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src/cpu/x86/vm/macroAssembler_x86.hpp@db9981fd3124 (annotated)

src/cpu/x86/vm/macroAssembler_x86.hpp

Wed, 23 Jan 2013 13:02:39 -0500

author

jprovino

date

Wed, 23 Jan 2013 13:02:39 -0500

changeset 4542

db9981fd3124

parent 4413

038dd2875b94

child 4543

8391fdd36e1f

permissions

-rw-r--r--

8005915: Unify SERIALGC and INCLUDE_ALTERNATE_GCS
Summary: Rename INCLUDE_ALTERNATE_GCS to INCLUDE_ALL_GCS and replace SERIALGC with INCLUDE_ALL_GCS.
Reviewed-by: coleenp, stefank

twisti@4318	1	/*
twisti@4318	2	* Copyright (c) 1997, 2012, Oracle and/or its affiliates. All rights reserved.
twisti@4318	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
twisti@4318	4	*
twisti@4318	5	* This code is free software; you can redistribute it and/or modify it
twisti@4318	6	* under the terms of the GNU General Public License version 2 only, as
twisti@4318	7	* published by the Free Software Foundation.
twisti@4318	8	*
twisti@4318	9	* This code is distributed in the hope that it will be useful, but WITHOUT
twisti@4318	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
twisti@4318	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
twisti@4318	12	* version 2 for more details (a copy is included in the LICENSE file that
twisti@4318	13	* accompanied this code).
twisti@4318	14	*
twisti@4318	15	* You should have received a copy of the GNU General Public License version
twisti@4318	16	* 2 along with this work; if not, write to the Free Software Foundation,
twisti@4318	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
twisti@4318	18	*
twisti@4318	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
twisti@4318	20	* or visit www.oracle.com if you need additional information or have any
twisti@4318	21	* questions.
twisti@4318	22	*
twisti@4318	23	*/
twisti@4318	24
twisti@4318	25	#ifndef CPU_X86_VM_MACROASSEMBLER_X86_HPP
twisti@4318	26	#define CPU_X86_VM_MACROASSEMBLER_X86_HPP
twisti@4318	27
twisti@4318	28	#include "asm/assembler.hpp"
jprovino@4542	29	#include "utilities/macros.hpp"
twisti@4318	30
twisti@4318	31
twisti@4318	32	// MacroAssembler extends Assembler by frequently used macros.
twisti@4318	33	//
twisti@4318	34	// Instructions for which a 'better' code sequence exists depending
twisti@4318	35	// on arguments should also go in here.
twisti@4318	36
twisti@4318	37	class MacroAssembler: public Assembler {
twisti@4318	38	friend class LIR_Assembler;
twisti@4318	39	friend class Runtime1; // as_Address()
twisti@4318	40
twisti@4318	41	protected:
twisti@4318	42
twisti@4318	43	Address as_Address(AddressLiteral adr);
twisti@4318	44	Address as_Address(ArrayAddress adr);
twisti@4318	45
twisti@4318	46	// Support for VM calls
twisti@4318	47	//
twisti@4318	48	// This is the base routine called by the different versions of call_VM_leaf. The interpreter
twisti@4318	49	// may customize this version by overriding it for its purposes (e.g., to save/restore
twisti@4318	50	// additional registers when doing a VM call).
twisti@4318	51	#ifdef CC_INTERP
twisti@4318	52	// c++ interpreter never wants to use interp_masm version of call_VM
twisti@4318	53	#define VIRTUAL
twisti@4318	54	#else
twisti@4318	55	#define VIRTUAL virtual
twisti@4318	56	#endif
twisti@4318	57
twisti@4318	58	VIRTUAL void call_VM_leaf_base(
twisti@4318	59	address entry_point, // the entry point
twisti@4318	60	int number_of_arguments // the number of arguments to pop after the call
twisti@4318	61	);
twisti@4318	62
twisti@4318	63	// This is the base routine called by the different versions of call_VM. The interpreter
twisti@4318	64	// may customize this version by overriding it for its purposes (e.g., to save/restore
twisti@4318	65	// additional registers when doing a VM call).
twisti@4318	66	//
twisti@4318	67	// If no java_thread register is specified (noreg) than rdi will be used instead. call_VM_base
twisti@4318	68	// returns the register which contains the thread upon return. If a thread register has been
twisti@4318	69	// specified, the return value will correspond to that register. If no last_java_sp is specified
twisti@4318	70	// (noreg) than rsp will be used instead.
twisti@4318	71	VIRTUAL void call_VM_base( // returns the register containing the thread upon return
twisti@4318	72	Register oop_result, // where an oop-result ends up if any; use noreg otherwise
twisti@4318	73	Register java_thread, // the thread if computed before ; use noreg otherwise
twisti@4318	74	Register last_java_sp, // to set up last_Java_frame in stubs; use noreg otherwise
twisti@4318	75	address entry_point, // the entry point
twisti@4318	76	int number_of_arguments, // the number of arguments (w/o thread) to pop after the call
twisti@4318	77	bool check_exceptions // whether to check for pending exceptions after return
twisti@4318	78	);
twisti@4318	79
twisti@4318	80	// These routines should emit JVMTI PopFrame and ForceEarlyReturn handling code.
twisti@4318	81	// The implementation is only non-empty for the InterpreterMacroAssembler,
twisti@4318	82	// as only the interpreter handles PopFrame and ForceEarlyReturn requests.
twisti@4318	83	virtual void check_and_handle_popframe(Register java_thread);
twisti@4318	84	virtual void check_and_handle_earlyret(Register java_thread);
twisti@4318	85
twisti@4318	86	void call_VM_helper(Register oop_result, address entry_point, int number_of_arguments, bool check_exceptions = true);
twisti@4318	87
twisti@4318	88	// helpers for FPU flag access
twisti@4318	89	// tmp is a temporary register, if none is available use noreg
twisti@4318	90	void save_rax (Register tmp);
twisti@4318	91	void restore_rax(Register tmp);
twisti@4318	92
twisti@4318	93	public:
twisti@4318	94	MacroAssembler(CodeBuffer* code) : Assembler(code) {}
twisti@4318	95
twisti@4318	96	// Support for NULL-checks
twisti@4318	97	//
twisti@4318	98	// Generates code that causes a NULL OS exception if the content of reg is NULL.
twisti@4318	99	// If the accessed location is M[reg + offset] and the offset is known, provide the
twisti@4318	100	// offset. No explicit code generation is needed if the offset is within a certain
twisti@4318	101	// range (0 <= offset <= page_size).
twisti@4318	102
twisti@4318	103	void null_check(Register reg, int offset = -1);
twisti@4318	104	static bool needs_explicit_null_check(intptr_t offset);
twisti@4318	105
twisti@4318	106	// Required platform-specific helpers for Label::patch_instructions.
twisti@4318	107	// They _shadow_ the declarations in AbstractAssembler, which are undefined.
twisti@4318	108	void pd_patch_instruction(address branch, address target) {
twisti@4318	109	unsigned char op = branch[0];
twisti@4318	110	assert(op == 0xE8 /* call */ ||
twisti@4318	111	op == 0xE9 /* jmp */ ||
twisti@4318	112	op == 0xEB /* short jmp */ ||
twisti@4318	113	(op & 0xF0) == 0x70 /* short jcc */ ||
twisti@4318	114	op == 0x0F && (branch[1] & 0xF0) == 0x80 /* jcc */,
twisti@4318	115	"Invalid opcode at patch point");
twisti@4318	116
twisti@4318	117	if (op == 0xEB || (op & 0xF0) == 0x70) {
twisti@4318	118	// short offset operators (jmp and jcc)
twisti@4318	119	char* disp = (char*) &branch[1];
twisti@4318	120	int imm8 = target - (address) &disp[1];
twisti@4318	121	guarantee(this->is8bit(imm8), "Short forward jump exceeds 8-bit offset");
twisti@4318	122	*disp = imm8;
twisti@4318	123	} else {
twisti@4318	124	int* disp = (int*) &branch[(op == 0x0F)? 2: 1];
twisti@4318	125	int imm32 = target - (address) &disp[1];
twisti@4318	126	*disp = imm32;
twisti@4318	127	}
twisti@4318	128	}
twisti@4318	129
twisti@4318	130	// The following 4 methods return the offset of the appropriate move instruction
twisti@4318	131
twisti@4318	132	// Support for fast byte/short loading with zero extension (depending on particular CPU)
twisti@4318	133	int load_unsigned_byte(Register dst, Address src);
twisti@4318	134	int load_unsigned_short(Register dst, Address src);
twisti@4318	135
twisti@4318	136	// Support for fast byte/short loading with sign extension (depending on particular CPU)
twisti@4318	137	int load_signed_byte(Register dst, Address src);
twisti@4318	138	int load_signed_short(Register dst, Address src);
twisti@4318	139
twisti@4318	140	// Support for sign-extension (hi:lo = extend_sign(lo))
twisti@4318	141	void extend_sign(Register hi, Register lo);
twisti@4318	142
twisti@4318	143	// Load and store values by size and signed-ness
twisti@4318	144	void load_sized_value(Register dst, Address src, size_t size_in_bytes, bool is_signed, Register dst2 = noreg);
twisti@4318	145	void store_sized_value(Address dst, Register src, size_t size_in_bytes, Register src2 = noreg);
twisti@4318	146
twisti@4318	147	// Support for inc/dec with optimal instruction selection depending on value
twisti@4318	148
twisti@4318	149	void increment(Register reg, int value = 1) { LP64_ONLY(incrementq(reg, value)) NOT_LP64(incrementl(reg, value)) ; }
twisti@4318	150	void decrement(Register reg, int value = 1) { LP64_ONLY(decrementq(reg, value)) NOT_LP64(decrementl(reg, value)) ; }
twisti@4318	151
twisti@4318	152	void decrementl(Address dst, int value = 1);
twisti@4318	153	void decrementl(Register reg, int value = 1);
twisti@4318	154
twisti@4318	155	void decrementq(Register reg, int value = 1);
twisti@4318	156	void decrementq(Address dst, int value = 1);
twisti@4318	157
twisti@4318	158	void incrementl(Address dst, int value = 1);
twisti@4318	159	void incrementl(Register reg, int value = 1);
twisti@4318	160
twisti@4318	161	void incrementq(Register reg, int value = 1);
twisti@4318	162	void incrementq(Address dst, int value = 1);
twisti@4318	163
twisti@4318	164
twisti@4318	165	// Support optimal SSE move instructions.
twisti@4318	166	void movflt(XMMRegister dst, XMMRegister src) {
twisti@4318	167	if (UseXmmRegToRegMoveAll) { movaps(dst, src); return; }
twisti@4318	168	else { movss (dst, src); return; }
twisti@4318	169	}
twisti@4318	170	void movflt(XMMRegister dst, Address src) { movss(dst, src); }
twisti@4318	171	void movflt(XMMRegister dst, AddressLiteral src);
twisti@4318	172	void movflt(Address dst, XMMRegister src) { movss(dst, src); }
twisti@4318	173
twisti@4318	174	void movdbl(XMMRegister dst, XMMRegister src) {
twisti@4318	175	if (UseXmmRegToRegMoveAll) { movapd(dst, src); return; }
twisti@4318	176	else { movsd (dst, src); return; }
twisti@4318	177	}
twisti@4318	178
twisti@4318	179	void movdbl(XMMRegister dst, AddressLiteral src);
twisti@4318	180
twisti@4318	181	void movdbl(XMMRegister dst, Address src) {
twisti@4318	182	if (UseXmmLoadAndClearUpper) { movsd (dst, src); return; }
twisti@4318	183	else { movlpd(dst, src); return; }
twisti@4318	184	}
twisti@4318	185	void movdbl(Address dst, XMMRegister src) { movsd(dst, src); }
twisti@4318	186
twisti@4318	187	void incrementl(AddressLiteral dst);
twisti@4318	188	void incrementl(ArrayAddress dst);
twisti@4318	189
twisti@4318	190	// Alignment
twisti@4318	191	void align(int modulus);
twisti@4318	192
twisti@4318	193	// A 5 byte nop that is safe for patching (see patch_verified_entry)
twisti@4318	194	void fat_nop();
twisti@4318	195
twisti@4318	196	// Stack frame creation/removal
twisti@4318	197	void enter();
twisti@4318	198	void leave();
twisti@4318	199
twisti@4318	200	// Support for getting the JavaThread pointer (i.e.; a reference to thread-local information)
twisti@4318	201	// The pointer will be loaded into the thread register.
twisti@4318	202	void get_thread(Register thread);
twisti@4318	203
twisti@4318	204
twisti@4318	205	// Support for VM calls
twisti@4318	206	//
twisti@4318	207	// It is imperative that all calls into the VM are handled via the call_VM macros.
twisti@4318	208	// They make sure that the stack linkage is setup correctly. call_VM's correspond
twisti@4318	209	// to ENTRY/ENTRY_X entry points while call_VM_leaf's correspond to LEAF entry points.
twisti@4318	210
twisti@4318	211
twisti@4318	212	void call_VM(Register oop_result,
twisti@4318	213	address entry_point,
twisti@4318	214	bool check_exceptions = true);
twisti@4318	215	void call_VM(Register oop_result,
twisti@4318	216	address entry_point,
twisti@4318	217	Register arg_1,
twisti@4318	218	bool check_exceptions = true);
twisti@4318	219	void call_VM(Register oop_result,
twisti@4318	220	address entry_point,
twisti@4318	221	Register arg_1, Register arg_2,
twisti@4318	222	bool check_exceptions = true);
twisti@4318	223	void call_VM(Register oop_result,
twisti@4318	224	address entry_point,
twisti@4318	225	Register arg_1, Register arg_2, Register arg_3,
twisti@4318	226	bool check_exceptions = true);
twisti@4318	227
twisti@4318	228	// Overloadings with last_Java_sp
twisti@4318	229	void call_VM(Register oop_result,
twisti@4318	230	Register last_java_sp,
twisti@4318	231	address entry_point,
twisti@4318	232	int number_of_arguments = 0,
twisti@4318	233	bool check_exceptions = true);
twisti@4318	234	void call_VM(Register oop_result,
twisti@4318	235	Register last_java_sp,
twisti@4318	236	address entry_point,
twisti@4318	237	Register arg_1, bool
twisti@4318	238	check_exceptions = true);
twisti@4318	239	void call_VM(Register oop_result,
twisti@4318	240	Register last_java_sp,
twisti@4318	241	address entry_point,
twisti@4318	242	Register arg_1, Register arg_2,
twisti@4318	243	bool check_exceptions = true);
twisti@4318	244	void call_VM(Register oop_result,
twisti@4318	245	Register last_java_sp,
twisti@4318	246	address entry_point,
twisti@4318	247	Register arg_1, Register arg_2, Register arg_3,
twisti@4318	248	bool check_exceptions = true);
twisti@4318	249
twisti@4318	250	void get_vm_result (Register oop_result, Register thread);
twisti@4318	251	void get_vm_result_2(Register metadata_result, Register thread);
twisti@4318	252
twisti@4318	253	// These always tightly bind to MacroAssembler::call_VM_base
twisti@4318	254	// bypassing the virtual implementation
twisti@4318	255	void super_call_VM(Register oop_result, Register last_java_sp, address entry_point, int number_of_arguments = 0, bool check_exceptions = true);
twisti@4318	256	void super_call_VM(Register oop_result, Register last_java_sp, address entry_point, Register arg_1, bool check_exceptions = true);
twisti@4318	257	void super_call_VM(Register oop_result, Register last_java_sp, address entry_point, Register arg_1, Register arg_2, bool check_exceptions = true);
twisti@4318	258	void super_call_VM(Register oop_result, Register last_java_sp, address entry_point, Register arg_1, Register arg_2, Register arg_3, bool check_exceptions = true);
twisti@4318	259	void super_call_VM(Register oop_result, Register last_java_sp, address entry_point, Register arg_1, Register arg_2, Register arg_3, Register arg_4, bool check_exceptions = true);
twisti@4318	260
twisti@4318	261	void call_VM_leaf(address entry_point,
twisti@4318	262	int number_of_arguments = 0);
twisti@4318	263	void call_VM_leaf(address entry_point,
twisti@4318	264	Register arg_1);
twisti@4318	265	void call_VM_leaf(address entry_point,
twisti@4318	266	Register arg_1, Register arg_2);
twisti@4318	267	void call_VM_leaf(address entry_point,
twisti@4318	268	Register arg_1, Register arg_2, Register arg_3);
twisti@4318	269
twisti@4318	270	// These always tightly bind to MacroAssembler::call_VM_leaf_base
twisti@4318	271	// bypassing the virtual implementation
twisti@4318	272	void super_call_VM_leaf(address entry_point);
twisti@4318	273	void super_call_VM_leaf(address entry_point, Register arg_1);
twisti@4318	274	void super_call_VM_leaf(address entry_point, Register arg_1, Register arg_2);
twisti@4318	275	void super_call_VM_leaf(address entry_point, Register arg_1, Register arg_2, Register arg_3);
twisti@4318	276	void super_call_VM_leaf(address entry_point, Register arg_1, Register arg_2, Register arg_3, Register arg_4);
twisti@4318	277
twisti@4318	278	// last Java Frame (fills frame anchor)
twisti@4318	279	void set_last_Java_frame(Register thread,
twisti@4318	280	Register last_java_sp,
twisti@4318	281	Register last_java_fp,
twisti@4318	282	address last_java_pc);
twisti@4318	283
twisti@4318	284	// thread in the default location (r15_thread on 64bit)
twisti@4318	285	void set_last_Java_frame(Register last_java_sp,
twisti@4318	286	Register last_java_fp,
twisti@4318	287	address last_java_pc);
twisti@4318	288
twisti@4318	289	void reset_last_Java_frame(Register thread, bool clear_fp, bool clear_pc);
twisti@4318	290
twisti@4318	291	// thread in the default location (r15_thread on 64bit)
twisti@4318	292	void reset_last_Java_frame(bool clear_fp, bool clear_pc);
twisti@4318	293
twisti@4318	294	// Stores
twisti@4318	295	void store_check(Register obj); // store check for obj - register is destroyed afterwards
twisti@4318	296	void store_check(Register obj, Address dst); // same as above, dst is exact store location (reg. is destroyed)
twisti@4318	297
jprovino@4542	298	#if INCLUDE_ALL_GCS
twisti@4318	299
twisti@4318	300	void g1_write_barrier_pre(Register obj,
twisti@4318	301	Register pre_val,
twisti@4318	302	Register thread,
twisti@4318	303	Register tmp,
twisti@4318	304	bool tosca_live,
twisti@4318	305	bool expand_call);
twisti@4318	306
twisti@4318	307	void g1_write_barrier_post(Register store_addr,
twisti@4318	308	Register new_val,
twisti@4318	309	Register thread,
twisti@4318	310	Register tmp,
twisti@4318	311	Register tmp2);
twisti@4318	312
jprovino@4542	313	#endif // INCLUDE_ALL_GCS
twisti@4318	314
twisti@4318	315	// split store_check(Register obj) to enhance instruction interleaving
twisti@4318	316	void store_check_part_1(Register obj);
twisti@4318	317	void store_check_part_2(Register obj);
twisti@4318	318
twisti@4318	319	// C 'boolean' to Java boolean: x == 0 ? 0 : 1
twisti@4318	320	void c2bool(Register x);
twisti@4318	321
twisti@4318	322	// C++ bool manipulation
twisti@4318	323
twisti@4318	324	void movbool(Register dst, Address src);
twisti@4318	325	void movbool(Address dst, bool boolconst);
twisti@4318	326	void movbool(Address dst, Register src);
twisti@4318	327	void testbool(Register dst);
twisti@4318	328
twisti@4318	329	// oop manipulations
twisti@4318	330	void load_klass(Register dst, Register src);
twisti@4318	331	void store_klass(Register dst, Register src);
twisti@4318	332
twisti@4318	333	void load_heap_oop(Register dst, Address src);
twisti@4318	334	void load_heap_oop_not_null(Register dst, Address src);
twisti@4318	335	void store_heap_oop(Address dst, Register src);
twisti@4318	336	void cmp_heap_oop(Register src1, Address src2, Register tmp = noreg);
twisti@4318	337
twisti@4318	338	// Used for storing NULL. All other oop constants should be
twisti@4318	339	// stored using routines that take a jobject.
twisti@4318	340	void store_heap_oop_null(Address dst);
twisti@4318	341
twisti@4318	342	void load_prototype_header(Register dst, Register src);
twisti@4318	343
twisti@4318	344	#ifdef _LP64
twisti@4318	345	void store_klass_gap(Register dst, Register src);
twisti@4318	346
twisti@4318	347	// This dummy is to prevent a call to store_heap_oop from
twisti@4318	348	// converting a zero (like NULL) into a Register by giving
twisti@4318	349	// the compiler two choices it can't resolve
twisti@4318	350
twisti@4318	351	void store_heap_oop(Address dst, void* dummy);
twisti@4318	352
twisti@4318	353	void encode_heap_oop(Register r);
twisti@4318	354	void decode_heap_oop(Register r);
twisti@4318	355	void encode_heap_oop_not_null(Register r);
twisti@4318	356	void decode_heap_oop_not_null(Register r);
twisti@4318	357	void encode_heap_oop_not_null(Register dst, Register src);
twisti@4318	358	void decode_heap_oop_not_null(Register dst, Register src);
twisti@4318	359
twisti@4318	360	void set_narrow_oop(Register dst, jobject obj);
twisti@4318	361	void set_narrow_oop(Address dst, jobject obj);
twisti@4318	362	void cmp_narrow_oop(Register dst, jobject obj);
twisti@4318	363	void cmp_narrow_oop(Address dst, jobject obj);
twisti@4318	364
twisti@4318	365	void encode_klass_not_null(Register r);
twisti@4318	366	void decode_klass_not_null(Register r);
twisti@4318	367	void encode_klass_not_null(Register dst, Register src);
twisti@4318	368	void decode_klass_not_null(Register dst, Register src);
twisti@4318	369	void set_narrow_klass(Register dst, Klass* k);
twisti@4318	370	void set_narrow_klass(Address dst, Klass* k);
twisti@4318	371	void cmp_narrow_klass(Register dst, Klass* k);
twisti@4318	372	void cmp_narrow_klass(Address dst, Klass* k);
twisti@4318	373
twisti@4318	374	// if heap base register is used - reinit it with the correct value
twisti@4318	375	void reinit_heapbase();
twisti@4318	376
twisti@4318	377	DEBUG_ONLY(void verify_heapbase(const char* msg);)
twisti@4318	378
twisti@4318	379	#endif // _LP64
twisti@4318	380
twisti@4318	381	// Int division/remainder for Java
twisti@4318	382	// (as idivl, but checks for special case as described in JVM spec.)
twisti@4318	383	// returns idivl instruction offset for implicit exception handling
twisti@4318	384	int corrected_idivl(Register reg);
twisti@4318	385
twisti@4318	386	// Long division/remainder for Java
twisti@4318	387	// (as idivq, but checks for special case as described in JVM spec.)
twisti@4318	388	// returns idivq instruction offset for implicit exception handling
twisti@4318	389	int corrected_idivq(Register reg);
twisti@4318	390
twisti@4318	391	void int3();
twisti@4318	392
twisti@4318	393	// Long operation macros for a 32bit cpu
twisti@4318	394	// Long negation for Java
twisti@4318	395	void lneg(Register hi, Register lo);
twisti@4318	396
twisti@4318	397	// Long multiplication for Java
twisti@4318	398	// (destroys contents of eax, ebx, ecx and edx)
twisti@4318	399	void lmul(int x_rsp_offset, int y_rsp_offset); // rdx:rax = x * y
twisti@4318	400
twisti@4318	401	// Long shifts for Java
twisti@4318	402	// (semantics as described in JVM spec.)
twisti@4318	403	void lshl(Register hi, Register lo); // hi:lo << (rcx & 0x3f)
twisti@4318	404	void lshr(Register hi, Register lo, bool sign_extension = false); // hi:lo >> (rcx & 0x3f)
twisti@4318	405
twisti@4318	406	// Long compare for Java
twisti@4318	407	// (semantics as described in JVM spec.)
twisti@4318	408	void lcmp2int(Register x_hi, Register x_lo, Register y_hi, Register y_lo); // x_hi = lcmp(x, y)
twisti@4318	409
twisti@4318	410
twisti@4318	411	// misc
twisti@4318	412
twisti@4318	413	// Sign extension
twisti@4318	414	void sign_extend_short(Register reg);
twisti@4318	415	void sign_extend_byte(Register reg);
twisti@4318	416
twisti@4318	417	// Division by power of 2, rounding towards 0
twisti@4318	418	void division_with_shift(Register reg, int shift_value);
twisti@4318	419
twisti@4318	420	// Compares the top-most stack entries on the FPU stack and sets the eflags as follows:
twisti@4318	421	//
twisti@4318	422	// CF (corresponds to C0) if x < y
twisti@4318	423	// PF (corresponds to C2) if unordered
twisti@4318	424	// ZF (corresponds to C3) if x = y
twisti@4318	425	//
twisti@4318	426	// The arguments are in reversed order on the stack (i.e., top of stack is first argument).
twisti@4318	427	// tmp is a temporary register, if none is available use noreg (only matters for non-P6 code)
twisti@4318	428	void fcmp(Register tmp);
twisti@4318	429	// Variant of the above which allows y to be further down the stack
twisti@4318	430	// and which only pops x and y if specified. If pop_right is
twisti@4318	431	// specified then pop_left must also be specified.
twisti@4318	432	void fcmp(Register tmp, int index, bool pop_left, bool pop_right);
twisti@4318	433
twisti@4318	434	// Floating-point comparison for Java
twisti@4318	435	// Compares the top-most stack entries on the FPU stack and stores the result in dst.
twisti@4318	436	// The arguments are in reversed order on the stack (i.e., top of stack is first argument).
twisti@4318	437	// (semantics as described in JVM spec.)
twisti@4318	438	void fcmp2int(Register dst, bool unordered_is_less);
twisti@4318	439	// Variant of the above which allows y to be further down the stack
twisti@4318	440	// and which only pops x and y if specified. If pop_right is
twisti@4318	441	// specified then pop_left must also be specified.
twisti@4318	442	void fcmp2int(Register dst, bool unordered_is_less, int index, bool pop_left, bool pop_right);
twisti@4318	443
twisti@4318	444	// Floating-point remainder for Java (ST0 = ST0 fremr ST1, ST1 is empty afterwards)
twisti@4318	445	// tmp is a temporary register, if none is available use noreg
twisti@4318	446	void fremr(Register tmp);
twisti@4318	447
twisti@4318	448
twisti@4318	449	// same as fcmp2int, but using SSE2
twisti@4318	450	void cmpss2int(XMMRegister opr1, XMMRegister opr2, Register dst, bool unordered_is_less);
twisti@4318	451	void cmpsd2int(XMMRegister opr1, XMMRegister opr2, Register dst, bool unordered_is_less);
twisti@4318	452
twisti@4318	453	// Inlined sin/cos generator for Java; must not use CPU instruction
twisti@4318	454	// directly on Intel as it does not have high enough precision
twisti@4318	455	// outside of the range [-pi/4, pi/4]. Extra argument indicate the
twisti@4318	456	// number of FPU stack slots in use; all but the topmost will
twisti@4318	457	// require saving if a slow case is necessary. Assumes argument is
twisti@4318	458	// on FP TOS; result is on FP TOS. No cpu registers are changed by
twisti@4318	459	// this code.
twisti@4318	460	void trigfunc(char trig, int num_fpu_regs_in_use = 1);
twisti@4318	461
twisti@4318	462	// branch to L if FPU flag C2 is set/not set
twisti@4318	463	// tmp is a temporary register, if none is available use noreg
twisti@4318	464	void jC2 (Register tmp, Label& L);
twisti@4318	465	void jnC2(Register tmp, Label& L);
twisti@4318	466
twisti@4318	467	// Pop ST (ffree & fincstp combined)
twisti@4318	468	void fpop();
twisti@4318	469
twisti@4318	470	// pushes double TOS element of FPU stack on CPU stack; pops from FPU stack
twisti@4318	471	void push_fTOS();
twisti@4318	472
twisti@4318	473	// pops double TOS element from CPU stack and pushes on FPU stack
twisti@4318	474	void pop_fTOS();
twisti@4318	475
twisti@4318	476	void empty_FPU_stack();
twisti@4318	477
twisti@4318	478	void push_IU_state();
twisti@4318	479	void pop_IU_state();
twisti@4318	480
twisti@4318	481	void push_FPU_state();
twisti@4318	482	void pop_FPU_state();
twisti@4318	483
twisti@4318	484	void push_CPU_state();
twisti@4318	485	void pop_CPU_state();
twisti@4318	486
twisti@4318	487	// Round up to a power of two
twisti@4318	488	void round_to(Register reg, int modulus);
twisti@4318	489
twisti@4318	490	// Callee saved registers handling
twisti@4318	491	void push_callee_saved_registers();
twisti@4318	492	void pop_callee_saved_registers();
twisti@4318	493
twisti@4318	494	// allocation
twisti@4318	495	void eden_allocate(
twisti@4318	496	Register obj, // result: pointer to object after successful allocation
twisti@4318	497	Register var_size_in_bytes, // object size in bytes if unknown at compile time; invalid otherwise
twisti@4318	498	int con_size_in_bytes, // object size in bytes if known at compile time
twisti@4318	499	Register t1, // temp register
twisti@4318	500	Label& slow_case // continuation point if fast allocation fails
twisti@4318	501	);
twisti@4318	502	void tlab_allocate(
twisti@4318	503	Register obj, // result: pointer to object after successful allocation
twisti@4318	504	Register var_size_in_bytes, // object size in bytes if unknown at compile time; invalid otherwise
twisti@4318	505	int con_size_in_bytes, // object size in bytes if known at compile time
twisti@4318	506	Register t1, // temp register
twisti@4318	507	Register t2, // temp register
twisti@4318	508	Label& slow_case // continuation point if fast allocation fails
twisti@4318	509	);
twisti@4318	510	Register tlab_refill(Label& retry_tlab, Label& try_eden, Label& slow_case); // returns TLS address
twisti@4318	511	void incr_allocated_bytes(Register thread,
twisti@4318	512	Register var_size_in_bytes, int con_size_in_bytes,
twisti@4318	513	Register t1 = noreg);
twisti@4318	514
twisti@4318	515	// interface method calling
twisti@4318	516	void lookup_interface_method(Register recv_klass,
twisti@4318	517	Register intf_klass,
twisti@4318	518	RegisterOrConstant itable_index,
twisti@4318	519	Register method_result,
twisti@4318	520	Register scan_temp,
twisti@4318	521	Label& no_such_interface);
twisti@4318	522
twisti@4318	523	// virtual method calling
twisti@4318	524	void lookup_virtual_method(Register recv_klass,
twisti@4318	525	RegisterOrConstant vtable_index,
twisti@4318	526	Register method_result);
twisti@4318	527
twisti@4318	528	// Test sub_klass against super_klass, with fast and slow paths.
twisti@4318	529
twisti@4318	530	// The fast path produces a tri-state answer: yes / no / maybe-slow.
twisti@4318	531	// One of the three labels can be NULL, meaning take the fall-through.
twisti@4318	532	// If super_check_offset is -1, the value is loaded up from super_klass.
twisti@4318	533	// No registers are killed, except temp_reg.
twisti@4318	534	void check_klass_subtype_fast_path(Register sub_klass,
twisti@4318	535	Register super_klass,
twisti@4318	536	Register temp_reg,
twisti@4318	537	Label* L_success,
twisti@4318	538	Label* L_failure,
twisti@4318	539	Label* L_slow_path,
twisti@4318	540	RegisterOrConstant super_check_offset = RegisterOrConstant(-1));
twisti@4318	541
twisti@4318	542	// The rest of the type check; must be wired to a corresponding fast path.
twisti@4318	543	// It does not repeat the fast path logic, so don't use it standalone.
twisti@4318	544	// The temp_reg and temp2_reg can be noreg, if no temps are available.
twisti@4318	545	// Updates the sub's secondary super cache as necessary.
twisti@4318	546	// If set_cond_codes, condition codes will be Z on success, NZ on failure.
twisti@4318	547	void check_klass_subtype_slow_path(Register sub_klass,
twisti@4318	548	Register super_klass,
twisti@4318	549	Register temp_reg,
twisti@4318	550	Register temp2_reg,
twisti@4318	551	Label* L_success,
twisti@4318	552	Label* L_failure,
twisti@4318	553	bool set_cond_codes = false);
twisti@4318	554
twisti@4318	555	// Simplified, combined version, good for typical uses.
twisti@4318	556	// Falls through on failure.
twisti@4318	557	void check_klass_subtype(Register sub_klass,
twisti@4318	558	Register super_klass,
twisti@4318	559	Register temp_reg,
twisti@4318	560	Label& L_success);
twisti@4318	561
twisti@4318	562	// method handles (JSR 292)
twisti@4318	563	Address argument_address(RegisterOrConstant arg_slot, int extra_slot_offset = 0);
twisti@4318	564
twisti@4318	565	//----
twisti@4318	566	void set_word_if_not_zero(Register reg); // sets reg to 1 if not zero, otherwise 0
twisti@4318	567
twisti@4318	568	// Debugging
twisti@4318	569
twisti@4318	570	// only if +VerifyOops
twisti@4318	571	// TODO: Make these macros with file and line like sparc version!
twisti@4318	572	void verify_oop(Register reg, const char* s = "broken oop");
twisti@4318	573	void verify_oop_addr(Address addr, const char * s = "broken oop addr");
twisti@4318	574
twisti@4318	575	// TODO: verify method and klass metadata (compare against vptr?)
twisti@4318	576	void _verify_method_ptr(Register reg, const char * msg, const char * file, int line) {}
twisti@4318	577	void _verify_klass_ptr(Register reg, const char * msg, const char * file, int line){}
twisti@4318	578
twisti@4318	579	#define verify_method_ptr(reg) _verify_method_ptr(reg, "broken method " #reg, __FILE__, __LINE__)
twisti@4318	580	#define verify_klass_ptr(reg) _verify_klass_ptr(reg, "broken klass " #reg, __FILE__, __LINE__)
twisti@4318	581
twisti@4318	582	// only if +VerifyFPU
twisti@4318	583	void verify_FPU(int stack_depth, const char* s = "illegal FPU state");
twisti@4318	584
twisti@4318	585	// prints msg, dumps registers and stops execution
twisti@4318	586	void stop(const char* msg);
twisti@4318	587
twisti@4318	588	// prints msg and continues
twisti@4318	589	void warn(const char* msg);
twisti@4318	590
twisti@4318	591	// dumps registers and other state
twisti@4318	592	void print_state();
twisti@4318	593
twisti@4318	594	static void debug32(int rdi, int rsi, int rbp, int rsp, int rbx, int rdx, int rcx, int rax, int eip, char* msg);
twisti@4318	595	static void debug64(char* msg, int64_t pc, int64_t regs[]);
twisti@4318	596	static void print_state32(int rdi, int rsi, int rbp, int rsp, int rbx, int rdx, int rcx, int rax, int eip);
twisti@4318	597	static void print_state64(int64_t pc, int64_t regs[]);
twisti@4318	598
twisti@4318	599	void os_breakpoint();
twisti@4318	600
twisti@4318	601	void untested() { stop("untested"); }
twisti@4318	602
twisti@4318	603	void unimplemented(const char* what = "") { char* b = new char[1024]; jio_snprintf(b, 1024, "unimplemented: %s", what); stop(b); }
twisti@4318	604
twisti@4318	605	void should_not_reach_here() { stop("should not reach here"); }
twisti@4318	606
twisti@4318	607	void print_CPU_state();
twisti@4318	608
twisti@4318	609	// Stack overflow checking
twisti@4318	610	void bang_stack_with_offset(int offset) {
twisti@4318	611	// stack grows down, caller passes positive offset
twisti@4318	612	assert(offset > 0, "must bang with negative offset");
twisti@4318	613	movl(Address(rsp, (-offset)), rax);
twisti@4318	614	}
twisti@4318	615
twisti@4318	616	// Writes to stack successive pages until offset reached to check for
twisti@4318	617	// stack overflow + shadow pages. Also, clobbers tmp
twisti@4318	618	void bang_stack_size(Register size, Register tmp);
twisti@4318	619
twisti@4318	620	virtual RegisterOrConstant delayed_value_impl(intptr_t* delayed_value_addr,
twisti@4318	621	Register tmp,
twisti@4318	622	int offset);
twisti@4318	623
twisti@4318	624	// Support for serializing memory accesses between threads
twisti@4318	625	void serialize_memory(Register thread, Register tmp);
twisti@4318	626
twisti@4318	627	void verify_tlab();
twisti@4318	628
twisti@4318	629	// Biased locking support
twisti@4318	630	// lock_reg and obj_reg must be loaded up with the appropriate values.
twisti@4318	631	// swap_reg must be rax, and is killed.
twisti@4318	632	// tmp_reg is optional. If it is supplied (i.e., != noreg) it will
twisti@4318	633	// be killed; if not supplied, push/pop will be used internally to
twisti@4318	634	// allocate a temporary (inefficient, avoid if possible).
twisti@4318	635	// Optional slow case is for implementations (interpreter and C1) which branch to
twisti@4318	636	// slow case directly. Leaves condition codes set for C2's Fast_Lock node.
twisti@4318	637	// Returns offset of first potentially-faulting instruction for null
twisti@4318	638	// check info (currently consumed only by C1). If
twisti@4318	639	// swap_reg_contains_mark is true then returns -1 as it is assumed
twisti@4318	640	// the calling code has already passed any potential faults.
twisti@4318	641	int biased_locking_enter(Register lock_reg, Register obj_reg,
twisti@4318	642	Register swap_reg, Register tmp_reg,
twisti@4318	643	bool swap_reg_contains_mark,
twisti@4318	644	Label& done, Label* slow_case = NULL,
twisti@4318	645	BiasedLockingCounters* counters = NULL);
twisti@4318	646	void biased_locking_exit (Register obj_reg, Register temp_reg, Label& done);
twisti@4318	647
twisti@4318	648
twisti@4318	649	Condition negate_condition(Condition cond);
twisti@4318	650
twisti@4318	651	// Instructions that use AddressLiteral operands. These instruction can handle 32bit/64bit
twisti@4318	652	// operands. In general the names are modified to avoid hiding the instruction in Assembler
twisti@4318	653	// so that we don't need to implement all the varieties in the Assembler with trivial wrappers
twisti@4318	654	// here in MacroAssembler. The major exception to this rule is call
twisti@4318	655
twisti@4318	656	// Arithmetics
twisti@4318	657
twisti@4318	658
twisti@4318	659	void addptr(Address dst, int32_t src) { LP64_ONLY(addq(dst, src)) NOT_LP64(addl(dst, src)) ; }
twisti@4318	660	void addptr(Address dst, Register src);
twisti@4318	661
twisti@4318	662	void addptr(Register dst, Address src) { LP64_ONLY(addq(dst, src)) NOT_LP64(addl(dst, src)); }
twisti@4318	663	void addptr(Register dst, int32_t src);
twisti@4318	664	void addptr(Register dst, Register src);
twisti@4318	665	void addptr(Register dst, RegisterOrConstant src) {
twisti@4318	666	if (src.is_constant()) addptr(dst, (int) src.as_constant());
twisti@4318	667	else addptr(dst, src.as_register());
twisti@4318	668	}
twisti@4318	669
twisti@4318	670	void andptr(Register dst, int32_t src);
twisti@4318	671	void andptr(Register src1, Register src2) { LP64_ONLY(andq(src1, src2)) NOT_LP64(andl(src1, src2)) ; }
twisti@4318	672
twisti@4318	673	void cmp8(AddressLiteral src1, int imm);
twisti@4318	674
twisti@4318	675	// renamed to drag out the casting of address to int32_t/intptr_t
twisti@4318	676	void cmp32(Register src1, int32_t imm);
twisti@4318	677
twisti@4318	678	void cmp32(AddressLiteral src1, int32_t imm);
twisti@4318	679	// compare reg - mem, or reg - &mem
twisti@4318	680	void cmp32(Register src1, AddressLiteral src2);
twisti@4318	681
twisti@4318	682	void cmp32(Register src1, Address src2);
twisti@4318	683
twisti@4318	684	#ifndef _LP64
twisti@4318	685	void cmpklass(Address dst, Metadata* obj);
twisti@4318	686	void cmpklass(Register dst, Metadata* obj);
twisti@4318	687	void cmpoop(Address dst, jobject obj);
twisti@4318	688	void cmpoop(Register dst, jobject obj);
twisti@4318	689	#endif // _LP64
twisti@4318	690
twisti@4318	691	// NOTE src2 must be the lval. This is NOT an mem-mem compare
twisti@4318	692	void cmpptr(Address src1, AddressLiteral src2);
twisti@4318	693
twisti@4318	694	void cmpptr(Register src1, AddressLiteral src2);
twisti@4318	695
twisti@4318	696	void cmpptr(Register src1, Register src2) { LP64_ONLY(cmpq(src1, src2)) NOT_LP64(cmpl(src1, src2)) ; }
twisti@4318	697	void cmpptr(Register src1, Address src2) { LP64_ONLY(cmpq(src1, src2)) NOT_LP64(cmpl(src1, src2)) ; }
twisti@4318	698	// void cmpptr(Address src1, Register src2) { LP64_ONLY(cmpq(src1, src2)) NOT_LP64(cmpl(src1, src2)) ; }
twisti@4318	699
twisti@4318	700	void cmpptr(Register src1, int32_t src2) { LP64_ONLY(cmpq(src1, src2)) NOT_LP64(cmpl(src1, src2)) ; }
twisti@4318	701	void cmpptr(Address src1, int32_t src2) { LP64_ONLY(cmpq(src1, src2)) NOT_LP64(cmpl(src1, src2)) ; }
twisti@4318	702
twisti@4318	703	// cmp64 to avoild hiding cmpq
twisti@4318	704	void cmp64(Register src1, AddressLiteral src);
twisti@4318	705
twisti@4318	706	void cmpxchgptr(Register reg, Address adr);
twisti@4318	707
twisti@4318	708	void locked_cmpxchgptr(Register reg, AddressLiteral adr);
twisti@4318	709
twisti@4318	710
twisti@4318	711	void imulptr(Register dst, Register src) { LP64_ONLY(imulq(dst, src)) NOT_LP64(imull(dst, src)); }
twisti@4318	712
twisti@4318	713
twisti@4318	714	void negptr(Register dst) { LP64_ONLY(negq(dst)) NOT_LP64(negl(dst)); }
twisti@4318	715
twisti@4318	716	void notptr(Register dst) { LP64_ONLY(notq(dst)) NOT_LP64(notl(dst)); }
twisti@4318	717
twisti@4318	718	void shlptr(Register dst, int32_t shift);
twisti@4318	719	void shlptr(Register dst) { LP64_ONLY(shlq(dst)) NOT_LP64(shll(dst)); }
twisti@4318	720
twisti@4318	721	void shrptr(Register dst, int32_t shift);
twisti@4318	722	void shrptr(Register dst) { LP64_ONLY(shrq(dst)) NOT_LP64(shrl(dst)); }
twisti@4318	723
twisti@4318	724	void sarptr(Register dst) { LP64_ONLY(sarq(dst)) NOT_LP64(sarl(dst)); }
twisti@4318	725	void sarptr(Register dst, int32_t src) { LP64_ONLY(sarq(dst, src)) NOT_LP64(sarl(dst, src)); }
twisti@4318	726
twisti@4318	727	void subptr(Address dst, int32_t src) { LP64_ONLY(subq(dst, src)) NOT_LP64(subl(dst, src)); }
twisti@4318	728
twisti@4318	729	void subptr(Register dst, Address src) { LP64_ONLY(subq(dst, src)) NOT_LP64(subl(dst, src)); }
twisti@4318	730	void subptr(Register dst, int32_t src);
twisti@4318	731	// Force generation of a 4 byte immediate value even if it fits into 8bit
twisti@4318	732	void subptr_imm32(Register dst, int32_t src);
twisti@4318	733	void subptr(Register dst, Register src);
twisti@4318	734	void subptr(Register dst, RegisterOrConstant src) {
twisti@4318	735	if (src.is_constant()) subptr(dst, (int) src.as_constant());
twisti@4318	736	else subptr(dst, src.as_register());
twisti@4318	737	}
twisti@4318	738
twisti@4318	739	void sbbptr(Address dst, int32_t src) { LP64_ONLY(sbbq(dst, src)) NOT_LP64(sbbl(dst, src)); }
twisti@4318	740	void sbbptr(Register dst, int32_t src) { LP64_ONLY(sbbq(dst, src)) NOT_LP64(sbbl(dst, src)); }
twisti@4318	741
twisti@4318	742	void xchgptr(Register src1, Register src2) { LP64_ONLY(xchgq(src1, src2)) NOT_LP64(xchgl(src1, src2)) ; }
twisti@4318	743	void xchgptr(Register src1, Address src2) { LP64_ONLY(xchgq(src1, src2)) NOT_LP64(xchgl(src1, src2)) ; }
twisti@4318	744
twisti@4318	745	void xaddptr(Address src1, Register src2) { LP64_ONLY(xaddq(src1, src2)) NOT_LP64(xaddl(src1, src2)) ; }
twisti@4318	746
twisti@4318	747
twisti@4318	748
twisti@4318	749	// Helper functions for statistics gathering.
twisti@4318	750	// Conditionally (atomically, on MPs) increments passed counter address, preserving condition codes.
twisti@4318	751	void cond_inc32(Condition cond, AddressLiteral counter_addr);
twisti@4318	752	// Unconditional atomic increment.
twisti@4318	753	void atomic_incl(AddressLiteral counter_addr);
twisti@4318	754
twisti@4318	755	void lea(Register dst, AddressLiteral adr);
twisti@4318	756	void lea(Address dst, AddressLiteral adr);
twisti@4318	757	void lea(Register dst, Address adr) { Assembler::lea(dst, adr); }
twisti@4318	758
twisti@4318	759	void leal32(Register dst, Address src) { leal(dst, src); }
twisti@4318	760
twisti@4318	761	// Import other testl() methods from the parent class or else
twisti@4318	762	// they will be hidden by the following overriding declaration.
twisti@4318	763	using Assembler::testl;
twisti@4318	764	void testl(Register dst, AddressLiteral src);
twisti@4318	765
twisti@4318	766	void orptr(Register dst, Address src) { LP64_ONLY(orq(dst, src)) NOT_LP64(orl(dst, src)); }
twisti@4318	767	void orptr(Register dst, Register src) { LP64_ONLY(orq(dst, src)) NOT_LP64(orl(dst, src)); }
twisti@4318	768	void orptr(Register dst, int32_t src) { LP64_ONLY(orq(dst, src)) NOT_LP64(orl(dst, src)); }
twisti@4318	769
twisti@4318	770	void testptr(Register src, int32_t imm32) { LP64_ONLY(testq(src, imm32)) NOT_LP64(testl(src, imm32)); }
twisti@4318	771	void testptr(Register src1, Register src2);
twisti@4318	772
twisti@4318	773	void xorptr(Register dst, Register src) { LP64_ONLY(xorq(dst, src)) NOT_LP64(xorl(dst, src)); }
twisti@4318	774	void xorptr(Register dst, Address src) { LP64_ONLY(xorq(dst, src)) NOT_LP64(xorl(dst, src)); }
twisti@4318	775
twisti@4318	776	// Calls
twisti@4318	777
twisti@4318	778	void call(Label& L, relocInfo::relocType rtype);
twisti@4318	779	void call(Register entry);
twisti@4318	780
twisti@4318	781	// NOTE: this call tranfers to the effective address of entry NOT
twisti@4318	782	// the address contained by entry. This is because this is more natural
twisti@4318	783	// for jumps/calls.
twisti@4318	784	void call(AddressLiteral entry);
twisti@4318	785
twisti@4318	786	// Emit the CompiledIC call idiom
twisti@4318	787	void ic_call(address entry);
twisti@4318	788
twisti@4318	789	// Jumps
twisti@4318	790
twisti@4318	791	// NOTE: these jumps tranfer to the effective address of dst NOT
twisti@4318	792	// the address contained by dst. This is because this is more natural
twisti@4318	793	// for jumps/calls.
twisti@4318	794	void jump(AddressLiteral dst);
twisti@4318	795	void jump_cc(Condition cc, AddressLiteral dst);
twisti@4318	796
twisti@4318	797	// 32bit can do a case table jump in one instruction but we no longer allow the base
twisti@4318	798	// to be installed in the Address class. This jump will tranfers to the address
twisti@4318	799	// contained in the location described by entry (not the address of entry)
twisti@4318	800	void jump(ArrayAddress entry);
twisti@4318	801
twisti@4318	802	// Floating
twisti@4318	803
twisti@4318	804	void andpd(XMMRegister dst, Address src) { Assembler::andpd(dst, src); }
twisti@4318	805	void andpd(XMMRegister dst, AddressLiteral src);
twisti@4318	806
twisti@4318	807	void andps(XMMRegister dst, XMMRegister src) { Assembler::andps(dst, src); }
twisti@4318	808	void andps(XMMRegister dst, Address src) { Assembler::andps(dst, src); }
twisti@4318	809	void andps(XMMRegister dst, AddressLiteral src);
twisti@4318	810
twisti@4318	811	void comiss(XMMRegister dst, XMMRegister src) { Assembler::comiss(dst, src); }
twisti@4318	812	void comiss(XMMRegister dst, Address src) { Assembler::comiss(dst, src); }
twisti@4318	813	void comiss(XMMRegister dst, AddressLiteral src);
twisti@4318	814
twisti@4318	815	void comisd(XMMRegister dst, XMMRegister src) { Assembler::comisd(dst, src); }
twisti@4318	816	void comisd(XMMRegister dst, Address src) { Assembler::comisd(dst, src); }
twisti@4318	817	void comisd(XMMRegister dst, AddressLiteral src);
twisti@4318	818
twisti@4318	819	void fadd_s(Address src) { Assembler::fadd_s(src); }
twisti@4318	820	void fadd_s(AddressLiteral src) { Assembler::fadd_s(as_Address(src)); }
twisti@4318	821
twisti@4318	822	void fldcw(Address src) { Assembler::fldcw(src); }
twisti@4318	823	void fldcw(AddressLiteral src);
twisti@4318	824
twisti@4318	825	void fld_s(int index) { Assembler::fld_s(index); }
twisti@4318	826	void fld_s(Address src) { Assembler::fld_s(src); }
twisti@4318	827	void fld_s(AddressLiteral src);
twisti@4318	828
twisti@4318	829	void fld_d(Address src) { Assembler::fld_d(src); }
twisti@4318	830	void fld_d(AddressLiteral src);
twisti@4318	831
twisti@4318	832	void fld_x(Address src) { Assembler::fld_x(src); }
twisti@4318	833	void fld_x(AddressLiteral src);
twisti@4318	834
twisti@4318	835	void fmul_s(Address src) { Assembler::fmul_s(src); }
twisti@4318	836	void fmul_s(AddressLiteral src) { Assembler::fmul_s(as_Address(src)); }
twisti@4318	837
twisti@4318	838	void ldmxcsr(Address src) { Assembler::ldmxcsr(src); }
twisti@4318	839	void ldmxcsr(AddressLiteral src);
twisti@4318	840
twisti@4318	841	// compute pow(x,y) and exp(x) with x86 instructions. Don't cover
twisti@4318	842	// all corner cases and may result in NaN and require fallback to a
twisti@4318	843	// runtime call.
twisti@4318	844	void fast_pow();
twisti@4318	845	void fast_exp();
twisti@4318	846	void increase_precision();
twisti@4318	847	void restore_precision();
twisti@4318	848
twisti@4318	849	// computes exp(x). Fallback to runtime call included.
twisti@4318	850	void exp_with_fallback(int num_fpu_regs_in_use) { pow_or_exp(true, num_fpu_regs_in_use); }
twisti@4318	851	// computes pow(x,y). Fallback to runtime call included.
twisti@4318	852	void pow_with_fallback(int num_fpu_regs_in_use) { pow_or_exp(false, num_fpu_regs_in_use); }
twisti@4318	853
twisti@4318	854	private:
twisti@4318	855
twisti@4318	856	// call runtime as a fallback for trig functions and pow/exp.
twisti@4318	857	void fp_runtime_fallback(address runtime_entry, int nb_args, int num_fpu_regs_in_use);
twisti@4318	858
twisti@4318	859	// computes 2^(Ylog2X); Ylog2X in ST(0)
twisti@4318	860	void pow_exp_core_encoding();
twisti@4318	861
twisti@4318	862	// computes pow(x,y) or exp(x). Fallback to runtime call included.
twisti@4318	863	void pow_or_exp(bool is_exp, int num_fpu_regs_in_use);
twisti@4318	864
twisti@4318	865	// these are private because users should be doing movflt/movdbl
twisti@4318	866
twisti@4318	867	void movss(Address dst, XMMRegister src) { Assembler::movss(dst, src); }
twisti@4318	868	void movss(XMMRegister dst, XMMRegister src) { Assembler::movss(dst, src); }
twisti@4318	869	void movss(XMMRegister dst, Address src) { Assembler::movss(dst, src); }
twisti@4318	870	void movss(XMMRegister dst, AddressLiteral src);
twisti@4318	871
twisti@4318	872	void movlpd(XMMRegister dst, Address src) {Assembler::movlpd(dst, src); }
twisti@4318	873	void movlpd(XMMRegister dst, AddressLiteral src);
twisti@4318	874
twisti@4318	875	public:
twisti@4318	876
twisti@4318	877	void addsd(XMMRegister dst, XMMRegister src) { Assembler::addsd(dst, src); }
twisti@4318	878	void addsd(XMMRegister dst, Address src) { Assembler::addsd(dst, src); }
twisti@4318	879	void addsd(XMMRegister dst, AddressLiteral src);
twisti@4318	880
twisti@4318	881	void addss(XMMRegister dst, XMMRegister src) { Assembler::addss(dst, src); }
twisti@4318	882	void addss(XMMRegister dst, Address src) { Assembler::addss(dst, src); }
twisti@4318	883	void addss(XMMRegister dst, AddressLiteral src);
twisti@4318	884
twisti@4318	885	void divsd(XMMRegister dst, XMMRegister src) { Assembler::divsd(dst, src); }
twisti@4318	886	void divsd(XMMRegister dst, Address src) { Assembler::divsd(dst, src); }
twisti@4318	887	void divsd(XMMRegister dst, AddressLiteral src);
twisti@4318	888
twisti@4318	889	void divss(XMMRegister dst, XMMRegister src) { Assembler::divss(dst, src); }
twisti@4318	890	void divss(XMMRegister dst, Address src) { Assembler::divss(dst, src); }
twisti@4318	891	void divss(XMMRegister dst, AddressLiteral src);
twisti@4318	892
twisti@4318	893	// Move Unaligned Double Quadword
twisti@4318	894	void movdqu(Address dst, XMMRegister src) { Assembler::movdqu(dst, src); }
twisti@4318	895	void movdqu(XMMRegister dst, Address src) { Assembler::movdqu(dst, src); }
twisti@4318	896	void movdqu(XMMRegister dst, XMMRegister src) { Assembler::movdqu(dst, src); }
twisti@4318	897	void movdqu(XMMRegister dst, AddressLiteral src);
twisti@4318	898
twisti@4318	899	void movsd(XMMRegister dst, XMMRegister src) { Assembler::movsd(dst, src); }
twisti@4318	900	void movsd(Address dst, XMMRegister src) { Assembler::movsd(dst, src); }
twisti@4318	901	void movsd(XMMRegister dst, Address src) { Assembler::movsd(dst, src); }
twisti@4318	902	void movsd(XMMRegister dst, AddressLiteral src);
twisti@4318	903
twisti@4318	904	void mulsd(XMMRegister dst, XMMRegister src) { Assembler::mulsd(dst, src); }
twisti@4318	905	void mulsd(XMMRegister dst, Address src) { Assembler::mulsd(dst, src); }
twisti@4318	906	void mulsd(XMMRegister dst, AddressLiteral src);
twisti@4318	907
twisti@4318	908	void mulss(XMMRegister dst, XMMRegister src) { Assembler::mulss(dst, src); }
twisti@4318	909	void mulss(XMMRegister dst, Address src) { Assembler::mulss(dst, src); }
twisti@4318	910	void mulss(XMMRegister dst, AddressLiteral src);
twisti@4318	911
twisti@4318	912	void sqrtsd(XMMRegister dst, XMMRegister src) { Assembler::sqrtsd(dst, src); }
twisti@4318	913	void sqrtsd(XMMRegister dst, Address src) { Assembler::sqrtsd(dst, src); }
twisti@4318	914	void sqrtsd(XMMRegister dst, AddressLiteral src);
twisti@4318	915
twisti@4318	916	void sqrtss(XMMRegister dst, XMMRegister src) { Assembler::sqrtss(dst, src); }
twisti@4318	917	void sqrtss(XMMRegister dst, Address src) { Assembler::sqrtss(dst, src); }
twisti@4318	918	void sqrtss(XMMRegister dst, AddressLiteral src);
twisti@4318	919
twisti@4318	920	void subsd(XMMRegister dst, XMMRegister src) { Assembler::subsd(dst, src); }
twisti@4318	921	void subsd(XMMRegister dst, Address src) { Assembler::subsd(dst, src); }
twisti@4318	922	void subsd(XMMRegister dst, AddressLiteral src);
twisti@4318	923
twisti@4318	924	void subss(XMMRegister dst, XMMRegister src) { Assembler::subss(dst, src); }
twisti@4318	925	void subss(XMMRegister dst, Address src) { Assembler::subss(dst, src); }
twisti@4318	926	void subss(XMMRegister dst, AddressLiteral src);
twisti@4318	927
twisti@4318	928	void ucomiss(XMMRegister dst, XMMRegister src) { Assembler::ucomiss(dst, src); }
twisti@4318	929	void ucomiss(XMMRegister dst, Address src) { Assembler::ucomiss(dst, src); }
twisti@4318	930	void ucomiss(XMMRegister dst, AddressLiteral src);
twisti@4318	931
twisti@4318	932	void ucomisd(XMMRegister dst, XMMRegister src) { Assembler::ucomisd(dst, src); }
twisti@4318	933	void ucomisd(XMMRegister dst, Address src) { Assembler::ucomisd(dst, src); }
twisti@4318	934	void ucomisd(XMMRegister dst, AddressLiteral src);
twisti@4318	935
twisti@4318	936	// Bitwise Logical XOR of Packed Double-Precision Floating-Point Values
twisti@4318	937	void xorpd(XMMRegister dst, XMMRegister src) { Assembler::xorpd(dst, src); }
twisti@4318	938	void xorpd(XMMRegister dst, Address src) { Assembler::xorpd(dst, src); }
twisti@4318	939	void xorpd(XMMRegister dst, AddressLiteral src);
twisti@4318	940
twisti@4318	941	// Bitwise Logical XOR of Packed Single-Precision Floating-Point Values
twisti@4318	942	void xorps(XMMRegister dst, XMMRegister src) { Assembler::xorps(dst, src); }
twisti@4318	943	void xorps(XMMRegister dst, Address src) { Assembler::xorps(dst, src); }
twisti@4318	944	void xorps(XMMRegister dst, AddressLiteral src);
twisti@4318	945
twisti@4318	946	// Shuffle Bytes
twisti@4318	947	void pshufb(XMMRegister dst, XMMRegister src) { Assembler::pshufb(dst, src); }
twisti@4318	948	void pshufb(XMMRegister dst, Address src) { Assembler::pshufb(dst, src); }
twisti@4318	949	void pshufb(XMMRegister dst, AddressLiteral src);
twisti@4318	950	// AVX 3-operands instructions
twisti@4318	951
twisti@4318	952	void vaddsd(XMMRegister dst, XMMRegister nds, XMMRegister src) { Assembler::vaddsd(dst, nds, src); }
twisti@4318	953	void vaddsd(XMMRegister dst, XMMRegister nds, Address src) { Assembler::vaddsd(dst, nds, src); }
twisti@4318	954	void vaddsd(XMMRegister dst, XMMRegister nds, AddressLiteral src);
twisti@4318	955
twisti@4318	956	void vaddss(XMMRegister dst, XMMRegister nds, XMMRegister src) { Assembler::vaddss(dst, nds, src); }
twisti@4318	957	void vaddss(XMMRegister dst, XMMRegister nds, Address src) { Assembler::vaddss(dst, nds, src); }
twisti@4318	958	void vaddss(XMMRegister dst, XMMRegister nds, AddressLiteral src);
twisti@4318	959
twisti@4318	960	void vandpd(XMMRegister dst, XMMRegister nds, XMMRegister src, bool vector256) { Assembler::vandpd(dst, nds, src, vector256); }
twisti@4318	961	void vandpd(XMMRegister dst, XMMRegister nds, Address src, bool vector256) { Assembler::vandpd(dst, nds, src, vector256); }
twisti@4318	962	void vandpd(XMMRegister dst, XMMRegister nds, AddressLiteral src, bool vector256);
twisti@4318	963
twisti@4318	964	void vandps(XMMRegister dst, XMMRegister nds, XMMRegister src, bool vector256) { Assembler::vandps(dst, nds, src, vector256); }
twisti@4318	965	void vandps(XMMRegister dst, XMMRegister nds, Address src, bool vector256) { Assembler::vandps(dst, nds, src, vector256); }
twisti@4318	966	void vandps(XMMRegister dst, XMMRegister nds, AddressLiteral src, bool vector256);
twisti@4318	967
twisti@4318	968	void vdivsd(XMMRegister dst, XMMRegister nds, XMMRegister src) { Assembler::vdivsd(dst, nds, src); }
twisti@4318	969	void vdivsd(XMMRegister dst, XMMRegister nds, Address src) { Assembler::vdivsd(dst, nds, src); }
twisti@4318	970	void vdivsd(XMMRegister dst, XMMRegister nds, AddressLiteral src);
twisti@4318	971
twisti@4318	972	void vdivss(XMMRegister dst, XMMRegister nds, XMMRegister src) { Assembler::vdivss(dst, nds, src); }
twisti@4318	973	void vdivss(XMMRegister dst, XMMRegister nds, Address src) { Assembler::vdivss(dst, nds, src); }
twisti@4318	974	void vdivss(XMMRegister dst, XMMRegister nds, AddressLiteral src);
twisti@4318	975
twisti@4318	976	void vmulsd(XMMRegister dst, XMMRegister nds, XMMRegister src) { Assembler::vmulsd(dst, nds, src); }
twisti@4318	977	void vmulsd(XMMRegister dst, XMMRegister nds, Address src) { Assembler::vmulsd(dst, nds, src); }
twisti@4318	978	void vmulsd(XMMRegister dst, XMMRegister nds, AddressLiteral src);
twisti@4318	979
twisti@4318	980	void vmulss(XMMRegister dst, XMMRegister nds, XMMRegister src) { Assembler::vmulss(dst, nds, src); }
twisti@4318	981	void vmulss(XMMRegister dst, XMMRegister nds, Address src) { Assembler::vmulss(dst, nds, src); }
twisti@4318	982	void vmulss(XMMRegister dst, XMMRegister nds, AddressLiteral src);
twisti@4318	983
twisti@4318	984	void vsubsd(XMMRegister dst, XMMRegister nds, XMMRegister src) { Assembler::vsubsd(dst, nds, src); }
twisti@4318	985	void vsubsd(XMMRegister dst, XMMRegister nds, Address src) { Assembler::vsubsd(dst, nds, src); }
twisti@4318	986	void vsubsd(XMMRegister dst, XMMRegister nds, AddressLiteral src);
twisti@4318	987
twisti@4318	988	void vsubss(XMMRegister dst, XMMRegister nds, XMMRegister src) { Assembler::vsubss(dst, nds, src); }
twisti@4318	989	void vsubss(XMMRegister dst, XMMRegister nds, Address src) { Assembler::vsubss(dst, nds, src); }
twisti@4318	990	void vsubss(XMMRegister dst, XMMRegister nds, AddressLiteral src);
twisti@4318	991
twisti@4318	992	// AVX Vector instructions
twisti@4318	993
twisti@4318	994	void vxorpd(XMMRegister dst, XMMRegister nds, XMMRegister src, bool vector256) { Assembler::vxorpd(dst, nds, src, vector256); }
twisti@4318	995	void vxorpd(XMMRegister dst, XMMRegister nds, Address src, bool vector256) { Assembler::vxorpd(dst, nds, src, vector256); }
twisti@4318	996	void vxorpd(XMMRegister dst, XMMRegister nds, AddressLiteral src, bool vector256);
twisti@4318	997
twisti@4318	998	void vxorps(XMMRegister dst, XMMRegister nds, XMMRegister src, bool vector256) { Assembler::vxorps(dst, nds, src, vector256); }
twisti@4318	999	void vxorps(XMMRegister dst, XMMRegister nds, Address src, bool vector256) { Assembler::vxorps(dst, nds, src, vector256); }
twisti@4318	1000	void vxorps(XMMRegister dst, XMMRegister nds, AddressLiteral src, bool vector256);
twisti@4318	1001
twisti@4318	1002	void vpxor(XMMRegister dst, XMMRegister nds, XMMRegister src, bool vector256) {
twisti@4318	1003	if (UseAVX > 1 || !vector256) // vpxor 256 bit is available only in AVX2
twisti@4318	1004	Assembler::vpxor(dst, nds, src, vector256);
twisti@4318	1005	else
twisti@4318	1006	Assembler::vxorpd(dst, nds, src, vector256);
twisti@4318	1007	}
twisti@4318	1008	void vpxor(XMMRegister dst, XMMRegister nds, Address src, bool vector256) {
twisti@4318	1009	if (UseAVX > 1 || !vector256) // vpxor 256 bit is available only in AVX2
twisti@4318	1010	Assembler::vpxor(dst, nds, src, vector256);
twisti@4318	1011	else
twisti@4318	1012	Assembler::vxorpd(dst, nds, src, vector256);
twisti@4318	1013	}
twisti@4318	1014
kvn@4413	1015	// Simple version for AVX2 256bit vectors
kvn@4413	1016	void vpxor(XMMRegister dst, XMMRegister src) { Assembler::vpxor(dst, dst, src, true); }
kvn@4413	1017	void vpxor(XMMRegister dst, Address src) { Assembler::vpxor(dst, dst, src, true); }
kvn@4413	1018
twisti@4318	1019	// Move packed integer values from low 128 bit to hign 128 bit in 256 bit vector.
twisti@4318	1020	void vinserti128h(XMMRegister dst, XMMRegister nds, XMMRegister src) {
twisti@4318	1021	if (UseAVX > 1) // vinserti128h is available only in AVX2
twisti@4318	1022	Assembler::vinserti128h(dst, nds, src);
twisti@4318	1023	else
twisti@4318	1024	Assembler::vinsertf128h(dst, nds, src);
twisti@4318	1025	}
twisti@4318	1026
twisti@4318	1027	// Data
twisti@4318	1028
twisti@4318	1029	void cmov32( Condition cc, Register dst, Address src);
twisti@4318	1030	void cmov32( Condition cc, Register dst, Register src);
twisti@4318	1031
twisti@4318	1032	void cmov( Condition cc, Register dst, Register src) { cmovptr(cc, dst, src); }
twisti@4318	1033
twisti@4318	1034	void cmovptr(Condition cc, Register dst, Address src) { LP64_ONLY(cmovq(cc, dst, src)) NOT_LP64(cmov32(cc, dst, src)); }
twisti@4318	1035	void cmovptr(Condition cc, Register dst, Register src) { LP64_ONLY(cmovq(cc, dst, src)) NOT_LP64(cmov32(cc, dst, src)); }
twisti@4318	1036
twisti@4318	1037	void movoop(Register dst, jobject obj);
twisti@4318	1038	void movoop(Address dst, jobject obj);
twisti@4318	1039
twisti@4318	1040	void mov_metadata(Register dst, Metadata* obj);
twisti@4318	1041	void mov_metadata(Address dst, Metadata* obj);
twisti@4318	1042
twisti@4318	1043	void movptr(ArrayAddress dst, Register src);
twisti@4318	1044	// can this do an lea?
twisti@4318	1045	void movptr(Register dst, ArrayAddress src);
twisti@4318	1046
twisti@4318	1047	void movptr(Register dst, Address src);
twisti@4318	1048
twisti@4318	1049	void movptr(Register dst, AddressLiteral src);
twisti@4318	1050
twisti@4318	1051	void movptr(Register dst, intptr_t src);
twisti@4318	1052	void movptr(Register dst, Register src);
twisti@4318	1053	void movptr(Address dst, intptr_t src);
twisti@4318	1054
twisti@4318	1055	void movptr(Address dst, Register src);
twisti@4318	1056
twisti@4318	1057	void movptr(Register dst, RegisterOrConstant src) {
twisti@4318	1058	if (src.is_constant()) movptr(dst, src.as_constant());
twisti@4318	1059	else movptr(dst, src.as_register());
twisti@4318	1060	}
twisti@4318	1061
twisti@4318	1062	#ifdef _LP64
twisti@4318	1063	// Generally the next two are only used for moving NULL
twisti@4318	1064	// Although there are situations in initializing the mark word where
twisti@4318	1065	// they could be used. They are dangerous.
twisti@4318	1066
twisti@4318	1067	// They only exist on LP64 so that int32_t and intptr_t are not the same
twisti@4318	1068	// and we have ambiguous declarations.
twisti@4318	1069
twisti@4318	1070	void movptr(Address dst, int32_t imm32);
twisti@4318	1071	void movptr(Register dst, int32_t imm32);
twisti@4318	1072	#endif // _LP64
twisti@4318	1073
twisti@4318	1074	// to avoid hiding movl
twisti@4318	1075	void mov32(AddressLiteral dst, Register src);
twisti@4318	1076	void mov32(Register dst, AddressLiteral src);
twisti@4318	1077
twisti@4318	1078	// to avoid hiding movb
twisti@4318	1079	void movbyte(ArrayAddress dst, int src);
twisti@4318	1080
twisti@4318	1081	// Import other mov() methods from the parent class or else
twisti@4318	1082	// they will be hidden by the following overriding declaration.
twisti@4318	1083	using Assembler::movdl;
twisti@4318	1084	using Assembler::movq;
twisti@4318	1085	void movdl(XMMRegister dst, AddressLiteral src);
twisti@4318	1086	void movq(XMMRegister dst, AddressLiteral src);
twisti@4318	1087
twisti@4318	1088	// Can push value or effective address
twisti@4318	1089	void pushptr(AddressLiteral src);
twisti@4318	1090
twisti@4318	1091	void pushptr(Address src) { LP64_ONLY(pushq(src)) NOT_LP64(pushl(src)); }
twisti@4318	1092	void popptr(Address src) { LP64_ONLY(popq(src)) NOT_LP64(popl(src)); }
twisti@4318	1093
twisti@4318	1094	void pushoop(jobject obj);
twisti@4318	1095	void pushklass(Metadata* obj);
twisti@4318	1096
twisti@4318	1097	// sign extend as need a l to ptr sized element
twisti@4318	1098	void movl2ptr(Register dst, Address src) { LP64_ONLY(movslq(dst, src)) NOT_LP64(movl(dst, src)); }
twisti@4318	1099	void movl2ptr(Register dst, Register src) { LP64_ONLY(movslq(dst, src)) NOT_LP64(if (dst != src) movl(dst, src)); }
twisti@4318	1100
twisti@4318	1101	// C2 compiled method's prolog code.
twisti@4318	1102	void verified_entry(int framesize, bool stack_bang, bool fp_mode_24b);
twisti@4318	1103
kvn@4410	1104	// clear memory of size 'cnt' qwords, starting at 'base'.
kvn@4410	1105	void clear_mem(Register base, Register cnt, Register rtmp);
kvn@4410	1106
twisti@4318	1107	// IndexOf strings.
twisti@4318	1108	// Small strings are loaded through stack if they cross page boundary.
twisti@4318	1109	void string_indexof(Register str1, Register str2,
twisti@4318	1110	Register cnt1, Register cnt2,
twisti@4318	1111	int int_cnt2, Register result,
twisti@4318	1112	XMMRegister vec, Register tmp);
twisti@4318	1113
twisti@4318	1114	// IndexOf for constant substrings with size >= 8 elements
twisti@4318	1115	// which don't need to be loaded through stack.
twisti@4318	1116	void string_indexofC8(Register str1, Register str2,
twisti@4318	1117	Register cnt1, Register cnt2,
twisti@4318	1118	int int_cnt2, Register result,
twisti@4318	1119	XMMRegister vec, Register tmp);
twisti@4318	1120
twisti@4318	1121	// Smallest code: we don't need to load through stack,
twisti@4318	1122	// check string tail.
twisti@4318	1123
twisti@4318	1124	// Compare strings.
twisti@4318	1125	void string_compare(Register str1, Register str2,
twisti@4318	1126	Register cnt1, Register cnt2, Register result,
twisti@4318	1127	XMMRegister vec1);
twisti@4318	1128
twisti@4318	1129	// Compare char[] arrays.
twisti@4318	1130	void char_arrays_equals(bool is_array_equ, Register ary1, Register ary2,
twisti@4318	1131	Register limit, Register result, Register chr,
twisti@4318	1132	XMMRegister vec1, XMMRegister vec2);
twisti@4318	1133
twisti@4318	1134	// Fill primitive arrays
twisti@4318	1135	void generate_fill(BasicType t, bool aligned,
twisti@4318	1136	Register to, Register value, Register count,
twisti@4318	1137	Register rtmp, XMMRegister xtmp);
twisti@4318	1138
twisti@4318	1139	#undef VIRTUAL
twisti@4318	1140
twisti@4318	1141	};
twisti@4318	1142
twisti@4318	1143	/**
twisti@4318	1144	* class SkipIfEqual:
twisti@4318	1145	*
twisti@4318	1146	* Instantiating this class will result in assembly code being output that will
twisti@4318	1147	* jump around any code emitted between the creation of the instance and it's
twisti@4318	1148	* automatic destruction at the end of a scope block, depending on the value of
twisti@4318	1149	* the flag passed to the constructor, which will be checked at run-time.
twisti@4318	1150	*/
twisti@4318	1151	class SkipIfEqual {
twisti@4318	1152	private:
twisti@4318	1153	MacroAssembler* _masm;
twisti@4318	1154	Label _label;
twisti@4318	1155
twisti@4318	1156	public:
twisti@4318	1157	SkipIfEqual(MacroAssembler*, const bool* flag_addr, bool value);
twisti@4318	1158	~SkipIfEqual();
twisti@4318	1159	};
twisti@4318	1160
twisti@4318	1161	#endif // CPU_X86_VM_MACROASSEMBLER_X86_HPP