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src/share/vm/adlc/formsopt.hpp@2c6ef90f030a (annotated)

src/share/vm/adlc/formsopt.hpp

Mon, 07 Jul 2014 10:12:40 +0200

author

stefank

date

Mon, 07 Jul 2014 10:12:40 +0200

changeset 6992

2c6ef90f030a

parent 3317

db2e64ca2d5a

child 6876

710a3c8b516e

child 7853

a1642365d69f

permissions

-rw-r--r--

8049421: G1 Class Unloading after completing a concurrent mark cycle
Reviewed-by: tschatzl, ehelin, brutisso, coleenp, roland, iveresov
Contributed-by: stefan.karlsson@oracle.com, mikael.gerdin@oracle.com

duke@435	1	/*
stefank@2314	2	* Copyright (c) 1998, 2010, Oracle and/or its affiliates. All rights reserved.
duke@435	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
duke@435	4	*
duke@435	5	* This code is free software; you can redistribute it and/or modify it
duke@435	6	* under the terms of the GNU General Public License version 2 only, as
duke@435	7	* published by the Free Software Foundation.
duke@435	8	*
duke@435	9	* This code is distributed in the hope that it will be useful, but WITHOUT
duke@435	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
duke@435	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
duke@435	12	* version 2 for more details (a copy is included in the LICENSE file that
duke@435	13	* accompanied this code).
duke@435	14	*
duke@435	15	* You should have received a copy of the GNU General Public License version
duke@435	16	* 2 along with this work; if not, write to the Free Software Foundation,
duke@435	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
duke@435	18	*
trims@1907	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
trims@1907	20	* or visit www.oracle.com if you need additional information or have any
trims@1907	21	* questions.
duke@435	22	*
duke@435	23	*/
duke@435	24
stefank@2314	25	#ifndef SHARE_VM_ADLC_FORMSOPT_HPP
stefank@2314	26	#define SHARE_VM_ADLC_FORMSOPT_HPP
stefank@2314	27
duke@435	28	// FORMSOPT.HPP - ADL Parser Target Specific Optimization Forms Classes
duke@435	29
duke@435	30	// Class List
duke@435	31	class Form;
duke@435	32	class InstructForm;
duke@435	33	class OperandForm;
duke@435	34	class OpClassForm;
duke@435	35	class AttributeForm;
duke@435	36	class RegisterForm;
duke@435	37	class PipelineForm;
duke@435	38	class SourceForm;
duke@435	39	class EncodeForm;
duke@435	40	class Component;
duke@435	41	class Constraint;
duke@435	42	class Predicate;
duke@435	43	class MatchRule;
duke@435	44	class Attribute;
duke@435	45	class Effect;
duke@435	46	class ExpandRule;
duke@435	47	class RewriteRule;
duke@435	48	class ConstructRule;
duke@435	49	class FormatRule;
duke@435	50	class Peephole;
duke@435	51	class PeepMatch;
duke@435	52	class PeepConstraint;
duke@435	53	class EncClass;
duke@435	54	class Interface;
duke@435	55	class RegInterface;
duke@435	56	class ConstInterface;
duke@435	57	class MemInterface;
duke@435	58	class CondInterface;
duke@435	59	class Opcode;
duke@435	60	class InsEncode;
duke@435	61	class RegDef;
duke@435	62	class RegClass;
duke@435	63	class AllocClass;
duke@435	64	class ResourceForm;
duke@435	65	class PipeClassForm;
duke@435	66	class PipeClassOperandForm;
duke@435	67	class PipeClassResourceForm;
duke@435	68	class PeepMatch;
duke@435	69	class PeepConstraint;
duke@435	70	class PeepReplace;
duke@435	71	class MatchList;
duke@435	72
duke@435	73	class ArchDesc;
duke@435	74
duke@435	75	//==============================Register Allocation============================
duke@435	76	//------------------------------RegisterForm-----------------------------------
duke@435	77	class RegisterForm : public Form {
duke@435	78	private:
duke@435	79	AllocClass *_current_ac; // State used by iter_RegDefs()
duke@435	80
duke@435	81	public:
duke@435	82	// Public Data
duke@435	83	NameList _rdefs; // List of register definition names
duke@435	84	Dict _regDef; // map register name to RegDef*
duke@435	85
duke@435	86	NameList _rclasses; // List of register class names
duke@435	87	Dict _regClass; // map register class name to RegClass*
duke@435	88
duke@435	89	NameList _aclasses; // List of allocation class names
duke@435	90	Dict _allocClass; // Dictionary of allocation classes
duke@435	91
duke@435	92	static int _reg_ctr; // Register counter
duke@435	93	static int RegMask_Size(); // Compute RegMask size
duke@435	94
duke@435	95	// Public Methods
duke@435	96	RegisterForm();
duke@435	97	~RegisterForm();
duke@435	98
duke@435	99	void addRegDef(char *regName, char *callingConv, char *c_conv,
duke@435	100	char * idealtype, char *encoding, char* concreteName);
duke@435	101	RegClass *addRegClass(const char *className);
duke@435	102	AllocClass *addAllocClass(char *allocName);
duke@435	103	void addSpillRegClass();
duke@435	104
duke@435	105	// Provide iteration over all register definitions
duke@435	106	// in the order used by the register allocator
duke@435	107	void reset_RegDefs();
duke@435	108	RegDef *iter_RegDefs();
duke@435	109	RegDef *getRegDef (const char *regName);
duke@435	110
duke@435	111	RegClass *getRegClass(const char *className);
duke@435	112
duke@435	113	// Return register mask, compressed chunk and register #
duke@435	114	uint reg_mask(char *register_class);
duke@435	115
duke@435	116	// Check that register classes are compatible with chunks
duke@435	117	bool verify();
duke@435	118
duke@435	119	void dump(); // Debug printer
duke@435	120	void output(FILE *fp); // Write info to output files
duke@435	121	};
duke@435	122
duke@435	123	//------------------------------RegDef-----------------------------------------
duke@435	124	class RegDef : public Form {
duke@435	125	public:
duke@435	126	// Public Data
duke@435	127	const char *_regname; // ADLC (Opto) Register name
duke@435	128	const char *_callconv; // Calling convention
duke@435	129	const char *_c_conv; // Native calling convention, 'C'
duke@435	130	const char *_idealtype; // Ideal Type for register save/restore
duke@435	131	const char *_concrete; // concrete register name
duke@435	132
duke@435	133	private:
duke@435	134	const char *_register_encode; // The register encoding
duke@435	135	// The chunk and register mask bits define info for register allocation
duke@435	136	uint32 _register_num; // Which register am I
duke@435	137
duke@435	138	public:
duke@435	139	// Public Methods
duke@435	140	RegDef(char *regname, char *callconv, char *c_conv,
duke@435	141	char *idealtype, char *encoding, char *concrete);
duke@435	142	~RegDef(); // Destructor
duke@435	143
duke@435	144	// Interface to define/redefine the register number
duke@435	145	void set_register_num(uint32 new_register_num);
duke@435	146
duke@435	147	// Bit pattern used for generating machine code
duke@435	148	const char *register_encode() const;
duke@435	149	// Register number used in machine-independent code
duke@435	150	uint32 register_num() const;
duke@435	151
duke@435	152	void dump(); // Debug printer
duke@435	153	void output(FILE *fp); // Write info to output files
duke@435	154	};
duke@435	155
duke@435	156	//------------------------------RegClass---------------------------------------
duke@435	157	class RegClass : public Form {
duke@435	158	public:
duke@435	159	// Public Data
duke@435	160	const char *_classid; // Name of class
duke@435	161	NameList _regDefs; // List of registers in class
duke@435	162	Dict _regDef; // Dictionary of registers in class
duke@435	163	bool _stack_or_reg; // Allowed on any stack slot
roland@3317	164	char* _user_defined;
duke@435	165
duke@435	166	// Public Methods
duke@435	167	RegClass(const char *classid);// Constructor
duke@435	168
duke@435	169	void addReg(RegDef *regDef); // Add a register to this class
duke@435	170
duke@435	171	uint size() const; // Number of registers in class
duke@435	172	int regs_in_word( int wordnum, bool stack_also );
duke@435	173
duke@435	174	const RegDef *get_RegDef(const char *regDef_name) const;
duke@435	175
duke@435	176	// Returns the lowest numbered register in the mask.
duke@435	177	const RegDef* find_first_elem();
duke@435	178
duke@435	179	// Iteration support
duke@435	180	void reset(); // Reset the following two iterators
duke@435	181	RegDef *RegDef_iter(); // which move jointly,
duke@435	182	const char *rd_name_iter(); // invoking either advances both.
duke@435	183
duke@435	184	void dump(); // Debug printer
duke@435	185	void output(FILE *fp); // Write info to output files
duke@435	186	};
duke@435	187
duke@435	188	//------------------------------AllocClass-------------------------------------
duke@435	189	class AllocClass : public Form {
duke@435	190	private:
duke@435	191
duke@435	192	public:
duke@435	193	// Public Data
duke@435	194	char *_classid; // Name of class
duke@435	195	NameList _regDefs; // List of registers in class
duke@435	196	Dict _regDef; // Dictionary of registers in class
duke@435	197
duke@435	198	// Public Methods
duke@435	199	AllocClass(char *classid); // Constructor
duke@435	200
duke@435	201	void addReg(RegDef *regDef); // Add a register to this class
duke@435	202	uint size() {return _regDef.Size();} // Number of registers in class
duke@435	203
duke@435	204	void dump(); // Debug printer
duke@435	205	void output(FILE *fp); // Write info to output files
duke@435	206	};
duke@435	207
duke@435	208
duke@435	209	//==============================Frame Handling================================
duke@435	210	//------------------------------FrameForm-------------------------------------
duke@435	211	class FrameForm : public Form {
duke@435	212	private:
duke@435	213
duke@435	214	public:
duke@435	215	// Public Data
duke@435	216	bool _direction; // Direction of stack growth
duke@435	217	char *_sync_stack_slots;
duke@435	218	char *_inline_cache_reg;
duke@435	219	char *_interpreter_method_oop_reg;
duke@435	220	char *_interpreter_frame_pointer_reg;
duke@435	221	char *_cisc_spilling_operand_name;
duke@435	222	char *_frame_pointer;
duke@435	223	char *_c_frame_pointer;
duke@435	224	char *_alignment;
duke@435	225	bool _return_addr_loc;
duke@435	226	bool _c_return_addr_loc;
duke@435	227	char *_return_addr;
duke@435	228	char *_c_return_addr;
duke@435	229	char *_in_preserve_slots;
duke@435	230	char *_varargs_C_out_slots_killed;
duke@435	231	char *_calling_convention;
duke@435	232	char *_c_calling_convention;
duke@435	233	char *_return_value;
duke@435	234	char *_c_return_value;
duke@435	235
duke@435	236	// Public Methods
duke@435	237	FrameForm();
duke@435	238	~FrameForm();
duke@435	239
duke@435	240	void dump(); // Debug printer
duke@435	241	void output(FILE *fp); // Write info to output files
duke@435	242	};
duke@435	243
duke@435	244
duke@435	245	//==============================Scheduling=====================================
duke@435	246	//------------------------------PipelineForm-----------------------------------
duke@435	247	class PipelineForm : public Form {
duke@435	248	private:
duke@435	249
duke@435	250	public:
duke@435	251	// Public Data
duke@435	252	NameList _reslist; // List of pipeline resources
duke@435	253	FormDict _resdict; // Resource Name -> ResourceForm mapping
duke@435	254	int _rescount; // Number of resources (ignores OR cases)
duke@435	255	int _maxcycleused; // Largest cycle used relative to beginning of instruction
duke@435	256
duke@435	257	NameList _stages; // List of pipeline stages on architecture
duke@435	258	int _stagecnt; // Number of stages listed
duke@435	259
duke@435	260	NameList _classlist; // List of pipeline classes
duke@435	261	FormDict _classdict; // Class Name -> PipeClassForm mapping
duke@435	262	int _classcnt; // Number of classes
duke@435	263
duke@435	264	NameList _noplist; // List of NOP instructions
duke@435	265	int _nopcnt; // Number of nop instructions
duke@435	266
duke@435	267	bool _variableSizeInstrs; // Indicates if this architecture has variable sized instructions
duke@435	268	bool _branchHasDelaySlot; // Indicates that branches have delay slot instructions
duke@435	269	int _maxInstrsPerBundle; // Indicates the maximum number of instructions for ILP
duke@435	270	int _maxBundlesPerCycle; // Indicates the maximum number of bundles for ILP
duke@435	271	int _instrUnitSize; // The minimum instruction unit size, in bytes
duke@435	272	int _bundleUnitSize; // The bundle unit size, in bytes
duke@435	273	int _instrFetchUnitSize; // The size of the I-fetch unit, in bytes [must be power of 2]
duke@435	274	int _instrFetchUnits; // The number of I-fetch units processed per cycle
duke@435	275
duke@435	276	// Public Methods
duke@435	277	PipelineForm();
duke@435	278	~PipelineForm();
duke@435	279
duke@435	280	void dump(); // Debug printer
duke@435	281	void output(FILE *fp); // Write info to output files
duke@435	282	};
duke@435	283
duke@435	284	//------------------------------ResourceForm-----------------------------------
duke@435	285	class ResourceForm : public Form {
duke@435	286	public:
duke@435	287	unsigned mask() const { return _resmask; };
duke@435	288
duke@435	289	private:
duke@435	290	// Public Data
duke@435	291	unsigned _resmask; // Resource Mask (OR of resource specifier bits)
duke@435	292
duke@435	293	public:
duke@435	294
duke@435	295	// Virtual Methods
duke@435	296	virtual ResourceForm *is_resource() const;
duke@435	297
duke@435	298	// Public Methods
duke@435	299	ResourceForm(unsigned resmask); // Constructor
duke@435	300	~ResourceForm(); // Destructor
duke@435	301
duke@435	302	void dump(); // Debug printer
duke@435	303	void output(FILE *fp); // Write info to output files
duke@435	304	};
duke@435	305
duke@435	306	//------------------------------PipeClassOperandForm-----------------------------
duke@435	307	class PipeClassOperandForm : public Form {
duke@435	308	private:
duke@435	309
duke@435	310	public:
duke@435	311	// Public Data
duke@435	312	const char *_stage; // Name of Stage
duke@435	313	unsigned _iswrite; // Read or Write
duke@435	314	unsigned _more_instrs; // Additional Instructions
duke@435	315
duke@435	316	// Public Methods
duke@435	317	PipeClassOperandForm(const char *stage, unsigned iswrite, unsigned more_instrs)
duke@435	318	: _stage(stage)
duke@435	319	, _iswrite(iswrite)
duke@435	320	, _more_instrs(more_instrs)
duke@435	321	{};
duke@435	322
duke@435	323	~PipeClassOperandForm() {}; // Destructor
duke@435	324
duke@435	325	bool isWrite() const { return _iswrite != 0; }
duke@435	326
duke@435	327	void dump(); // Debug printer
duke@435	328	void output(FILE *fp); // Write info to output files
duke@435	329	};
duke@435	330
duke@435	331	//------------------------------PipeClassResourceForm--------------------------
duke@435	332	class PipeClassResourceForm : public Form {
duke@435	333	private:
duke@435	334
duke@435	335	public:
duke@435	336	// Public Data
duke@435	337	const char *_resource; // Resource
duke@435	338	const char *_stage; // Stage the resource is used in
duke@435	339	int _cycles; // Number of cycles the resource is used
duke@435	340
duke@435	341	// Public Methods
duke@435	342	PipeClassResourceForm(const char *resource, const char *stage, int cycles)
duke@435	343	// Constructor
duke@435	344	: _resource(resource)
duke@435	345	, _stage(stage)
duke@435	346	, _cycles(cycles)
duke@435	347	{};
duke@435	348
duke@435	349	~PipeClassResourceForm() {}; // Destructor
duke@435	350
duke@435	351	void dump(); // Debug printer
duke@435	352	void output(FILE *fp); // Write info to output files
duke@435	353	};
duke@435	354
duke@435	355	//------------------------------PipeClassForm----------------------------------
duke@435	356	class PipeClassForm : public Form {
duke@435	357	private:
duke@435	358
duke@435	359	public:
duke@435	360
duke@435	361	// Public Data
duke@435	362	const char *_ident; // Name of class
duke@435	363	int _num; // Used in name of MachNode subclass
duke@435	364	NameList _parameters; // Locally defined names
duke@435	365	FormDict _localNames; // Table of operands & their types
duke@435	366	FormDict _localUsage; // Table of operand usage
duke@435	367	FormList _resUsage; // List of resource usage
duke@435	368	NameList _instructs; // List of instructions and machine nodes that use this pipeline class
duke@435	369	bool _has_fixed_latency; // Always takes this number of cycles
duke@435	370	int _fixed_latency; // Always takes this number of cycles
duke@435	371	int _instruction_count; // Number of instructions in first bundle
duke@435	372	bool _has_multiple_bundles; // Indicates if 1 or multiple bundles
duke@435	373	bool _has_branch_delay_slot; // Has branch delay slot as last instruction
duke@435	374	bool _force_serialization; // This node serializes relative to surrounding nodes
duke@435	375	bool _may_have_no_code; // This node may generate no code based on register allocation
duke@435	376
duke@435	377	// Virtual Methods
duke@435	378	virtual PipeClassForm *is_pipeclass() const;
duke@435	379
duke@435	380	// Public Methods
duke@435	381	PipeClassForm(const char *id, int num);
duke@435	382	// Constructor
duke@435	383	~PipeClassForm(); // Destructor
duke@435	384
duke@435	385	bool hasFixedLatency() { return _has_fixed_latency; }
duke@435	386	int fixedLatency() { return _fixed_latency; }
duke@435	387
duke@435	388	void setFixedLatency(int fixed_latency) { _has_fixed_latency = 1; _fixed_latency = fixed_latency; }
duke@435	389
duke@435	390	void setInstructionCount(int i) { _instruction_count = i; }
duke@435	391	void setMultipleBundles(bool b) { _has_multiple_bundles = b; }
duke@435	392	void setBranchDelay(bool s) { _has_branch_delay_slot = s; }
duke@435	393	void setForceSerialization(bool s) { _force_serialization = s; }
duke@435	394	void setMayHaveNoCode(bool s) { _may_have_no_code = s; }
duke@435	395
duke@435	396	int InstructionCount() const { return _instruction_count; }
duke@435	397	bool hasMultipleBundles() const { return _has_multiple_bundles; }
duke@435	398	bool hasBranchDelay() const { return _has_branch_delay_slot; }
duke@435	399	bool forceSerialization() const { return _force_serialization; }
duke@435	400	bool mayHaveNoCode() const { return _may_have_no_code; }
duke@435	401
duke@435	402	void dump(); // Debug printer
duke@435	403	void output(FILE *fp); // Write info to output files
duke@435	404	};
duke@435	405
duke@435	406
duke@435	407	//==============================Peephole Optimization==========================
duke@435	408	//------------------------------Peephole---------------------------------------
duke@435	409	class Peephole : public Form {
duke@435	410	private:
duke@435	411	static int _peephole_counter;// Incremented by each peephole rule parsed
duke@435	412	int _peephole_number;// Remember my order in architecture description
duke@435	413	PeepMatch *_match; // Instruction pattern to match
duke@435	414	PeepConstraint *_constraint; // List of additional constraints
duke@435	415	PeepReplace *_replace; // Instruction pattern to substitute in
duke@435	416
duke@435	417	Peephole *_next;
duke@435	418
duke@435	419	public:
duke@435	420	// Public Methods
duke@435	421	Peephole();
duke@435	422	~Peephole();
duke@435	423
duke@435	424	// Append a peephole rule with the same root instruction
duke@435	425	void append_peephole(Peephole *next_peephole);
duke@435	426
duke@435	427	// Store the components of this peephole rule
duke@435	428	void add_match(PeepMatch *only_one_match);
duke@435	429	void append_constraint(PeepConstraint *next_constraint);
duke@435	430	void add_replace(PeepReplace *only_one_replacement);
duke@435	431
duke@435	432	// Access the components of this peephole rule
duke@435	433	int peephole_number() { return _peephole_number; }
duke@435	434	PeepMatch *match() { return _match; }
duke@435	435	PeepConstraint *constraints() { return _constraint; }
duke@435	436	PeepReplace *replacement() { return _replace; }
duke@435	437	Peephole *next() { return _next; }
duke@435	438
duke@435	439	void dump(); // Debug printer
duke@435	440	void output(FILE *fp); // Write info to output files
duke@435	441	};
duke@435	442
duke@435	443
duke@435	444	class PeepMatch : public Form {
duke@435	445	private:
duke@435	446	char *_rule;
duke@435	447	// NameList _depth; // Depth of this instruction
duke@435	448	NameList _parent;
duke@435	449	NameList _position;
duke@435	450	NameList _instrs; // List of instructions in match rule
duke@435	451	NameList _input; // input position in parent's instruction
duke@435	452	int _max_position;
duke@435	453
duke@435	454	public:
duke@435	455	// Public Methods
duke@435	456	PeepMatch(char *rule);
duke@435	457	~PeepMatch();
duke@435	458
duke@435	459	// Insert info into the match-rule
duke@435	460	void add_instruction(int parent, int position, const char *name, int input);
duke@435	461
duke@435	462	// Access info about instructions in the peep-match rule
duke@435	463	int max_position();
twisti@1038	464	const char *instruction_name(int position);
duke@435	465	// Iterate through all info on matched instructions
duke@435	466	void reset();
twisti@1038	467	void next_instruction(int &parent, int &position, const char* &name, int &input);
duke@435	468	// 'true' if current position in iteration is a placeholder, not matched.
duke@435	469	bool is_placeholder();
duke@435	470
duke@435	471	void dump();
duke@435	472	void output(FILE *fp);
duke@435	473	};
duke@435	474
duke@435	475
duke@435	476	class PeepConstraint : public Form {
duke@435	477	private:
duke@435	478	PeepConstraint *_next; // Additional constraints ANDed together
duke@435	479
duke@435	480	public:
twisti@1038	481	const int _left_inst;
twisti@1038	482	const char* _left_op;
twisti@1038	483	const char* _relation;
twisti@1038	484	const int _right_inst;
twisti@1038	485	const char* _right_op;
duke@435	486
duke@435	487	public:
duke@435	488	// Public Methods
twisti@1038	489	PeepConstraint(int left_inst, char* left_op, char* relation,
twisti@1038	490	int right_inst, char* right_op);
duke@435	491	~PeepConstraint();
duke@435	492
duke@435	493	// Check if constraints use instruction at position
twisti@1038	494	bool constrains_instruction(int position);
duke@435	495
duke@435	496	// Add another constraint
duke@435	497	void append(PeepConstraint *next_peep_constraint);
duke@435	498	// Access the next constraint in the list
duke@435	499	PeepConstraint *next();
duke@435	500
duke@435	501	void dump();
duke@435	502	void output(FILE *fp);
duke@435	503	};
duke@435	504
duke@435	505
duke@435	506	class PeepReplace : public Form {
duke@435	507	private:
duke@435	508	char *_rule;
duke@435	509	NameList _instruction;
duke@435	510	NameList _operand_inst_num;
duke@435	511	NameList _operand_op_name;
duke@435	512
duke@435	513	public:
duke@435	514
duke@435	515	// Public Methods
duke@435	516	PeepReplace(char *rule);
duke@435	517	~PeepReplace();
duke@435	518
duke@435	519	// Add contents of peepreplace
duke@435	520	void add_instruction(char *root);
duke@435	521	void add_operand( int inst_num, char *inst_operand );
duke@435	522
duke@435	523	// Access contents of peepreplace
duke@435	524	void reset();
duke@435	525	void next_instruction(const char * &root);
twisti@1038	526	void next_operand(int &inst_num, const char * &inst_operand );
duke@435	527
duke@435	528	// Utilities
duke@435	529	void dump();
duke@435	530	void output(FILE *fp);
duke@435	531	};
duke@435	532
duke@435	533
duke@435	534	class PeepChild : public Form {
duke@435	535	public:
duke@435	536	const int _inst_num; // Number of instruction (-1 if only named)
duke@435	537	const char *_inst_op; // Instruction's operand, NULL if number == -1
duke@435	538	const char *_inst_name; // Name of the instruction
duke@435	539
duke@435	540	public:
duke@435	541	PeepChild(char *inst_name)
duke@435	542	: _inst_num(-1), _inst_op(NULL), _inst_name(inst_name) {};
duke@435	543	PeepChild(int inst_num, char *inst_op, char *inst_name)
duke@435	544	: _inst_num(inst_num), _inst_op(inst_op), _inst_name(inst_name) {};
duke@435	545	~PeepChild();
duke@435	546
duke@435	547	bool use_leaf_operand() { return _inst_num != -1; };
duke@435	548	bool generate_an_instruction() { return _inst_num == -1; }
duke@435	549
duke@435	550	void dump();
duke@435	551	void output(FILE *fp);
duke@435	552	};
stefank@2314	553
stefank@2314	554	#endif // SHARE_VM_ADLC_FORMSOPT_HPP