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src/share/vm/opto/chaitin.hpp@95c00927be11 (annotated)

src/share/vm/opto/chaitin.hpp

Mon, 27 May 2013 12:56:34 +0200

author

stefank

date

Mon, 27 May 2013 12:56:34 +0200

changeset 5195

95c00927be11

parent 4949

8373c19be854

child 5543

4b2838704fd5

permissions

-rw-r--r--

8015428: Remove unused CDS support from StringTable
Summary: The string in StringTable is not used by CDS anymore. Remove the unnecessary code in preparation for 8015422: Large performance hit when the StringTable is walked twice in Parallel Scavenge
Reviewed-by: pliden, tschatzl, coleenp

duke@435	1	/*
kvn@3882	2	* Copyright (c) 1997, 2012, 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_OPTO_CHAITIN_HPP
stefank@2314	26	#define SHARE_VM_OPTO_CHAITIN_HPP
stefank@2314	27
stefank@2314	28	#include "code/vmreg.hpp"
stefank@2314	29	#include "libadt/port.hpp"
stefank@2314	30	#include "memory/resourceArea.hpp"
stefank@2314	31	#include "opto/connode.hpp"
stefank@2314	32	#include "opto/live.hpp"
stefank@2314	33	#include "opto/matcher.hpp"
stefank@2314	34	#include "opto/phase.hpp"
stefank@2314	35	#include "opto/regalloc.hpp"
stefank@2314	36	#include "opto/regmask.hpp"
stefank@2314	37
duke@435	38	class LoopTree;
duke@435	39	class MachCallNode;
duke@435	40	class MachSafePointNode;
duke@435	41	class Matcher;
duke@435	42	class PhaseCFG;
duke@435	43	class PhaseLive;
duke@435	44	class PhaseRegAlloc;
duke@435	45	class PhaseChaitin;
duke@435	46
duke@435	47	#define OPTO_DEBUG_SPLIT_FREQ BLOCK_FREQUENCY(0.001)
duke@435	48	#define OPTO_LRG_HIGH_FREQ BLOCK_FREQUENCY(0.25)
duke@435	49
duke@435	50	//------------------------------LRG--------------------------------------------
duke@435	51	// Live-RanGe structure.
duke@435	52	class LRG : public ResourceObj {
never@3138	53	friend class VMStructs;
duke@435	54	public:
duke@435	55	enum { SPILL_REG=29999 }; // Register number of a spilled LRG
duke@435	56
duke@435	57	double _cost; // 2 for loads/1 for stores times block freq
duke@435	58	double _area; // Sum of all simultaneously live values
duke@435	59	double score() const; // Compute score from cost and area
duke@435	60	double _maxfreq; // Maximum frequency of any def or use
duke@435	61
duke@435	62	Node *_def; // Check for multi-def live ranges
duke@435	63	#ifndef PRODUCT
duke@435	64	GrowableArray<Node*>* _defs;
duke@435	65	#endif
duke@435	66
duke@435	67	uint _risk_bias; // Index of LRG which we want to avoid color
duke@435	68	uint _copy_bias; // Index of LRG which we want to share color
duke@435	69
duke@435	70	uint _next; // Index of next LRG in linked list
duke@435	71	uint _prev; // Index of prev LRG in linked list
duke@435	72	private:
duke@435	73	uint _reg; // Chosen register; undefined if mask is plural
duke@435	74	public:
duke@435	75	// Return chosen register for this LRG. Error if the LRG is not bound to
duke@435	76	// a single register.
duke@435	77	OptoReg::Name reg() const { return OptoReg::Name(_reg); }
duke@435	78	void set_reg( OptoReg::Name r ) { _reg = r; }
duke@435	79
duke@435	80	private:
duke@435	81	uint _eff_degree; // Effective degree: Sum of neighbors _num_regs
duke@435	82	public:
duke@435	83	int degree() const { assert( _degree_valid, "" ); return _eff_degree; }
duke@435	84	// Degree starts not valid and any change to the IFG neighbor
duke@435	85	// set makes it not valid.
duke@435	86	void set_degree( uint degree ) { _eff_degree = degree; debug_only(_degree_valid = 1;) }
duke@435	87	// Made a change that hammered degree
duke@435	88	void invalid_degree() { debug_only(_degree_valid=0;) }
duke@435	89	// Incrementally modify degree. If it was correct, it should remain correct
duke@435	90	void inc_degree( uint mod ) { _eff_degree += mod; }
duke@435	91	// Compute the degree between 2 live ranges
duke@435	92	int compute_degree( LRG &l ) const;
duke@435	93
duke@435	94	private:
duke@435	95	RegMask _mask; // Allowed registers for this LRG
duke@435	96	uint _mask_size; // cache of _mask.Size();
duke@435	97	public:
duke@435	98	int compute_mask_size() const { return _mask.is_AllStack() ? 65535 : _mask.Size(); }
duke@435	99	void set_mask_size( int size ) {
duke@435	100	assert((size == 65535) || (size == (int)_mask.Size()), "");
duke@435	101	_mask_size = size;
kvn@3882	102	#ifdef ASSERT
kvn@3882	103	_msize_valid=1;
kvn@3882	104	if (_is_vector) {
kvn@3882	105	assert(!_fat_proj, "sanity");
kvn@3882	106	_mask.verify_sets(_num_regs);
kvn@3882	107	} else if (_num_regs == 2 && !_fat_proj) {
kvn@3882	108	_mask.verify_pairs();
kvn@3882	109	}
kvn@3882	110	#endif
duke@435	111	}
duke@435	112	void compute_set_mask_size() { set_mask_size(compute_mask_size()); }
duke@435	113	int mask_size() const { assert( _msize_valid, "mask size not valid" );
duke@435	114	return _mask_size; }
duke@435	115	// Get the last mask size computed, even if it does not match the
duke@435	116	// count of bits in the current mask.
duke@435	117	int get_invalid_mask_size() const { return _mask_size; }
duke@435	118	const RegMask &mask() const { return _mask; }
duke@435	119	void set_mask( const RegMask &rm ) { _mask = rm; debug_only(_msize_valid=0;)}
duke@435	120	void AND( const RegMask &rm ) { _mask.AND(rm); debug_only(_msize_valid=0;)}
duke@435	121	void SUBTRACT( const RegMask &rm ) { _mask.SUBTRACT(rm); debug_only(_msize_valid=0;)}
duke@435	122	void Clear() { _mask.Clear() ; debug_only(_msize_valid=1); _mask_size = 0; }
duke@435	123	void Set_All() { _mask.Set_All(); debug_only(_msize_valid=1); _mask_size = RegMask::CHUNK_SIZE; }
duke@435	124	void Insert( OptoReg::Name reg ) { _mask.Insert(reg); debug_only(_msize_valid=0;) }
duke@435	125	void Remove( OptoReg::Name reg ) { _mask.Remove(reg); debug_only(_msize_valid=0;) }
kvn@3882	126	void clear_to_pairs() { _mask.clear_to_pairs(); debug_only(_msize_valid=0;) }
kvn@3882	127	void clear_to_sets() { _mask.clear_to_sets(_num_regs); debug_only(_msize_valid=0;) }
duke@435	128
duke@435	129	// Number of registers this live range uses when it colors
duke@435	130	private:
duke@435	131	uint8 _num_regs; // 2 for Longs and Doubles, 1 for all else
duke@435	132	// except _num_regs is kill count for fat_proj
duke@435	133	public:
duke@435	134	int num_regs() const { return _num_regs; }
duke@435	135	void set_num_regs( int reg ) { assert( _num_regs == reg || !_num_regs, "" ); _num_regs = reg; }
duke@435	136
duke@435	137	private:
duke@435	138	// Number of physical registers this live range uses when it colors
duke@435	139	// Architecture and register-set dependent
duke@435	140	uint8 _reg_pressure;
duke@435	141	public:
duke@435	142	void set_reg_pressure(int i) { _reg_pressure = i; }
duke@435	143	int reg_pressure() const { return _reg_pressure; }
duke@435	144
duke@435	145	// How much 'wiggle room' does this live range have?
duke@435	146	// How many color choices can it make (scaled by _num_regs)?
duke@435	147	int degrees_of_freedom() const { return mask_size() - _num_regs; }
duke@435	148	// Bound LRGs have ZERO degrees of freedom. We also count
duke@435	149	// must_spill as bound.
duke@435	150	bool is_bound () const { return _is_bound; }
duke@435	151	// Negative degrees-of-freedom; even with no neighbors this
duke@435	152	// live range must spill.
duke@435	153	bool not_free() const { return degrees_of_freedom() < 0; }
duke@435	154	// Is this live range of "low-degree"? Trivially colorable?
duke@435	155	bool lo_degree () const { return degree() <= degrees_of_freedom(); }
duke@435	156	// Is this live range just barely "low-degree"? Trivially colorable?
duke@435	157	bool just_lo_degree () const { return degree() == degrees_of_freedom(); }
duke@435	158
duke@435	159	uint _is_oop:1, // Live-range holds an oop
duke@435	160	_is_float:1, // True if in float registers
kvn@3882	161	_is_vector:1, // True if in vector registers
duke@435	162	_was_spilled1:1, // True if prior spilling on def
duke@435	163	_was_spilled2:1, // True if twice prior spilling on def
duke@435	164	_is_bound:1, // live range starts life with no
duke@435	165	// degrees of freedom.
duke@435	166	_direct_conflict:1, // True if def and use registers in conflict
duke@435	167	_must_spill:1, // live range has lost all degrees of freedom
duke@435	168	// If _fat_proj is set, live range does NOT require aligned, adjacent
duke@435	169	// registers and has NO interferences.
duke@435	170	// If _fat_proj is clear, live range requires num_regs() to be a power of
duke@435	171	// 2, and it requires registers to form an aligned, adjacent set.
duke@435	172	_fat_proj:1, //
duke@435	173	_was_lo:1, // Was lo-degree prior to coalesce
duke@435	174	_msize_valid:1, // _mask_size cache valid
duke@435	175	_degree_valid:1, // _degree cache valid
duke@435	176	_has_copy:1, // Adjacent to some copy instruction
duke@435	177	_at_risk:1; // Simplify says this guy is at risk to spill
duke@435	178
duke@435	179
duke@435	180	// Alive if non-zero, dead if zero
duke@435	181	bool alive() const { return _def != NULL; }
never@730	182	bool is_multidef() const { return _def == NodeSentinel; }
never@730	183	bool is_singledef() const { return _def != NodeSentinel; }
duke@435	184
duke@435	185	#ifndef PRODUCT
duke@435	186	void dump( ) const;
duke@435	187	#endif
duke@435	188	};
duke@435	189
duke@435	190	//------------------------------IFG--------------------------------------------
duke@435	191	// InterFerence Graph
duke@435	192	// An undirected graph implementation. Created with a fixed number of
duke@435	193	// vertices. Edges can be added & tested. Vertices can be removed, then
duke@435	194	// added back later with all edges intact. Can add edges between one vertex
duke@435	195	// and a list of other vertices. Can union vertices (and their edges)
duke@435	196	// together. The IFG needs to be really really fast, and also fairly
duke@435	197	// abstract! It needs abstraction so I can fiddle with the implementation to
duke@435	198	// get even more speed.
duke@435	199	class PhaseIFG : public Phase {
never@3138	200	friend class VMStructs;
duke@435	201	// Current implementation: a triangular adjacency list.
duke@435	202
duke@435	203	// Array of adjacency-lists, indexed by live-range number
duke@435	204	IndexSet *_adjs;
duke@435	205
duke@435	206	// Assertion bit for proper use of Squaring
duke@435	207	bool _is_square;
duke@435	208
duke@435	209	// Live range structure goes here
duke@435	210	LRG *_lrgs; // Array of LRG structures
duke@435	211
duke@435	212	public:
duke@435	213	// Largest live-range number
duke@435	214	uint _maxlrg;
duke@435	215
duke@435	216	Arena *_arena;
duke@435	217
duke@435	218	// Keep track of inserted and deleted Nodes
duke@435	219	VectorSet *_yanked;
duke@435	220
duke@435	221	PhaseIFG( Arena *arena );
duke@435	222	void init( uint maxlrg );
duke@435	223
duke@435	224	// Add edge between a and b. Returns true if actually addded.
duke@435	225	int add_edge( uint a, uint b );
duke@435	226
duke@435	227	// Add edge between a and everything in the vector
duke@435	228	void add_vector( uint a, IndexSet *vec );
duke@435	229
duke@435	230	// Test for edge existance
duke@435	231	int test_edge( uint a, uint b ) const;
duke@435	232
duke@435	233	// Square-up matrix for faster Union
duke@435	234	void SquareUp();
duke@435	235
duke@435	236	// Return number of LRG neighbors
duke@435	237	uint neighbor_cnt( uint a ) const { return _adjs[a].count(); }
duke@435	238	// Union edges of b into a on Squared-up matrix
duke@435	239	void Union( uint a, uint b );
duke@435	240	// Test for edge in Squared-up matrix
duke@435	241	int test_edge_sq( uint a, uint b ) const;
duke@435	242	// Yank a Node and all connected edges from the IFG. Be prepared to
duke@435	243	// re-insert the yanked Node in reverse order of yanking. Return a
duke@435	244	// list of neighbors (edges) yanked.
duke@435	245	IndexSet *remove_node( uint a );
duke@435	246	// Reinsert a yanked Node
duke@435	247	void re_insert( uint a );
duke@435	248	// Return set of neighbors
duke@435	249	IndexSet *neighbors( uint a ) const { return &_adjs[a]; }
duke@435	250
duke@435	251	#ifndef PRODUCT
duke@435	252	// Dump the IFG
duke@435	253	void dump() const;
duke@435	254	void stats() const;
duke@435	255	void verify( const PhaseChaitin * ) const;
duke@435	256	#endif
duke@435	257
duke@435	258	//--------------- Live Range Accessors
duke@435	259	LRG &lrgs(uint idx) const { assert(idx < _maxlrg, "oob"); return _lrgs[idx]; }
duke@435	260
duke@435	261	// Compute and set effective degree. Might be folded into SquareUp().
duke@435	262	void Compute_Effective_Degree();
duke@435	263
duke@435	264	// Compute effective degree as the sum of neighbors' _sizes.
duke@435	265	int effective_degree( uint lidx ) const;
duke@435	266	};
duke@435	267
neliasso@4949	268	// The LiveRangeMap class is responsible for storing node to live range id mapping.
neliasso@4949	269	// Each node is mapped to a live range id (a virtual register). Nodes that are
neliasso@4949	270	// not considered for register allocation are given live range id 0.
neliasso@4949	271	class LiveRangeMap VALUE_OBJ_CLASS_SPEC {
duke@435	272
neliasso@4949	273	private:
neliasso@4949	274
neliasso@4949	275	uint _max_lrg_id;
neliasso@4949	276
neliasso@4949	277	// Union-find map. Declared as a short for speed.
neliasso@4949	278	// Indexed by live-range number, it returns the compacted live-range number
neliasso@4949	279	LRG_List _uf_map;
neliasso@4949	280
neliasso@4949	281	// Map from Nodes to live ranges
neliasso@4949	282	LRG_List _names;
neliasso@4949	283
neliasso@4949	284	// Straight out of Tarjan's union-find algorithm
neliasso@4949	285	uint find_compress(const Node *node) {
neliasso@4949	286	uint lrg_id = find_compress(_names[node->_idx]);
neliasso@4949	287	_names.map(node->_idx, lrg_id);
neliasso@4949	288	return lrg_id;
neliasso@4949	289	}
neliasso@4949	290
neliasso@4949	291	uint find_compress(uint lrg);
neliasso@4949	292
neliasso@4949	293	public:
neliasso@4949	294
neliasso@4949	295	const LRG_List& names() {
neliasso@4949	296	return _names;
neliasso@4949	297	}
neliasso@4949	298
neliasso@4949	299	uint max_lrg_id() const {
neliasso@4949	300	return _max_lrg_id;
neliasso@4949	301	}
neliasso@4949	302
neliasso@4949	303	void set_max_lrg_id(uint max_lrg_id) {
neliasso@4949	304	_max_lrg_id = max_lrg_id;
neliasso@4949	305	}
neliasso@4949	306
neliasso@4949	307	uint size() const {
neliasso@4949	308	return _names.Size();
neliasso@4949	309	}
neliasso@4949	310
neliasso@4949	311	uint live_range_id(uint idx) const {
neliasso@4949	312	return _names[idx];
neliasso@4949	313	}
neliasso@4949	314
neliasso@4949	315	uint live_range_id(const Node *node) const {
neliasso@4949	316	return _names[node->_idx];
neliasso@4949	317	}
neliasso@4949	318
neliasso@4949	319	uint uf_live_range_id(uint lrg_id) const {
neliasso@4949	320	return _uf_map[lrg_id];
neliasso@4949	321	}
neliasso@4949	322
neliasso@4949	323	void map(uint idx, uint lrg_id) {
neliasso@4949	324	_names.map(idx, lrg_id);
neliasso@4949	325	}
neliasso@4949	326
neliasso@4949	327	void uf_map(uint dst_lrg_id, uint src_lrg_id) {
neliasso@4949	328	_uf_map.map(dst_lrg_id, src_lrg_id);
neliasso@4949	329	}
neliasso@4949	330
neliasso@4949	331	void extend(uint idx, uint lrg_id) {
neliasso@4949	332	_names.extend(idx, lrg_id);
neliasso@4949	333	}
neliasso@4949	334
neliasso@4949	335	void uf_extend(uint dst_lrg_id, uint src_lrg_id) {
neliasso@4949	336	_uf_map.extend(dst_lrg_id, src_lrg_id);
neliasso@4949	337	}
neliasso@4949	338
neliasso@4949	339	LiveRangeMap(uint unique)
neliasso@4949	340	: _names(unique)
neliasso@4949	341	, _uf_map(unique)
neliasso@4949	342	, _max_lrg_id(0) {}
neliasso@4949	343
neliasso@4949	344	uint find_id( const Node *n ) {
neliasso@4949	345	uint retval = live_range_id(n);
neliasso@4949	346	assert(retval == find(n),"Invalid node to lidx mapping");
neliasso@4949	347	return retval;
neliasso@4949	348	}
neliasso@4949	349
neliasso@4949	350	// Reset the Union-Find map to identity
neliasso@4949	351	void reset_uf_map(uint max_lrg_id);
neliasso@4949	352
neliasso@4949	353	// Make all Nodes map directly to their final live range; no need for
neliasso@4949	354	// the Union-Find mapping after this call.
neliasso@4949	355	void compress_uf_map_for_nodes();
neliasso@4949	356
neliasso@4949	357	uint find(uint lidx) {
neliasso@4949	358	uint uf_lidx = _uf_map[lidx];
neliasso@4949	359	return (uf_lidx == lidx) ? uf_lidx : find_compress(lidx);
neliasso@4949	360	}
neliasso@4949	361
neliasso@4949	362	// Convert a Node into a Live Range Index - a lidx
neliasso@4949	363	uint find(const Node *node) {
neliasso@4949	364	uint lidx = live_range_id(node);
neliasso@4949	365	uint uf_lidx = _uf_map[lidx];
neliasso@4949	366	return (uf_lidx == lidx) ? uf_lidx : find_compress(node);
neliasso@4949	367	}
neliasso@4949	368
neliasso@4949	369	// Like Find above, but no path compress, so bad asymptotic behavior
neliasso@4949	370	uint find_const(uint lrg) const;
neliasso@4949	371
neliasso@4949	372	// Like Find above, but no path compress, so bad asymptotic behavior
neliasso@4949	373	uint find_const(const Node *node) const {
neliasso@4949	374	if(node->_idx >= _names.Size()) {
neliasso@4949	375	return 0; // not mapped, usual for debug dump
neliasso@4949	376	}
neliasso@4949	377	return find_const(_names[node->_idx]);
neliasso@4949	378	}
neliasso@4949	379	};
duke@435	380
duke@435	381	//------------------------------Chaitin----------------------------------------
duke@435	382	// Briggs-Chaitin style allocation, mostly.
duke@435	383	class PhaseChaitin : public PhaseRegAlloc {
never@3138	384	friend class VMStructs;
duke@435	385
duke@435	386	int _trip_cnt;
duke@435	387	int _alternate;
duke@435	388
duke@435	389	LRG &lrgs(uint idx) const { return _ifg->lrgs(idx); }
duke@435	390	PhaseLive *_live; // Liveness, used in the interference graph
duke@435	391	PhaseIFG *_ifg; // Interference graph (for original chunk)
duke@435	392	Node_List **_lrg_nodes; // Array of node; lists for lrgs which spill
duke@435	393	VectorSet _spilled_once; // Nodes that have been spilled
duke@435	394	VectorSet _spilled_twice; // Nodes that have been spilled twice
duke@435	395
duke@435	396	// Combine the Live Range Indices for these 2 Nodes into a single live
duke@435	397	// range. Future requests for any Node in either live range will
duke@435	398	// return the live range index for the combined live range.
duke@435	399	void Union( const Node *src, const Node *dst );
duke@435	400
duke@435	401	void new_lrg( const Node *x, uint lrg );
duke@435	402
duke@435	403	// Compact live ranges, removing unused ones. Return new maxlrg.
duke@435	404	void compact();
duke@435	405
duke@435	406	uint _lo_degree; // Head of lo-degree LRGs list
duke@435	407	uint _lo_stk_degree; // Head of lo-stk-degree LRGs list
duke@435	408	uint _hi_degree; // Head of hi-degree LRGs list
duke@435	409	uint _simplified; // Linked list head of simplified LRGs
duke@435	410
duke@435	411	// Helper functions for Split()
duke@435	412	uint split_DEF( Node *def, Block *b, int loc, uint max, Node **Reachblock, Node **debug_defs, GrowableArray<uint> splits, int slidx );
duke@435	413	uint split_USE( Node *def, Block *b, Node *use, uint useidx, uint max, bool def_down, bool cisc_sp, GrowableArray<uint> splits, int slidx );
neliasso@4949	414
neliasso@4949	415	bool clone_projs(Block *b, uint idx, Node *con, Node *copy, LiveRangeMap &lrg_map) {
neliasso@4949	416	bool found_projs = clone_projs_shared(b, idx, con, copy, lrg_map.max_lrg_id());
neliasso@4949	417
neliasso@4949	418	if(found_projs) {
neliasso@4949	419	uint max_lrg_id = lrg_map.max_lrg_id();
neliasso@4949	420	lrg_map.set_max_lrg_id(max_lrg_id + 1);
neliasso@4949	421	}
neliasso@4949	422
neliasso@4949	423	return found_projs;
neliasso@4949	424	}
neliasso@4949	425
neliasso@4949	426	//------------------------------clone_projs------------------------------------
neliasso@4949	427	// After cloning some rematerialized instruction, clone any MachProj's that
neliasso@4949	428	// follow it. Example: Intel zero is XOR, kills flags. Sparc FP constants
neliasso@4949	429	// use G3 as an address temp.
neliasso@4949	430	bool clone_projs(Block *b, uint idx, Node *con, Node *copy, uint &max_lrg_id) {
neliasso@4949	431	bool found_projs = clone_projs_shared(b, idx, con, copy, max_lrg_id);
neliasso@4949	432
neliasso@4949	433	if(found_projs) {
neliasso@4949	434	max_lrg_id++;
neliasso@4949	435	}
neliasso@4949	436
neliasso@4949	437	return found_projs;
neliasso@4949	438	}
neliasso@4949	439
neliasso@4949	440	bool clone_projs_shared(Block *b, uint idx, Node *con, Node *copy, uint max_lrg_id);
neliasso@4949	441
never@730	442	Node *split_Rematerialize(Node *def, Block *b, uint insidx, uint &maxlrg, GrowableArray<uint> splits,
never@730	443	int slidx, uint *lrg2reach, Node **Reachblock, bool walkThru);
duke@435	444	// True if lidx is used before any real register is def'd in the block
duke@435	445	bool prompt_use( Block *b, uint lidx );
duke@435	446	Node *get_spillcopy_wide( Node *def, Node *use, uint uidx );
twisti@1040	447	// Insert the spill at chosen location. Skip over any intervening Proj's or
duke@435	448	// Phis. Skip over a CatchNode and projs, inserting in the fall-through block
duke@435	449	// instead. Update high-pressure indices. Create a new live range.
duke@435	450	void insert_proj( Block *b, uint i, Node *spill, uint maxlrg );
duke@435	451
duke@435	452	bool is_high_pressure( Block *b, LRG *lrg, uint insidx );
duke@435	453
duke@435	454	uint _oldphi; // Node index which separates pre-allocation nodes
duke@435	455
duke@435	456	Block **_blks; // Array of blocks sorted by frequency for coalescing
duke@435	457
kvn@1108	458	float _high_frequency_lrg; // Frequency at which LRG will be spilled for debug info
kvn@1108	459
duke@435	460	#ifndef PRODUCT
duke@435	461	bool _trace_spilling;
duke@435	462	#endif
duke@435	463
duke@435	464	public:
duke@435	465	PhaseChaitin( uint unique, PhaseCFG &cfg, Matcher &matcher );
duke@435	466	~PhaseChaitin() {}
duke@435	467
neliasso@4949	468	LiveRangeMap _lrg_map;
duke@435	469
duke@435	470	// Do all the real work of allocate
duke@435	471	void Register_Allocate();
duke@435	472
kvn@1108	473	float high_frequency_lrg() const { return _high_frequency_lrg; }
kvn@1108	474
duke@435	475	#ifndef PRODUCT
duke@435	476	bool trace_spilling() const { return _trace_spilling; }
duke@435	477	#endif
duke@435	478
duke@435	479	private:
duke@435	480	// De-SSA the world. Assign registers to Nodes. Use the same register for
duke@435	481	// all inputs to a PhiNode, effectively coalescing live ranges. Insert
duke@435	482	// copies as needed.
duke@435	483	void de_ssa();
duke@435	484
duke@435	485	// Add edge between reg and everything in the vector.
duke@435	486	// Same as _ifg->add_vector(reg,live) EXCEPT use the RegMask
duke@435	487	// information to trim the set of interferences. Return the
duke@435	488	// count of edges added.
duke@435	489	void interfere_with_live( uint reg, IndexSet *live );
duke@435	490	// Count register pressure for asserts
duke@435	491	uint count_int_pressure( IndexSet *liveout );
duke@435	492	uint count_float_pressure( IndexSet *liveout );
duke@435	493
duke@435	494	// Build the interference graph using virtual registers only.
duke@435	495	// Used for aggressive coalescing.
duke@435	496	void build_ifg_virtual( );
duke@435	497
duke@435	498	// Build the interference graph using physical registers when available.
duke@435	499	// That is, if 2 live ranges are simultaneously alive but in their
duke@435	500	// acceptable register sets do not overlap, then they do not interfere.
duke@435	501	uint build_ifg_physical( ResourceArea *a );
duke@435	502
duke@435	503	// Gather LiveRanGe information, including register masks and base pointer/
duke@435	504	// derived pointer relationships.
duke@435	505	void gather_lrg_masks( bool mod_cisc_masks );
duke@435	506
duke@435	507	// Force the bases of derived pointers to be alive at GC points.
duke@435	508	bool stretch_base_pointer_live_ranges( ResourceArea *a );
duke@435	509	// Helper to stretch above; recursively discover the base Node for
duke@435	510	// a given derived Node. Easy for AddP-related machine nodes, but
duke@435	511	// needs to be recursive for derived Phis.
duke@435	512	Node *find_base_for_derived( Node **derived_base_map, Node *derived, uint &maxlrg );
duke@435	513
duke@435	514	// Set the was-lo-degree bit. Conservative coalescing should not change the
duke@435	515	// colorability of the graph. If any live range was of low-degree before
duke@435	516	// coalescing, it should Simplify. This call sets the was-lo-degree bit.
duke@435	517	void set_was_low();
duke@435	518
duke@435	519	// Split live-ranges that must spill due to register conflicts (as opposed
duke@435	520	// to capacity spills). Typically these are things def'd in a register
duke@435	521	// and used on the stack or vice-versa.
duke@435	522	void pre_spill();
duke@435	523
duke@435	524	// Init LRG caching of degree, numregs. Init lo_degree list.
duke@435	525	void cache_lrg_info( );
duke@435	526
duke@435	527	// Simplify the IFG by removing LRGs of low degree with no copies
duke@435	528	void Pre_Simplify();
duke@435	529
duke@435	530	// Simplify the IFG by removing LRGs of low degree
duke@435	531	void Simplify();
duke@435	532
duke@435	533	// Select colors by re-inserting edges into the IFG.
twisti@1040	534	// Return TRUE if any spills occurred.
duke@435	535	uint Select( );
duke@435	536	// Helper function for select which allows biased coloring
duke@435	537	OptoReg::Name choose_color( LRG &lrg, int chunk );
duke@435	538	// Helper function which implements biasing heuristic
duke@435	539	OptoReg::Name bias_color( LRG &lrg, int chunk );
duke@435	540
duke@435	541	// Split uncolorable live ranges
duke@435	542	// Return new number of live ranges
kvn@4019	543	uint Split(uint maxlrg, ResourceArea* split_arena);
duke@435	544
duke@435	545	// Copy 'was_spilled'-edness from one Node to another.
duke@435	546	void copy_was_spilled( Node *src, Node *dst );
duke@435	547	// Set the 'spilled_once' or 'spilled_twice' flag on a node.
duke@435	548	void set_was_spilled( Node *n );
duke@435	549
duke@435	550	// Convert ideal spill-nodes into machine loads & stores
duke@435	551	// Set C->failing when fixup spills could not complete, node limit exceeded.
duke@435	552	void fixup_spills();
duke@435	553
duke@435	554	// Post-Allocation peephole copy removal
duke@435	555	void post_allocate_copy_removal();
duke@435	556	Node *skip_copies( Node *c );
never@1358	557	// Replace the old node with the current live version of that value
never@1358	558	// and yank the old value if it's dead.
never@1358	559	int replace_and_yank_if_dead( Node *old, OptoReg::Name nreg,
never@1358	560	Block *current_block, Node_List& value, Node_List& regnd ) {
never@1358	561	Node* v = regnd[nreg];
never@1358	562	assert(v->outcnt() != 0, "no dead values");
never@1358	563	old->replace_by(v);
never@1358	564	return yank_if_dead(old, current_block, &value, &regnd);
never@1358	565	}
never@1358	566
kvn@3405	567	int yank_if_dead( Node *old, Block *current_block, Node_List *value, Node_List *regnd ) {
kvn@3405	568	return yank_if_dead_recurse(old, old, current_block, value, regnd);
kvn@3405	569	}
kvn@3405	570	int yank_if_dead_recurse(Node *old, Node *orig_old, Block *current_block,
kvn@3405	571	Node_List *value, Node_List *regnd);
roland@3133	572	int yank( Node *old, Block *current_block, Node_List *value, Node_List *regnd );
duke@435	573	int elide_copy( Node *n, int k, Block *current_block, Node_List &value, Node_List &regnd, bool can_change_regs );
duke@435	574	int use_prior_register( Node *copy, uint idx, Node *def, Block *current_block, Node_List &value, Node_List &regnd );
duke@435	575	bool may_be_copy_of_callee( Node *def ) const;
duke@435	576
duke@435	577	// If nreg already contains the same constant as val then eliminate it
never@505	578	bool eliminate_copy_of_constant(Node* val, Node* n,
never@505	579	Block *current_block, Node_List& value, Node_List &regnd,
duke@435	580	OptoReg::Name nreg, OptoReg::Name nreg2);
duke@435	581	// Extend the node to LRG mapping
duke@435	582	void add_reference( const Node *node, const Node *old_node);
duke@435	583
duke@435	584	private:
duke@435	585
duke@435	586	static int _final_loads, _final_stores, _final_copies, _final_memoves;
duke@435	587	static double _final_load_cost, _final_store_cost, _final_copy_cost, _final_memove_cost;
duke@435	588	static int _conserv_coalesce, _conserv_coalesce_pair;
duke@435	589	static int _conserv_coalesce_trie, _conserv_coalesce_quad;
duke@435	590	static int _post_alloc;
duke@435	591	static int _lost_opp_pp_coalesce, _lost_opp_cflow_coalesce;
duke@435	592	static int _used_cisc_instructions, _unused_cisc_instructions;
duke@435	593	static int _allocator_attempts, _allocator_successes;
duke@435	594
duke@435	595	#ifndef PRODUCT
duke@435	596	static uint _high_pressure, _low_pressure;
duke@435	597
duke@435	598	void dump() const;
duke@435	599	void dump( const Node *n ) const;
duke@435	600	void dump( const Block * b ) const;
duke@435	601	void dump_degree_lists() const;
duke@435	602	void dump_simplified() const;
never@2358	603	void dump_lrg( uint lidx, bool defs_only) const;
never@2358	604	void dump_lrg( uint lidx) const {
never@2358	605	// dump defs and uses by default
never@2358	606	dump_lrg(lidx, false);
never@2358	607	}
duke@435	608	void dump_bb( uint pre_order ) const;
duke@435	609
duke@435	610	// Verify that base pointers and derived pointers are still sane
duke@435	611	void verify_base_ptrs( ResourceArea *a ) const;
duke@435	612
kvn@1001	613	void verify( ResourceArea *a, bool verify_ifg = false ) const;
kvn@1001	614
duke@435	615	void dump_for_spill_split_recycle() const;
duke@435	616
duke@435	617	public:
duke@435	618	void dump_frame() const;
duke@435	619	char *dump_register( const Node *n, char *buf ) const;
duke@435	620	private:
duke@435	621	static void print_chaitin_statistics();
duke@435	622	#endif
duke@435	623	friend class PhaseCoalesce;
duke@435	624	friend class PhaseAggressiveCoalesce;
duke@435	625	friend class PhaseConservativeCoalesce;
duke@435	626	};
stefank@2314	627
stefank@2314	628	#endif // SHARE_VM_OPTO_CHAITIN_HPP