop(T3);
aoqi@1	3402	// __ verify_oop(T3);
aoqi@1	3403	pop_and_check_object(T3);
aoqi@1	3404	//get the field address
aoqi@1	3405	__ dadd(T2, T3, T2);
aoqi@1	3406
aoqi@1	3407	// access field
aoqi@1	3408	switch (bytecode()) {
aoqi@1	3409	case Bytecodes::_fast_bputfield:
aoqi@1	3410	__ sb(FSR, T2, 0);
aoqi@1	3411	break;
aoqi@1	3412	case Bytecodes::_fast_sputfield: // fall through
aoqi@1	3413	case Bytecodes::_fast_cputfield:
aoqi@1	3414	__ sh(FSR, T2, 0);
aoqi@1	3415	break;
aoqi@1	3416	case Bytecodes::_fast_iputfield:
aoqi@1	3417	__ sw(FSR, T2, 0);
aoqi@1	3418	break;
aoqi@1	3419	case Bytecodes::_fast_lputfield:
aoqi@1	3420	__ sd(FSR, T2, 0 * wordSize);
aoqi@1	3421	break;
aoqi@1	3422	case Bytecodes::_fast_fputfield:
aoqi@1	3423	__ swc1(FSF, T2, 0);
aoqi@1	3424	break;
aoqi@1	3425	case Bytecodes::_fast_dputfield:
aoqi@1	3426	__ sdc1(FSF, T2, 0 * wordSize);
aoqi@1	3427	break;
aoqi@1	3428	case Bytecodes::_fast_aputfield:
aoqi@1	3429	//add for compressedoops
aoqi@1	3430	__ store_heap_oop(Address(T2, 0), FSR);
fujie@32	3431	__ sync();
aoqi@1	3432	__ store_check(T3);
aoqi@1	3433	break;
aoqi@1	3434	default:
aoqi@1	3435	ShouldNotReachHere();
aoqi@1	3436	}
aoqi@1	3437	__ bind(done);
aoqi@1	3438	}
aoqi@1	3439
aoqi@1	3440	// used registers : T2, T3, T1
aoqi@1	3441	// T3 : cp_entry & cache
aoqi@1	3442	// T2 : index & offset
aoqi@1	3443	void TemplateTable::fast_accessfield(TosState state) {
aoqi@1	3444	transition(atos, state);
aoqi@1	3445
aoqi@1	3446	// do the JVMTI work here to avoid disturbing the register state below
aoqi@1	3447	if (JvmtiExport::can_post_field_access()) {
aoqi@1	3448	// Check to see if a field access watch has been set before we take
aoqi@1	3449	// the time to call into the VM.
aoqi@1	3450	Label L1;
aoqi@1	3451	__ li(AT, (intptr_t)JvmtiExport::get_field_access_count_addr());
aoqi@1	3452	__ lw(T3, AT, 0);
aoqi@1	3453	__ beq(T3, R0, L1);
aoqi@1	3454	__ delayed()->nop();
aoqi@1	3455	// access constant pool cache entry
aoqi@1	3456	__ get_cache_entry_pointer_at_bcp(T3, T1, 1);
aoqi@1	3457	__ move(TSR, FSR);
aoqi@1	3458	__ verify_oop(FSR);
aoqi@1	3459	// FSR: object pointer copied above
aoqi@1	3460	// T3: cache entry pointer
aoqi@1	3461	__ call_VM(NOREG, CAST_FROM_FN_PTR(address, InterpreterRuntime::post_field_access),
aoqi@1	3462	FSR, T3);
aoqi@1	3463	__ move(FSR, TSR);
aoqi@1	3464	__ bind(L1);
aoqi@1	3465	}
aoqi@1	3466
aoqi@1	3467	// access constant pool cache
aoqi@1	3468	__ get_cache_and_index_at_bcp(T3, T2, 1);
aoqi@1	3469	// replace index with field offset from cache entry
aoqi@1	3470	__ dsll(AT, T2, Address::times_8);
aoqi@1	3471	//__ dsll(AT, T2, 4);
aoqi@1	3472	__ dadd(AT, T3, AT);
aoqi@1	3473	__ ld(T2, AT, in_bytes(ConstantPoolCache::base_offset()
aoqi@1	3474	+ ConstantPoolCacheEntry::f2_offset()));
aoqi@1	3475
aoqi@1	3476	// eax: object
aoqi@1	3477	__ verify_oop(FSR);
aoqi@1	3478	// __ null_check(FSR, 0);
aoqi@1	3479	__ null_check(FSR);
aoqi@1	3480	// field addresses
aoqi@1	3481	__ dadd(FSR, FSR, T2);
aoqi@1	3482
aoqi@1	3483	// access field
aoqi@1	3484	switch (bytecode()) {
aoqi@1	3485	case Bytecodes::_fast_bgetfield:
aoqi@1	3486	__ lb(FSR, FSR, 0);
aoqi@1	3487	break;
aoqi@1	3488	case Bytecodes::_fast_sgetfield:
aoqi@1	3489	__ lh(FSR, FSR, 0);
aoqi@1	3490	break;
aoqi@1	3491	case Bytecodes::_fast_cgetfield:
aoqi@1	3492	__ lhu(FSR, FSR, 0);
aoqi@1	3493	break;
aoqi@1	3494	case Bytecodes::_fast_igetfield:
aoqi@1	3495	__ lw(FSR, FSR, 0);
aoqi@1	3496	break;
aoqi@1	3497	case Bytecodes::_fast_lgetfield:
aoqi@1	3498	__ stop("should not be rewritten");
aoqi@1	3499	break;
aoqi@1	3500	case Bytecodes::_fast_fgetfield:
aoqi@1	3501	__ lwc1(FSF, FSR, 0);
aoqi@1	3502	break;
aoqi@1	3503	case Bytecodes::_fast_dgetfield:
aoqi@1	3504	__ ldc1(FSF, FSR, 0);
aoqi@1	3505	break;
aoqi@1	3506	case Bytecodes::_fast_agetfield:
aoqi@1	3507	//add for compressedoops
aoqi@1	3508	__ load_heap_oop(FSR, Address(FSR, 0));
aoqi@1	3509	__ verify_oop(FSR);
aoqi@1	3510	break;
aoqi@1	3511	default:
aoqi@1	3512	ShouldNotReachHere();
aoqi@1	3513	}
aoqi@1	3514
aoqi@1	3515	// Doug Lea believes this is not needed with current Sparcs(TSO) and Intel(PSO)
aoqi@1	3516	// volatile_barrier( );
aoqi@1	3517	}
aoqi@1	3518
aoqi@1	3519	// generator for _fast_iaccess_0, _fast_aaccess_0, _fast_faccess_0
aoqi@1	3520	// used registers : T1, T2, T3, T1
aoqi@1	3521	// T1 : obj & field address
aoqi@1	3522	// T2 : off
aoqi@1	3523	// T3 : cache
aoqi@1	3524	// T1 : index
aoqi@1	3525	void TemplateTable::fast_xaccess(TosState state) {
aoqi@1	3526	transition(vtos, state);
aoqi@1	3527	// get receiver
aoqi@1	3528	__ ld(T1, aaddress(0));
aoqi@1	3529	// access constant pool cache
aoqi@1	3530	__ get_cache_and_index_at_bcp(T3, T2, 2);
aoqi@1	3531	__ dsll(AT, T2, Address::times_8);
aoqi@1	3532	__ dadd(AT, T3, AT);
aoqi@1	3533	__ ld(T2, AT, in_bytes(ConstantPoolCache::base_offset()
aoqi@1	3534	+ ConstantPoolCacheEntry::f2_offset()));
aoqi@1	3535
aoqi@1	3536	// make sure exception is reported in correct bcp range (getfield is next instruction)
aoqi@1	3537	__ daddi(BCP, BCP, 1);
aoqi@1	3538	// __ null_check(T1, 0);
aoqi@1	3539	__ null_check(T1);
aoqi@1	3540	__ dadd(T1, T1, T2);
aoqi@1	3541
aoqi@1	3542	if (state == itos) {
aoqi@1	3543	__ lw(FSR, T1, 0);
aoqi@1	3544	} else if (state == atos) {
aoqi@1	3545	//__ ld(FSR, T1, 0);
aoqi@1	3546	__ load_heap_oop(FSR, Address(T1, 0));
aoqi@1	3547	__ verify_oop(FSR);
aoqi@1	3548	} else if (state == ftos) {
aoqi@1	3549	__ lwc1(FSF, T1, 0);
aoqi@1	3550	} else {
aoqi@1	3551	ShouldNotReachHere();
aoqi@1	3552	}
aoqi@1	3553	__ daddi(BCP, BCP, -1);
aoqi@1	3554	}
aoqi@1	3555
aoqi@1	3556	//---------------------------------------------------
aoqi@1	3557	//-------------------------------------------------
aoqi@1	3558	// Calls
aoqi@1	3559
aoqi@1	3560	void TemplateTable::count_calls(Register method, Register temp) {
aoqi@1	3561	// implemented elsewhere
aoqi@1	3562	ShouldNotReachHere();
aoqi@1	3563	}
aoqi@1	3564
aoqi@1	3565	// method, index, recv, flags: T1, T2, T3, T1
aoqi@1	3566	// byte_no = 2 for _invokevirtual, 1 else
aoqi@1	3567	// T0 : return address
aoqi@1	3568	// get the method & index of the invoke, and push the return address of
aoqi@1	3569	// the invoke(first word in the frame)
aoqi@1	3570	// this address is where the return code jmp to.
aoqi@1	3571	// NOTE : this method will set T3&T1 as recv&flags
aoqi@1	3572	void TemplateTable::prepare_invoke(int byte_no,
aoqi@1	3573	Register method, //linked method (or i-klass)
aoqi@1	3574	Register index, //itable index, MethodType ,etc.
aoqi@1	3575	Register recv, // if caller wants to see it
aoqi@1	3576	Register flags // if caller wants to test it
aoqi@1	3577	) {
aoqi@1	3578	// determine flags
aoqi@1	3579	const Bytecodes::Code code = bytecode();
aoqi@1	3580	const bool is_invokeinterface = code == Bytecodes::_invokeinterface;
aoqi@1	3581	const bool is_invokedynamic = code == Bytecodes::_invokedynamic;
aoqi@1	3582	const bool is_invokehandle = code == Bytecodes::_invokehandle;
aoqi@1	3583	const bool is_invokevirtual = code == Bytecodes::_invokevirtual;
aoqi@1	3584	const bool is_invokespecial = code == Bytecodes::_invokespecial;
aoqi@1	3585	const bool load_receiver = (recv != noreg);
aoqi@1	3586	const bool save_flags = (flags != noreg);
aoqi@1	3587	assert(load_receiver == (code != Bytecodes::_invokestatic && code != Bytecodes::_invokedynamic),"");
aoqi@1	3588	assert(save_flags == (is_invokeinterface || is_invokevirtual), "need flags for vfinal");
aoqi@1	3589	assert(flags == noreg || flags == T1, "error flags reg.");
aoqi@1	3590	assert(recv == noreg || recv == T3, "error recv reg.");
aoqi@1	3591	// setup registers & access constant pool cache
aoqi@1	3592	if(recv == noreg) recv = T3;
aoqi@1	3593	if(flags == noreg) flags = T1;
aoqi@1	3594
aoqi@1	3595	assert_different_registers(method, index, recv, flags);
aoqi@1	3596
aoqi@1	3597	// save 'interpreter return address'
aoqi@1	3598	__ save_bcp();
aoqi@1	3599
aoqi@1	3600	load_invoke_cp_cache_entry(byte_no, method, index, flags, is_invokevirtual, false, is_invokedynamic);
aoqi@1	3601	if (is_invokedynamic || is_invokehandle) {
aoqi@1	3602	Label L_no_push;
aoqi@1	3603	__ move(AT, (1 << ConstantPoolCacheEntry::has_appendix_shift));
aoqi@1	3604	__ andr(AT, AT, flags);
aoqi@1	3605	__ beq(AT, R0, L_no_push);
aoqi@1	3606	__ delayed()->nop();
aoqi@1	3607	// Push the appendix as a trailing parameter.
aoqi@1	3608	// This must be done before we get the receiver,
aoqi@1	3609	// since the parameter_size includes it.
aoqi@1	3610	Register tmp = SSR;
aoqi@1	3611	__ push(tmp);
aoqi@1	3612	__ move(tmp, index);
aoqi@1	3613	assert(ConstantPoolCacheEntry::_indy_resolved_references_appendix_offset == 0, "appendix expected at index+0");
aoqi@1	3614	__ load_resolved_reference_at_index(index, tmp);
aoqi@1	3615	__ pop(tmp);
aoqi@1	3616	__ push(index); // push appendix (MethodType, CallSite, etc.)
aoqi@1	3617	__ bind(L_no_push);
aoqi@1	3618
aoqi@1	3619	}
aoqi@1	3620
aoqi@1	3621	// load receiver if needed (after appendix is pushed so parameter size is correct)
aoqi@1	3622	// Note: no return address pushed yet
aoqi@1	3623	if (load_receiver) {
aoqi@1	3624	__ move(AT, ConstantPoolCacheEntry::parameter_size_mask);
aoqi@1	3625	__ andr(recv, flags, AT);
aoqi@1	3626	// 2014/07/31 Fu: Since we won't push RA on stack, no_return_pc_pushed_yet should be 0.
aoqi@1	3627	const int no_return_pc_pushed_yet = 0; // argument slot correction before we push return address
aoqi@1	3628	const int receiver_is_at_end = -1; // back off one slot to get receiver
aoqi@1	3629	Address recv_addr = __ argument_address(recv, no_return_pc_pushed_yet + receiver_is_at_end);
aoqi@1	3630
aoqi@1	3631	__ ld(recv, recv_addr);
aoqi@1	3632	__ verify_oop(recv);
aoqi@1	3633	}
aoqi@1	3634	if(save_flags) {
aoqi@1	3635	//__ movl(r13, flags);
aoqi@1	3636	__ move(BCP, flags);
aoqi@1	3637	}
aoqi@1	3638	// compute return type
aoqi@1	3639	__ dsrl(flags, flags, ConstantPoolCacheEntry::tos_state_shift);
aoqi@1	3640	__ andi(flags, flags, 0xf);
aoqi@1	3641
aoqi@1	3642	// Make sure we don't need to mask flags for tos_state_shift after the above shift
aoqi@1	3643	ConstantPoolCacheEntry::verify_tos_state_shift();
aoqi@1	3644	// load return address
aoqi@1	3645	{
aoqi@1	3646	const address table = (address) Interpreter::invoke_return_entry_table_for(code);
aoqi@1	3647	__ li(AT, (long)table);
aoqi@1	3648	__ dsll(flags, flags, LogBytesPerWord);
aoqi@1	3649	__ dadd(AT, AT, flags);
aoqi@1	3650	__ ld(RA, AT, 0);
aoqi@1	3651	}
aoqi@1	3652
aoqi@1	3653	if (save_flags) {
aoqi@1	3654	__ move(flags, BCP);
aoqi@1	3655	__ restore_bcp();
aoqi@1	3656	}
aoqi@1	3657	}
aoqi@1	3658
aoqi@1	3659	// used registers : T0, T3, T1, T2
aoqi@1	3660	// T3 : recv, this two register using convention is by prepare_invoke
aoqi@1	3661	// T1 : flags, klass
aoqi@1	3662	// Rmethod : method, index must be Rmethod
aoqi@1	3663	void TemplateTable::invokevirtual_helper(Register index, Register recv,
aoqi@1	3664	Register flags) {
aoqi@1	3665
aoqi@1	3666	assert_different_registers(index, recv, flags, T2);
aoqi@1	3667
aoqi@1	3668	// Test for an invoke of a final method
aoqi@1	3669	Label notFinal;
aoqi@1	3670	__ move(AT, (1 << ConstantPoolCacheEntry::is_vfinal_shift));
aoqi@1	3671	__ andr(AT, flags, AT);
aoqi@1	3672	__ beq(AT, R0, notFinal);
aoqi@1	3673	__ delayed()->nop();
aoqi@1	3674
aoqi@1	3675	Register method = index; // method must be Rmethod
aoqi@1	3676	assert(method == Rmethod, "methodOop must be Rmethod for interpreter calling convention");
aoqi@1	3677
aoqi@1	3678	// do the call - the index is actually the method to call
aoqi@1	3679	// the index is indeed methodOop, for this is vfinal,
aoqi@1	3680	// see ConstantPoolCacheEntry::set_method for more info
aoqi@1	3681
aoqi@1	3682	__ verify_oop(method);
aoqi@1	3683
aoqi@1	3684	// It's final, need a null check here!
aoqi@1	3685	__ null_check(recv);
aoqi@1	3686
aoqi@1	3687	// profile this call
aoqi@1	3688	__ profile_final_call(T2);
aoqi@1	3689
aoqi@1	3690	// 2014/11/24 Fu
aoqi@1	3691	// T2: tmp, used for mdp
aoqi@1	3692	// method: callee
aoqi@1	3693	// T9: tmp
aoqi@1	3694	// is_virtual: true
aoqi@1	3695	__ profile_arguments_type(T2, method, T9, true);
aoqi@1	3696
aoqi@1	3697	// __ move(T0, recv);
aoqi@1	3698	__ jump_from_interpreted(method, T2);
aoqi@1	3699
aoqi@1	3700	__ bind(notFinal);
aoqi@1	3701
aoqi@1	3702	// get receiver klass
aoqi@1	3703	__ null_check(recv, oopDesc::klass_offset_in_bytes());
aoqi@1	3704	// Keep recv in ecx for callee expects it there
aoqi@1	3705	__ load_klass(T2, recv);
aoqi@1	3706	__ verify_oop(T2);
aoqi@1	3707	// profile this call
aoqi@1	3708	__ profile_virtual_call(T2, T0, T1);
aoqi@1	3709
aoqi@1	3710	// get target methodOop & entry point
aoqi@1	3711	const int base = InstanceKlass::vtable_start_offset() * wordSize;
aoqi@1	3712	assert(vtableEntry::size() * wordSize == 8, "adjust the scaling in the code below");
aoqi@1	3713	__ dsll(AT, index, Address::times_8);
aoqi@1	3714	__ dadd(AT, T2, AT);
aoqi@1	3715	//this is a ualign read
aoqi@1	3716	__ ld(method, AT, base + vtableEntry::method_offset_in_bytes());
aoqi@1	3717	__ jump_from_interpreted(method, T2);
aoqi@1	3718
aoqi@1	3719	}
aoqi@1	3720
aoqi@1	3721	void TemplateTable::invokevirtual(int byte_no) {
aoqi@1	3722	transition(vtos, vtos);
aoqi@1	3723	assert(byte_no == f2_byte, "use this argument");
aoqi@1	3724	prepare_invoke(byte_no, Rmethod, NOREG, T3, T1);
aoqi@1	3725	// now recv & flags in T3, T1
aoqi@1	3726	invokevirtual_helper(Rmethod, T3, T1);
aoqi@1	3727	}
aoqi@1	3728
aoqi@1	3729	// T9 : entry
aoqi@1	3730	// Rmethod : method
aoqi@1	3731	void TemplateTable::invokespecial(int byte_no) {
aoqi@1	3732	transition(vtos, vtos);
aoqi@1	3733	assert(byte_no == f1_byte, "use this argument");
aoqi@1	3734	prepare_invoke(byte_no, Rmethod, NOREG, T3);
aoqi@1	3735	// now recv & flags in T3, T1
aoqi@1	3736	__ verify_oop(T3);
aoqi@1	3737	__ null_check(T3);
aoqi@1	3738	__ profile_call(T9);
aoqi@1	3739
aoqi@1	3740	// 2014/11/24 Fu
aoqi@1	3741	// T8: tmp, used for mdp
aoqi@1	3742	// Rmethod: callee
aoqi@1	3743	// T9: tmp
aoqi@1	3744	// is_virtual: false
aoqi@1	3745	__ profile_arguments_type(T8, Rmethod, T9, false);
aoqi@1	3746
aoqi@1	3747	__ jump_from_interpreted(Rmethod, T9);
aoqi@1	3748	__ move(T0, T3);//aoqi ?
aoqi@1	3749	}
aoqi@1	3750
aoqi@1	3751	void TemplateTable::invokestatic(int byte_no) {
aoqi@1	3752	transition(vtos, vtos);
aoqi@1	3753	assert(byte_no == f1_byte, "use this argument");
aoqi@1	3754	prepare_invoke(byte_no, Rmethod, NOREG);
aoqi@1	3755	__ verify_oop(Rmethod);
aoqi@1	3756
aoqi@1	3757	__ profile_call(T9);
aoqi@1	3758
aoqi@1	3759	// 2014/11/24 Fu
aoqi@1	3760	// T8: tmp, used for mdp
aoqi@1	3761	// Rmethod: callee
aoqi@1	3762	// T9: tmp
aoqi@1	3763	// is_virtual: false
aoqi@1	3764	__ profile_arguments_type(T8, Rmethod, T9, false);
aoqi@1	3765
aoqi@1	3766	__ jump_from_interpreted(Rmethod, T9);
aoqi@1	3767	}
aoqi@1	3768
aoqi@1	3769	// i have no idea what to do here, now. for future change. FIXME.
aoqi@1	3770	void TemplateTable::fast_invokevfinal(int byte_no) {
aoqi@1	3771	transition(vtos, vtos);
aoqi@1	3772	assert(byte_no == f2_byte, "use this argument");
aoqi@1	3773	__ stop("fast_invokevfinal not used on x86");
aoqi@1	3774	}
aoqi@1	3775
aoqi@1	3776	// used registers : T0, T1, T2, T3, T1, A7
aoqi@1	3777	// T0 : itable, vtable, entry
aoqi@1	3778	// T1 : interface
aoqi@1	3779	// T3 : receiver
aoqi@1	3780	// T1 : flags, klass
aoqi@1	3781	// Rmethod : index, method, this is required by interpreter_entry
aoqi@1	3782	void TemplateTable::invokeinterface(int byte_no) {
aoqi@1	3783	transition(vtos, vtos);
aoqi@1	3784	//this method will use T1-T4 and T0
aoqi@1	3785	assert(byte_no == f1_byte, "use this argument");
aoqi@1	3786	prepare_invoke(byte_no, T2, Rmethod, T3, T1);
aoqi@1	3787	// T2: Interface
aoqi@1	3788	// Rmethod: index
aoqi@1	3789	// T3: receiver
aoqi@1	3790	// T1: flags
aoqi@1	3791	Label notMethod;
aoqi@1	3792	__ move(AT, (1 << ConstantPoolCacheEntry::is_forced_virtual_shift));
aoqi@1	3793	__ andr(AT, T1, AT);
aoqi@1	3794	__ beq(AT, R0, notMethod);
aoqi@1	3795	__ delayed()->nop();
aoqi@1	3796
aoqi@1	3797	// Special case of invokeinterface called for virtual method of
aoqi@1	3798	// java.lang.Object. See cpCacheOop.cpp for details.
aoqi@1	3799	// This code isn't produced by javac, but could be produced by
aoqi@1	3800	// another compliant java compiler.
aoqi@1	3801	invokevirtual_helper(Rmethod, T3, T1);
aoqi@1	3802
aoqi@1	3803	__ bind(notMethod);
aoqi@1	3804	// Get receiver klass into T1 - also a null check
aoqi@1	3805	//__ ld(T1, T3, oopDesc::klass_offset_in_bytes());
aoqi@1	3806	//add for compressedoops
aoqi@1	3807	//__ restore_locals();
aoqi@1	3808	//__ null_check(T3, oopDesc::klass_offset_in_bytes());
aoqi@1	3809	__ load_klass(T1, T3);
aoqi@1	3810	__ verify_oop(T1);
aoqi@1	3811
aoqi@1	3812	// profile this call
aoqi@1	3813	__ profile_virtual_call(T1, T0, FSR);
aoqi@1	3814
aoqi@1	3815	// Compute start of first itableOffsetEntry (which is at the end of the vtable)
aoqi@1	3816	// TODO: x86 add a new method lookup_interface_method // LEE
aoqi@1	3817	const int base = InstanceKlass::vtable_start_offset() * wordSize;
aoqi@1	3818	assert(vtableEntry::size() * wordSize == 8, "adjust the scaling in the code below");
aoqi@1	3819	__ lw(AT, T1, InstanceKlass::vtable_length_offset() * wordSize);
aoqi@1	3820	__ dsll(AT, AT, Address::times_8);
aoqi@1	3821	__ dadd(T0, T1, AT);
aoqi@1	3822	__ daddi(T0, T0, base);
aoqi@1	3823	if (HeapWordsPerLong > 1) {
aoqi@1	3824	// Round up to align_object_offset boundary
aoqi@1	3825	__ round_to(T0, BytesPerLong);
aoqi@1	3826	}
aoqi@1	3827	// now T0 is the begin of the itable
aoqi@1	3828
aoqi@1	3829	Label entry, search, interface_ok;
aoqi@1	3830
aoqi@1	3831	///__ jmp(entry);
aoqi@1	3832	__ b(entry);
aoqi@1	3833	__ delayed()->nop();
aoqi@1	3834
aoqi@1	3835	__ bind(search);
aoqi@1	3836	__ increment(T0, itableOffsetEntry::size() * wordSize);
aoqi@1	3837
aoqi@1	3838	__ bind(entry);
aoqi@1	3839
aoqi@1	3840	// Check that the entry is non-null. A null entry means that the receiver
aoqi@1	3841	// class doesn't implement the interface, and wasn't the same as the
aoqi@1	3842	// receiver class checked when the interface was resolved.
aoqi@1	3843	__ ld(AT, T0, itableOffsetEntry::interface_offset_in_bytes());
aoqi@1	3844	__ bne(AT, R0, interface_ok);
aoqi@1	3845	__ delayed()->nop();
aoqi@1	3846	// throw exception
aoqi@1	3847	// the call_VM checks for exception, so we should never return here.
aoqi@1	3848
aoqi@1	3849	//__ pop();//FIXME here,
aoqi@1	3850	// pop return address (pushed by prepare_invoke).
aoqi@1	3851	// no need now, we just save the value in RA now
aoqi@1	3852
aoqi@1	3853	__ call_VM(NOREG, CAST_FROM_FN_PTR(address, InterpreterRuntime::throw_IncompatibleClassChangeError));
aoqi@1	3854	__ should_not_reach_here();
aoqi@1	3855
aoqi@1	3856	__ bind(interface_ok);
aoqi@1	3857	//NOTICE here, no pop as x86 do
aoqi@1	3858	//__ lw(AT, T0, itableOffsetEntry::interface_offset_in_bytes());
aoqi@1	3859	__ bne(AT, T2, search);
aoqi@1	3860	__ delayed()->nop();
aoqi@1	3861
aoqi@1	3862	// now we get vtable of the interface
aoqi@1	3863	__ ld(T0, T0, itableOffsetEntry::offset_offset_in_bytes());
aoqi@1	3864	__ daddu(T0, T1, T0);
aoqi@1	3865	assert(itableMethodEntry::size() * wordSize == 8, "adjust the scaling in the code below");
aoqi@1	3866	__ dsll(AT, Rmethod, Address::times_8);
aoqi@1	3867	__ daddu(AT, T0, AT);
aoqi@1	3868	// now we get the method
aoqi@1	3869	__ ld(Rmethod, AT, 0);
aoqi@1	3870	// Rnext: methodOop to call
aoqi@1	3871	// T3: receiver
aoqi@1	3872	// Check for abstract method error
aoqi@1	3873	// Note: This should be done more efficiently via a throw_abstract_method_error
aoqi@1	3874	// interpreter entry point and a conditional jump to it in case of a null
aoqi@1	3875	// method.
aoqi@1	3876	{
aoqi@1	3877	Label L;
aoqi@1	3878	///__ testl(ebx, ebx);
aoqi@1	3879	///__ jcc(Assembler::notZero, L);
aoqi@1	3880	__ bne(Rmethod, R0, L);
aoqi@1	3881	__ delayed()->nop();
aoqi@1	3882
aoqi@1	3883	// throw exception
aoqi@1	3884	// note: must restore interpreter registers to canonical
aoqi@1	3885	// state for exception handling to work correctly!
aoqi@1	3886	///__ popl(ebx); // pop return address (pushed by prepare_invoke)
aoqi@1	3887	//__ restore_bcp(); // esi must be correct for exception handler
aoqi@1	3888	//(was destroyed)
aoqi@1	3889	//__ restore_locals(); // make sure locals pointer
aoqi@1	3890	//is correct as well (was destroyed)
aoqi@1	3891	///__ call_VM(noreg, CAST_FROM_FN_PTR(address,
aoqi@1	3892	//InterpreterRuntime::throw_AbstractMethodError));
aoqi@1	3893	__ call_VM(NOREG, CAST_FROM_FN_PTR(address, InterpreterRuntime::throw_AbstractMethodError));
aoqi@1	3894	// the call_VM checks for exception, so we should never return here.
aoqi@1	3895	__ should_not_reach_here();
aoqi@1	3896	__ bind(L);
aoqi@1	3897	}
aoqi@1	3898
aoqi@1	3899	// 2014/11/24 Fu
aoqi@1	3900	// T8: tmp, used for mdp
aoqi@1	3901	// Rmethod: callee
aoqi@1	3902	// T9: tmp
aoqi@1	3903	// is_virtual: true
aoqi@1	3904	__ profile_arguments_type(T8, Rmethod, T9, true);
aoqi@1	3905
aoqi@1	3906	__ jump_from_interpreted(Rmethod, T9);
aoqi@1	3907	}
aoqi@1	3908
aoqi@1	3909	void TemplateTable::invokehandle(int byte_no) {
aoqi@1	3910	transition(vtos, vtos);
aoqi@1	3911	assert(byte_no == f1_byte, "use this argument");
aoqi@1	3912	const Register T2_method = Rmethod;
aoqi@1	3913	const Register FSR_mtype = FSR;
aoqi@1	3914	const Register T3_recv = T3;
aoqi@1	3915
aoqi@1	3916	if (!EnableInvokeDynamic) {
aoqi@1	3917	// rewriter does not generate this bytecode
aoqi@1	3918	__ should_not_reach_here();
aoqi@1	3919	return;
aoqi@1	3920	}
aoqi@1	3921
aoqi@1	3922	prepare_invoke(byte_no, T2_method, FSR_mtype, T3_recv);
aoqi@1	3923	//??__ verify_method_ptr(T2_method);
aoqi@1	3924	__ verify_oop(T3_recv);
aoqi@1	3925	__ null_check(T3_recv);
aoqi@1	3926
aoqi@1	3927	// rax: MethodType object (from cpool->resolved_references[f1], if necessary)
aoqi@1	3928	// rbx: MH.invokeExact_MT method (from f2)
aoqi@1	3929
aoqi@1	3930	// Note: rax_mtype is already pushed (if necessary) by prepare_invoke
aoqi@1	3931
aoqi@1	3932	// FIXME: profile the LambdaForm also
aoqi@1	3933	__ profile_final_call(T9);
aoqi@1	3934
aoqi@1	3935	// 2014/11/24 Fu
aoqi@1	3936	// T8: tmp, used for mdp
aoqi@1	3937	// T2_method: callee
aoqi@1	3938	// T9: tmp
aoqi@1	3939	// is_virtual: true
aoqi@1	3940	__ profile_arguments_type(T8, T2_method, T9, true);
aoqi@1	3941
aoqi@1	3942	__ jump_from_interpreted(T2_method, T9);
aoqi@1	3943	}
aoqi@1	3944
aoqi@1	3945	void TemplateTable::invokedynamic(int byte_no) {
aoqi@1	3946	transition(vtos, vtos);
aoqi@1	3947	assert(byte_no == f1_byte, "use this argument");
aoqi@1	3948
aoqi@1	3949	if (!EnableInvokeDynamic) {
aoqi@1	3950	// We should not encounter this bytecode if !EnableInvokeDynamic.
aoqi@1	3951	// The verifier will stop it. However, if we get past the verifier,
aoqi@1	3952	// this will stop the thread in a reasonable way, without crashing the JVM.
aoqi@1	3953	__ call_VM(noreg, CAST_FROM_FN_PTR(address,
aoqi@1	3954	InterpreterRuntime::throw_IncompatibleClassChangeError));
aoqi@1	3955	// the call_VM checks for exception, so we should never return here.
aoqi@1	3956	__ should_not_reach_here();
aoqi@1	3957	return;
aoqi@1	3958	}
aoqi@1	3959
aoqi@1	3960	//const Register Rmethod = T2;
aoqi@1	3961	const Register T2_callsite = T2;
aoqi@1	3962
aoqi@1	3963	prepare_invoke(byte_no, Rmethod, T2_callsite);
aoqi@1	3964
aoqi@1	3965	// rax: CallSite object (from cpool->resolved_references[f1])
aoqi@1	3966	// rbx: MH.linkToCallSite method (from f2)
aoqi@1	3967
aoqi@1	3968	// Note: rax_callsite is already pushed by prepare_invoke
aoqi@1	3969	// %%% should make a type profile for any invokedynamic that takes a ref argument
aoqi@1	3970	// profile this call
aoqi@1	3971	__ profile_call(T9);
aoqi@1	3972
aoqi@1	3973	// 2014/11/24 Fu
aoqi@1	3974	// T8: tmp, used for mdp
aoqi@1	3975	// Rmethod: callee
aoqi@1	3976	// T9: tmp
aoqi@1	3977	// is_virtual: false
aoqi@1	3978	__ profile_arguments_type(T8, Rmethod, T9, false);
aoqi@1	3979
aoqi@1	3980	__ verify_oop(T2_callsite);
aoqi@1	3981
aoqi@1	3982	__ jump_from_interpreted(Rmethod, T9);
aoqi@1	3983	}
aoqi@1	3984
aoqi@1	3985	//----------------------------------------------------------------------------------------------------
aoqi@1	3986	// Allocation
aoqi@1	3987	// T1 : tags & buffer end & thread
aoqi@1	3988	// T2 : object end
aoqi@1	3989	// T3 : klass
aoqi@1	3990	// T1 : object size
aoqi@1	3991	// A1 : cpool
aoqi@1	3992	// A2 : cp index
aoqi@1	3993	// return object in FSR
aoqi@1	3994	void TemplateTable::_new() {
aoqi@1	3995	transition(vtos, atos);
aoqi@16	3996	__ get_2_byte_integer_at_bcp(A2, AT, 1);
aoqi@1	3997	__ huswap(A2);
aoqi@1	3998
aoqi@1	3999	Label slow_case;
aoqi@1	4000	Label done;
aoqi@1	4001	Label initialize_header;
aoqi@1	4002	Label initialize_object; // including clearing the fields
aoqi@1	4003	Label allocate_shared;
aoqi@1	4004
aoqi@1	4005	// get InstanceKlass in T3
aoqi@1	4006	__ get_cpool_and_tags(A1, T1);
aoqi@1	4007	__ dsll(AT, A2, Address::times_8);
aoqi@1	4008	__ dadd(AT, A1, AT);
aoqi@1	4009	__ ld(T3, AT, sizeof(ConstantPool));
aoqi@1	4010
aoqi@1	4011	// make sure the class we're about to instantiate has been resolved.
aoqi@1	4012	// Note: slow_case does a pop of stack, which is why we loaded class/pushed above
aoqi@1	4013	const int tags_offset = Array<u1>::base_offset_in_bytes();
aoqi@1	4014	__ dadd(T1, T1, A2);
aoqi@1	4015	__ lb(AT, T1, tags_offset);
aoqi@1	4016	//__ addiu(AT, AT, - (int)JVM_CONSTANT_UnresolvedClass);
aoqi@1	4017	__ daddiu(AT, AT, - (int)JVM_CONSTANT_Class);
aoqi@1	4018	//__ beq(AT, R0, slow_case);
aoqi@1	4019	__ bne(AT, R0, slow_case);
aoqi@1	4020	__ delayed()->nop();
aoqi@1	4021
aoqi@1	4022	/*make sure klass is initialized & doesn't have finalizer*/
aoqi@1	4023
aoqi@1	4024	// make sure klass is fully initialized
Jin@2	4025	__ lhu(T1, T3, in_bytes(InstanceKlass::init_state_offset()));
aoqi@1	4026	__ daddiu(AT, T1, - (int)InstanceKlass::fully_initialized);
aoqi@1	4027	__ bne(AT, R0, slow_case);
aoqi@1	4028	__ delayed()->nop();
aoqi@1	4029
aoqi@1	4030	// has_finalizer
aoqi@1	4031	//__ lw(T1, T3, Klass::access_flags_offset() + sizeof(oopDesc));
aoqi@1	4032	//__ move(AT, JVM_ACC_CAN_BE_FASTPATH_ALLOCATED);
aoqi@1	4033	//__ andr(AT, T1, AT);
aoqi@1	4034	__ lw(T1, T3, in_bytes(Klass::layout_helper_offset()) );
aoqi@1	4035	__ andi(AT, T1, Klass::_lh_instance_slow_path_bit);
aoqi@1	4036	__ bne(AT, R0, slow_case);
aoqi@1	4037	__ delayed()->nop();
aoqi@1	4038
aoqi@1	4039	// get instance_size in InstanceKlass (already aligned) in T0,
aoqi@1	4040	// be sure to preserve this value
aoqi@1	4041	//__ lw(T0, T3, Klass::size_helper_offset_in_bytes() + sizeof(oopDesc));
aoqi@1	4042	//Klass::_size_helper is renamed Klass::_layout_helper. aoqi
aoqi@1	4043	__ lw(T0, T3, in_bytes(Klass::layout_helper_offset()) );
aoqi@1	4044
aoqi@1	4045	//
aoqi@1	4046	// Allocate the instance
aoqi@1	4047	// 1) Try to allocate in the TLAB
aoqi@1	4048	// 2) if fail and the object is large allocate in the shared Eden
aoqi@1	4049	// 3) if the above fails (or is not applicable), go to a slow case
aoqi@1	4050	// (creates a new TLAB, etc.)
aoqi@1	4051
aoqi@1	4052	const bool allow_shared_alloc =
aoqi@1	4053	Universe::heap()->supports_inline_contig_alloc() && !CMSIncrementalMode;
aoqi@1	4054
aoqi@1	4055	if (UseTLAB) {
aoqi@1	4056	#ifndef OPT_THREAD
aoqi@1	4057	const Register thread = T8;
aoqi@1	4058	__ get_thread(thread);
aoqi@1	4059	#else
aoqi@1	4060	const Register thread = TREG;
aoqi@1	4061	#endif
aoqi@1	4062	// get tlab_top
aoqi@1	4063	__ ld(FSR, thread, in_bytes(JavaThread::tlab_top_offset()));
aoqi@1	4064	__ dadd(T2, FSR, T0);
aoqi@1	4065	// get tlab_end
aoqi@1	4066	__ ld(AT, thread, in_bytes(JavaThread::tlab_end_offset()));
aoqi@1	4067	__ slt(AT, AT, T2);
aoqi@1	4068	// __ bne(AT, R0, allocate_shared);
aoqi@1	4069	__ bne(AT, R0, allow_shared_alloc ? allocate_shared : slow_case);
aoqi@1	4070	__ delayed()->nop();
aoqi@1	4071	__ sd(T2, thread, in_bytes(JavaThread::tlab_top_offset()));
aoqi@1	4072
aoqi@1	4073	if (ZeroTLAB) {
aoqi@1	4074	// the fields have been already cleared
aoqi@1	4075	__ b_far(initialize_header);
aoqi@1	4076	} else {
aoqi@1	4077	// initialize both the header and fields
aoqi@1	4078	__ b_far(initialize_object);
aoqi@1	4079	}
aoqi@1	4080	__ delayed()->nop();
aoqi@1	4081	/*
aoqi@1	4082
aoqi@1	4083	if (CMSIncrementalMode) {
aoqi@1	4084	// No allocation in shared eden.
aoqi@1	4085	///__ jmp(slow_case);
aoqi@1	4086	__ b(slow_case);
aoqi@1	4087	__ delayed()->nop();
aoqi@1	4088	}
aoqi@1	4089	*/
aoqi@1	4090	}
aoqi@1	4091
aoqi@1	4092	// Allocation in the shared Eden , if allowed
aoqi@1	4093	// T0 : instance size in words
aoqi@1	4094	if(allow_shared_alloc){
aoqi@1	4095	__ bind(allocate_shared);
aoqi@1	4096	Label retry;
aoqi@1	4097	//Address heap_top(T1, (int)Universe::heap()->top_addr());
aoqi@1	4098	Address heap_top(T1);
aoqi@1	4099	//__ lui(T1, Assembler::split_high((int)Universe::heap()->top_addr()));
aoqi@1	4100	__ li(T1, (long)Universe::heap()->top_addr());
aoqi@1	4101
aoqi@1	4102	__ ld(FSR, heap_top);
aoqi@1	4103	__ bind(retry);
aoqi@1	4104	__ dadd(T2, FSR, T0);
aoqi@1	4105	//__ lui(AT, Assembler::split_high((int)Universe::heap()->end_addr()));
aoqi@1	4106	//__ lw(AT, AT, Assembler::split_low((int)Universe::heap()->end_addr()));
aoqi@1	4107	__ li(AT, (long)Universe::heap()->end_addr());
aoqi@1	4108	__ ld(AT, AT, 0);
aoqi@1	4109	__ slt(AT, AT, T2);
aoqi@1	4110	__ bne(AT, R0, slow_case);
aoqi@1	4111	__ delayed()->nop();
aoqi@1	4112
aoqi@1	4113	// Compare FSR with the top addr, and if still equal, store the new
aoqi@1	4114	// top addr in ebx at the address of the top addr pointer. Sets ZF if was
aoqi@1	4115	// equal, and clears it otherwise. Use lock prefix for atomicity on MPs.
aoqi@1	4116	//
aoqi@1	4117	// FSR: object begin
aoqi@1	4118	// T2: object end
aoqi@1	4119	// T0: instance size in words
aoqi@1	4120
aoqi@1	4121	// if someone beat us on the allocation, try again, otherwise continue
aoqi@1	4122	//__ lui(T1, Assembler::split_high((int)Universe::heap()->top_addr()));
aoqi@1	4123	__ cmpxchg(T2, heap_top, FSR);
aoqi@1	4124	__ beq(AT, R0, retry);
aoqi@1	4125	__ delayed()->nop();
aoqi@1	4126	}
aoqi@1	4127
aoqi@1	4128	if (UseTLAB || Universe::heap()->supports_inline_contig_alloc()) {
aoqi@1	4129	// The object is initialized before the header. If the object size is
aoqi@1	4130	// zero, go directly to the header initialization.
aoqi@1	4131	__ bind(initialize_object);
aoqi@1	4132	__ li(AT, - sizeof(oopDesc));
aoqi@1	4133	__ daddu(T0, T0, AT);
aoqi@1	4134	__ beq_far(T0, R0, initialize_header);
aoqi@1	4135	__ delayed()->nop();
aoqi@1	4136
aoqi@1	4137
aoqi@1	4138	// T0 must have been multiple of 2
aoqi@1	4139	#ifdef ASSERT
aoqi@1	4140	// make sure T0 was multiple of 2
aoqi@1	4141	Label L;
aoqi@1	4142	__ andi(AT, T0, 1);
aoqi@1	4143	__ beq(AT, R0, L);
aoqi@1	4144	__ delayed()->nop();
aoqi@1	4145	__ stop("object size is not multiple of 2 - adjust this code");
aoqi@1	4146	__ bind(L);
aoqi@1	4147	// edx must be > 0, no extra check needed here
aoqi@1	4148	#endif
aoqi@1	4149
aoqi@1	4150	// initialize remaining object fields: T0 is a multiple of 2
aoqi@1	4151	{
aoqi@1	4152	Label loop;
aoqi@1	4153	__ dadd(T1, FSR, T0);
aoqi@1	4154	__ daddi(T1, T1, -oopSize);
aoqi@1	4155
aoqi@1	4156	__ bind(loop);
aoqi@1	4157	__ sd(R0, T1, sizeof(oopDesc) + 0 * oopSize);
aoqi@1	4158	// __ sd(R0, T1, sizeof(oopDesc) + 1 * oopSize);
aoqi@1	4159	__ bne(T1, FSR, loop); //dont clear header
aoqi@1	4160	__ delayed()->daddi(T1, T1, -oopSize);
aoqi@1	4161	// actually sizeof(oopDesc)==8, so we can move
aoqi@1	4162	// __ addiu(AT, AT, -8) to delay slot, and compare FSR with T1
aoqi@1	4163	}
aoqi@1	4164	//klass in T3,
aoqi@1	4165	// initialize object header only.
aoqi@1	4166	__ bind(initialize_header);
aoqi@1	4167	if (UseBiasedLocking) {
aoqi@1	4168	// __ popl(ecx); // get saved klass back in the register.
aoqi@1	4169	// __ movl(ebx, Address(ecx, Klass::prototype_header_offset_in_bytes()
aoqi@1	4170	// + klassOopDesc::klass_part_offset_in_bytes()));
aoqi@1	4171	__ ld(AT, T3, in_bytes(Klass::prototype_header_offset()));
aoqi@1	4172	// __ movl(Address(eax, oopDesc::mark_offset_in_bytes ()), ebx);
aoqi@1	4173	__ sd(AT, FSR, oopDesc::mark_offset_in_bytes ());
aoqi@1	4174	} else {
aoqi@1	4175	__ li(AT, (long)markOopDesc::prototype());
aoqi@1	4176	__ sd(AT, FSR, oopDesc::mark_offset_in_bytes());
aoqi@1	4177	}
aoqi@1	4178
aoqi@1	4179	//__ sd(T3, FSR, oopDesc::klass_offset_in_bytes());
aoqi@1	4180	__ store_klass_gap(FSR, R0);
aoqi@1	4181	__ store_klass(FSR, T3);
aoqi@1	4182
aoqi@1	4183	{
aoqi@1	4184	SkipIfEqual skip_if(_masm, &DTraceAllocProbes, 0);
aoqi@1	4185	// Trigger dtrace event for fastpath
aoqi@1	4186	__ push(atos);
aoqi@1	4187	__ call_VM_leaf(
aoqi@1	4188	CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_object_alloc), FSR);
aoqi@1	4189	__ pop(atos);
aoqi@1	4190	}
aoqi@1	4191	__ b(done);
aoqi@1	4192	__ delayed()->nop();
aoqi@1	4193	}
aoqi@1	4194	// slow case
aoqi@1	4195	__ bind(slow_case);
aoqi@1	4196	call_VM(FSR, CAST_FROM_FN_PTR(address, InterpreterRuntime::_new), A1, A2);
aoqi@1	4197
aoqi@1	4198	// continue
aoqi@1	4199	__ bind(done);
fujie@32	4200	__ sync();
aoqi@1	4201	}
aoqi@1	4202
aoqi@1	4203	void TemplateTable::newarray() {
aoqi@1	4204	transition(itos, atos);
aoqi@1	4205	__ lbu(A1, at_bcp(1));
aoqi@1	4206	//type, count
aoqi@1	4207	call_VM(FSR, CAST_FROM_FN_PTR(address, InterpreterRuntime::newarray), A1, FSR);
fujie@32	4208	__ sync();
aoqi@1	4209	}
aoqi@1	4210
aoqi@1	4211	void TemplateTable::anewarray() {
aoqi@1	4212	transition(itos, atos);
aoqi@16	4213	__ get_2_byte_integer_at_bcp(A2, AT, 1);
aoqi@1	4214	__ huswap(A2);
aoqi@1	4215	__ get_constant_pool(A1);
aoqi@1	4216	// cp, index, count
aoqi@1	4217	call_VM(FSR, CAST_FROM_FN_PTR(address, InterpreterRuntime::anewarray), A1, A2, FSR);
fujie@32	4218	__ sync();
aoqi@1	4219	}
aoqi@1	4220
aoqi@1	4221	void TemplateTable::arraylength() {
aoqi@1	4222	transition(atos, itos);
aoqi@1	4223	__ null_check(FSR, arrayOopDesc::length_offset_in_bytes());
aoqi@1	4224	__ lw(FSR, FSR, arrayOopDesc::length_offset_in_bytes());
aoqi@1	4225	}
aoqi@1	4226
aoqi@1	4227	// i use T2 as ebx, T3 as ecx, T1 as edx
aoqi@1	4228	// when invoke gen_subtype_check, super in T3, sub in T2, object in FSR(it's always)
aoqi@1	4229	// T2 : sub klass
aoqi@1	4230	// T3 : cpool
aoqi@1	4231	// T3 : super klass
aoqi@1	4232	void TemplateTable::checkcast() {
aoqi@1	4233	transition(atos, atos);
aoqi@1	4234	Label done, is_null, ok_is_subtype, quicked, resolved;
aoqi@1	4235	__ beq(FSR, R0, is_null);
aoqi@1	4236	__ delayed()->nop();
aoqi@1	4237
aoqi@1	4238	// Get cpool & tags index
aoqi@1	4239	__ get_cpool_and_tags(T3, T1);
aoqi@16	4240	__ get_2_byte_integer_at_bcp(T2, AT, 1);
aoqi@1	4241	__ huswap(T2);
aoqi@1	4242
aoqi@1	4243	// See if bytecode has already been quicked
aoqi@1	4244	__ dadd(AT, T1, T2);
aoqi@1	4245	__ lb(AT, AT, Array<u1>::base_offset_in_bytes());
aoqi@1	4246	__ daddiu(AT, AT, - (int)JVM_CONSTANT_Class);
aoqi@1	4247	__ beq(AT, R0, quicked);
aoqi@1	4248	__ delayed()->nop();
aoqi@1	4249
aoqi@1	4250	/* 2012/6/2 Jin: In InterpreterRuntime::quicken_io_cc, lots of new classes may be loaded.
aoqi@1	4251	* Then, GC will move the object in V0 to another places in heap.
aoqi@1	4252	* Therefore, We should never save such an object in register.
aoqi@1	4253	* Instead, we should save it in the stack. It can be modified automatically by the GC thread.
aoqi@1	4254	* After GC, the object address in FSR is changed to a new place.
aoqi@1	4255	*/
aoqi@1	4256	__ push(atos);
aoqi@1	4257	const Register thread = TREG;
aoqi@1	4258	#ifndef OPT_THREAD
aoqi@1	4259	__ get_thread(thread);
aoqi@1	4260	#endif
aoqi@1	4261	call_VM(NOREG, CAST_FROM_FN_PTR(address, InterpreterRuntime::quicken_io_cc));
aoqi@1	4262	__ get_vm_result_2(T3, thread);
aoqi@1	4263	__ pop_ptr(FSR);
aoqi@1	4264	__ b(resolved);
aoqi@1	4265	__ delayed()->nop();
aoqi@1	4266
aoqi@1	4267	// klass already in cp, get superklass in T3
aoqi@1	4268	__ bind(quicked);
aoqi@1	4269	__ dsll(AT, T2, Address::times_8);
aoqi@1	4270	__ dadd(AT, T3, AT);
aoqi@1	4271	__ ld(T3, AT, sizeof(ConstantPool));
aoqi@1	4272
aoqi@1	4273	__ bind(resolved);
aoqi@1	4274
aoqi@1	4275	// get subklass in T2
aoqi@1	4276	//__ ld(T2, FSR, oopDesc::klass_offset_in_bytes());
aoqi@1	4277	//add for compressedoops
aoqi@1	4278	__ load_klass(T2, FSR);
aoqi@1	4279	// Superklass in T3. Subklass in T2.
aoqi@1	4280	__ gen_subtype_check(T3, T2, ok_is_subtype);
aoqi@1	4281
aoqi@1	4282	// Come here on failure
aoqi@1	4283	// object is at FSR
aoqi@1	4284	__ jmp(Interpreter::_throw_ClassCastException_entry);
aoqi@1	4285	__ delayed()->nop();
aoqi@1	4286
aoqi@1	4287	// Come here on success
aoqi@1	4288	__ bind(ok_is_subtype);
aoqi@1	4289
aoqi@1	4290	// Collect counts on whether this check-cast sees NULLs a lot or not.
aoqi@1	4291	if (ProfileInterpreter) {
aoqi@1	4292	__ b(done);
aoqi@1	4293	__ delayed()->nop();
aoqi@1	4294	__ bind(is_null);
aoqi@1	4295	__ profile_null_seen(T3);
aoqi@1	4296	} else {
aoqi@1	4297	__ bind(is_null);
aoqi@1	4298	}
aoqi@1	4299	__ bind(done);
aoqi@1	4300	}
aoqi@1	4301
aoqi@1	4302	// i use T3 as cpool, T1 as tags, T2 as index
aoqi@1	4303	// object always in FSR, superklass in T3, subklass in T2
aoqi@1	4304	void TemplateTable::instanceof() {
aoqi@1	4305	transition(atos, itos);
aoqi@1	4306	Label done, is_null, ok_is_subtype, quicked, resolved;
aoqi@1	4307
aoqi@1	4308	__ beq(FSR, R0, is_null);
aoqi@1	4309	__ delayed()->nop();
aoqi@1	4310
aoqi@1	4311	// Get cpool & tags index
aoqi@1	4312	__ get_cpool_and_tags(T3, T1);
aoqi@1	4313	// get index
aoqi@16	4314	__ get_2_byte_integer_at_bcp(T2, AT, 1);
aoqi@1	4315	__ hswap(T2);
aoqi@1	4316
aoqi@1	4317	// See if bytecode has already been quicked
aoqi@1	4318	// quicked
aoqi@1	4319	__ daddu(AT, T1, T2);
aoqi@1	4320	__ lb(AT, AT, Array<u1>::base_offset_in_bytes());
aoqi@1	4321	__ daddiu(AT, AT, - (int)JVM_CONSTANT_Class);
aoqi@1	4322	__ beq(AT, R0, quicked);
aoqi@1	4323	__ delayed()->nop();
aoqi@1	4324
aoqi@1	4325	// get superklass in T3
aoqi@1	4326	//__ move(TSR, FSR);
aoqi@1	4327	// sometimes S2 may be changed during the call,
aoqi@1	4328	// be careful if u use TSR as a saving place
aoqi@1	4329	//__ push(FSR);
aoqi@1	4330	__ push(atos);
aoqi@1	4331	const Register thread = TREG;
aoqi@1	4332	#ifndef OPT_THREAD
aoqi@1	4333	__ get_thread(thread);
aoqi@1	4334	#endif
aoqi@1	4335	call_VM(NOREG, CAST_FROM_FN_PTR(address, InterpreterRuntime::quicken_io_cc));
aoqi@1	4336	__ get_vm_result_2(T3, thread);
aoqi@1	4337	//__ lw(FSR, SP, 0);
aoqi@1	4338	__ pop_ptr(FSR);
aoqi@1	4339	__ b(resolved);
aoqi@1	4340	__ delayed()->nop();
aoqi@1	4341	//__ move(FSR, TSR);
aoqi@1	4342
aoqi@1	4343	// get superklass in T3, subklass in T2
aoqi@1	4344	__ bind(quicked);
aoqi@1	4345	__ dsll(AT, T2, Address::times_8);
aoqi@1	4346	__ daddu(AT, T3, AT);
aoqi@1	4347	__ ld(T3, AT, sizeof(ConstantPool));
aoqi@1	4348
aoqi@1	4349	__ bind(resolved);
aoqi@1	4350	// get subklass in T2
aoqi@1	4351	//__ ld(T2, FSR, oopDesc::klass_offset_in_bytes());
aoqi@1	4352	//add for compressedoops
aoqi@1	4353	__ load_klass(T2, FSR);
aoqi@1	4354
aoqi@1	4355	// Superklass in T3. Subklass in T2.
aoqi@1	4356	__ gen_subtype_check(T3, T2, ok_is_subtype);
aoqi@1	4357	// Come here on failure
aoqi@1	4358	__ b(done);
aoqi@1	4359	__ delayed(); __ move(FSR, R0);
aoqi@1	4360
aoqi@1	4361	// Come here on success
aoqi@1	4362	__ bind(ok_is_subtype);
aoqi@1	4363	__ move(FSR, 1);
aoqi@1	4364
aoqi@1	4365	// Collect counts on whether this test sees NULLs a lot or not.
aoqi@1	4366	if (ProfileInterpreter) {
aoqi@1	4367	__ beq(R0, R0, done);
aoqi@1	4368	__ nop();
aoqi@1	4369	__ bind(is_null);
aoqi@1	4370	__ profile_null_seen(T3);
aoqi@1	4371	} else {
aoqi@1	4372	__ bind(is_null); // same as 'done'
aoqi@1	4373	}
aoqi@1	4374	__ bind(done);
aoqi@1	4375	// FSR = 0: obj == NULL or obj is not an instanceof the specified klass
aoqi@1	4376	// FSR = 1: obj != NULL and obj is an instanceof the specified klass
aoqi@1	4377	}
aoqi@1	4378
aoqi@1	4379	//--------------------------------------------------------
aoqi@1	4380	//--------------------------------------------
aoqi@1	4381	// Breakpoints
aoqi@1	4382	void TemplateTable::_breakpoint() {
aoqi@1	4383
aoqi@1	4384	// Note: We get here even if we are single stepping..
aoqi@1	4385	// jbug inists on setting breakpoints at every bytecode
aoqi@1	4386	// even if we are in single step mode.
aoqi@1	4387
aoqi@1	4388	transition(vtos, vtos);
aoqi@1	4389
aoqi@1	4390	// get the unpatched byte code
aoqi@1	4391	///__ get_method(ecx);
aoqi@1	4392	///__ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::get_original_bytecode_at)
aoqi@1	4393	//, ecx, esi);
aoqi@1	4394	///__ movl(ebx, eax);
aoqi@1	4395	__ get_method(A1);
aoqi@1	4396	__ call_VM(NOREG, CAST_FROM_FN_PTR(address, InterpreterRuntime::get_original_bytecode_at),
aoqi@1	4397	A1, BCP);
aoqi@1	4398	__ move(Rnext, V0); // Jin: Rnext will be used in dispatch_only_normal
aoqi@1	4399
aoqi@1	4400	// post the breakpoint event
aoqi@1	4401	///__ get_method(ecx);
aoqi@1	4402	///__ call_VM(noreg, CAST_FROM_FN_PTR(address, InterpreterRuntime::_breakpoint), ecx, esi);
aoqi@1	4403	__ get_method(A1);
aoqi@1	4404	__ call_VM(NOREG, CAST_FROM_FN_PTR(address, InterpreterRuntime::_breakpoint), A1, BCP);
aoqi@1	4405
aoqi@1	4406	// complete the execution of original bytecode
aoqi@1	4407	__ dispatch_only_normal(vtos);
aoqi@1	4408	}
aoqi@1	4409
aoqi@1	4410	//----------------------------------------------------------------------------------------------------
aoqi@1	4411	// Exceptions
aoqi@1	4412
aoqi@1	4413	void TemplateTable::athrow() {
aoqi@1	4414	transition(atos, vtos);
aoqi@1	4415	__ null_check(FSR);
aoqi@1	4416	__ jmp(Interpreter::throw_exception_entry());
aoqi@1	4417	__ delayed()->nop();
aoqi@1	4418	}
aoqi@1	4419
aoqi@1	4420	//----------------------------------------------------------------------------------------------------
aoqi@1	4421	// Synchronization
aoqi@1	4422	//
aoqi@1	4423	// Note: monitorenter & exit are symmetric routines; which is reflected
aoqi@1	4424	// in the assembly code structure as well
aoqi@1	4425	//
aoqi@1	4426	// Stack layout:
aoqi@1	4427	//
aoqi@1	4428	// [expressions ] <--- SP = expression stack top
aoqi@1	4429	// ..
aoqi@1	4430	// [expressions ]
aoqi@1	4431	// [monitor entry] <--- monitor block top = expression stack bot
aoqi@1	4432	// ..
aoqi@1	4433	// [monitor entry]
aoqi@1	4434	// [frame data ] <--- monitor block bot
aoqi@1	4435	// ...
aoqi@1	4436	// [return addr ] <--- FP
aoqi@1	4437
aoqi@1	4438	// we use T2 as monitor entry pointer, T3 as monitor top pointer, c_rarg0 as free slot pointer
aoqi@1	4439	// object always in FSR
aoqi@1	4440	void TemplateTable::monitorenter() {
aoqi@1	4441	transition(atos, vtos);
aoqi@1	4442	// check for NULL object
aoqi@1	4443	__ null_check(FSR);
aoqi@1	4444
aoqi@1	4445	const Address monitor_block_top(FP, frame::interpreter_frame_monitor_block_top_offset
aoqi@1	4446	* wordSize);
aoqi@1	4447	const int entry_size = (frame::interpreter_frame_monitor_size()* wordSize);
aoqi@1	4448	Label allocated;
aoqi@1	4449
aoqi@1	4450	// initialize entry pointer
aoqi@1	4451	__ move(c_rarg0, R0);
aoqi@1	4452
aoqi@1	4453	// find a free slot in the monitor block (result in edx)
aoqi@1	4454	{
aoqi@1	4455	Label entry, loop, exit, next;
aoqi@1	4456	__ ld(T2, monitor_block_top);
aoqi@1	4457	__ b(entry);
aoqi@1	4458	__ delayed()->daddi(T3, FP, frame::interpreter_frame_initial_sp_offset * wordSize);
aoqi@1	4459
aoqi@1	4460	// free slot?
aoqi@1	4461	__ bind(loop);
aoqi@1	4462	__ ld(AT, T2, BasicObjectLock::obj_offset_in_bytes());
aoqi@1	4463	__ bne(AT, R0, next);
aoqi@1	4464	__ delayed()->nop();
aoqi@1	4465	__ move(c_rarg0, T2);
aoqi@1	4466
aoqi@1	4467	__ bind(next);
aoqi@1	4468	__ beq(FSR, AT, exit);
aoqi@1	4469	__ delayed()->nop();
aoqi@1	4470	__ daddi(T2, T2, entry_size);
aoqi@1	4471
aoqi@1	4472	__ bind(entry);
aoqi@1	4473	__ bne(T3, T2, loop);
aoqi@1	4474	__ delayed()->nop();
aoqi@1	4475	__ bind(exit);
aoqi@1	4476	}
aoqi@1	4477
aoqi@1	4478	__ bne(c_rarg0, R0, allocated);
aoqi@1	4479	__ delayed()->nop();
aoqi@1	4480
aoqi@1	4481	// allocate one if there's no free slot
aoqi@1	4482	{
aoqi@1	4483	Label entry, loop;
aoqi@1	4484	// 1. compute new pointers // SP: old expression stack top
aoqi@1	4485	__ ld(c_rarg0, monitor_block_top);
aoqi@1	4486	__ daddi(SP, SP, - entry_size);
aoqi@1	4487	__ daddi(c_rarg0, c_rarg0, - entry_size);
aoqi@1	4488	__ sd(c_rarg0, monitor_block_top);
aoqi@1	4489	__ b(entry);
aoqi@1	4490	__ delayed(); __ move(T3, SP);
aoqi@1	4491
aoqi@1	4492	// 2. move expression stack contents
aoqi@1	4493	__ bind(loop);
aoqi@1	4494	__ ld(AT, T3, entry_size);
aoqi@1	4495	__ sd(AT, T3, 0);
aoqi@1	4496	__ daddi(T3, T3, wordSize);
aoqi@1	4497	__ bind(entry);
aoqi@1	4498	__ bne(T3, c_rarg0, loop);
aoqi@1	4499	__ delayed()->nop();
aoqi@1	4500	}
aoqi@1	4501
aoqi@1	4502	__ bind(allocated);
aoqi@1	4503	// Increment bcp to point to the next bytecode,
aoqi@1	4504	// so exception handling for async. exceptions work correctly.
aoqi@1	4505	// The object has already been poped from the stack, so the
aoqi@1	4506	// expression stack looks correct.
aoqi@1	4507	__ daddi(BCP, BCP, 1);
aoqi@1	4508	__ sd(FSR, c_rarg0, BasicObjectLock::obj_offset_in_bytes());
aoqi@1	4509	__ lock_object(c_rarg0);
aoqi@1	4510	// check to make sure this monitor doesn't cause stack overflow after locking
aoqi@1	4511	__ save_bcp(); // in case of exception
aoqi@1	4512	__ generate_stack_overflow_check(0);
aoqi@1	4513	// The bcp has already been incremented. Just need to dispatch to next instruction.
aoqi@1	4514
aoqi@1	4515	__ dispatch_next(vtos);
aoqi@1	4516	}
aoqi@1	4517
aoqi@1	4518	// T2 : top
aoqi@1	4519	// c_rarg0 : entry
aoqi@1	4520	void TemplateTable::monitorexit() {
aoqi@1	4521	transition(atos, vtos);
aoqi@1	4522
aoqi@1	4523	__ null_check(FSR);
aoqi@1	4524
aoqi@1	4525	const int entry_size =(frame::interpreter_frame_monitor_size()* wordSize);
aoqi@1	4526	Label found;
aoqi@1	4527
aoqi@1	4528	// find matching slot
aoqi@1	4529	{
aoqi@1	4530	Label entry, loop;
aoqi@1	4531	__ ld(c_rarg0, FP, frame::interpreter_frame_monitor_block_top_offset * wordSize);
aoqi@1	4532	__ b(entry);
aoqi@1	4533	__ delayed()->daddiu(T2, FP, frame::interpreter_frame_initial_sp_offset * wordSize);
aoqi@1	4534
aoqi@1	4535	__ bind(loop);
aoqi@1	4536	__ ld(AT, c_rarg0, BasicObjectLock::obj_offset_in_bytes());
aoqi@1	4537	__ beq(FSR, AT, found);
aoqi@1	4538	__ delayed()->nop();
aoqi@1	4539	__ daddiu(c_rarg0, c_rarg0, entry_size);
aoqi@1	4540	__ bind(entry);
aoqi@1	4541	__ bne(T2, c_rarg0, loop);
aoqi@1	4542	__ delayed()->nop();
aoqi@1	4543	}
aoqi@1	4544
aoqi@1	4545	// error handling. Unlocking was not block-structured
aoqi@1	4546	Label end;
aoqi@1	4547	__ call_VM(NOREG, CAST_FROM_FN_PTR(address,
aoqi@1	4548	InterpreterRuntime::throw_illegal_monitor_state_exception));
aoqi@1	4549	__ should_not_reach_here();
aoqi@1	4550
aoqi@1	4551	// call run-time routine
aoqi@1	4552	// c_rarg0: points to monitor entry
aoqi@1	4553	__ bind(found);
aoqi@1	4554	__ move(TSR, FSR);
aoqi@1	4555	__ unlock_object(c_rarg0);
aoqi@1	4556	__ move(FSR, TSR);
aoqi@1	4557	__ bind(end);
aoqi@1	4558	}
aoqi@1	4559
aoqi@1	4560	//--------------------------------------------------------------------------------------------------// Wide instructions
aoqi@1	4561
aoqi@1	4562	void TemplateTable::wide() {
aoqi@1	4563	transition(vtos, vtos);
aoqi@1	4564	// Note: the esi increment step is part of the individual wide bytecode implementations
aoqi@1	4565	__ lbu(Rnext, at_bcp(1));
aoqi@1	4566	__ dsll(T9, Rnext, Address::times_8);
aoqi@1	4567	__ li(AT, (long)Interpreter::_wentry_point);
aoqi@1	4568	__ dadd(AT, T9, AT);
aoqi@1	4569	__ ld(T9, AT, 0);
aoqi@1	4570	__ jr(T9);
aoqi@1	4571	__ delayed()->nop();
aoqi@1	4572	}
aoqi@1	4573
aoqi@1	4574	//--------------------------------------------------------------------------------------------------// Multi arrays
aoqi@1	4575
aoqi@1	4576	void TemplateTable::multianewarray() {
aoqi@1	4577	transition(vtos, atos);
aoqi@1	4578	// last dim is on top of stack; we want address of first one:
aoqi@1	4579	// first_addr = last_addr + (ndims - 1) * wordSize
aoqi@1	4580	__ lbu(A1, at_bcp(3)); // dimension
aoqi@1	4581	__ daddi(A1, A1, -1);
aoqi@1	4582	__ dsll(A1, A1, Address::times_8);
aoqi@1	4583	__ dadd(A1, SP, A1); // now A1 pointer to the count array on the stack
aoqi@1	4584	call_VM(FSR, CAST_FROM_FN_PTR(address, InterpreterRuntime::multianewarray), A1);
aoqi@1	4585	__ lbu(AT, at_bcp(3));
aoqi@1	4586	__ dsll(AT, AT, Address::times_8);
aoqi@1	4587	__ dadd(SP, SP, AT);
fujie@32	4588	__ sync();
aoqi@1	4589	}
aoqi@1	4590
aoqi@1	4591	#endif // !CC_INTERP