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src/share/vm/opto/loopPredicate.cpp@69ea58782b1a (annotated)

src/share/vm/opto/loopPredicate.cpp

Thu, 31 Jul 2014 19:59:36 +0200

author

roland

date

Thu, 31 Jul 2014 19:59:36 +0200

changeset 7003

69ea58782b1a

parent 6680

78bbf4d43a14

child 6876

710a3c8b516e

child 7859

c1c199dde5c9

permissions

-rw-r--r--

8054054: 8040121 is broken
Summary: C++ code pattern from 8040121 is incorrect
Reviewed-by: kvn

kvn@2727	1	/*
drchase@6680	2	* Copyright (c) 2011, 2014, Oracle and/or its affiliates. All rights reserved.
kvn@2727	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
kvn@2727	4	*
kvn@2727	5	* This code is free software; you can redistribute it and/or modify it
kvn@2727	6	* under the terms of the GNU General Public License version 2 only, as
kvn@2727	7	* published by the Free Software Foundation.
kvn@2727	8	*
kvn@2727	9	* This code is distributed in the hope that it will be useful, but WITHOUT
kvn@2727	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
kvn@2727	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
kvn@2727	12	* version 2 for more details (a copy is included in the LICENSE file that
kvn@2727	13	* accompanied this code).
kvn@2727	14	*
kvn@2727	15	* You should have received a copy of the GNU General Public License version
kvn@2727	16	* 2 along with this work; if not, write to the Free Software Foundation,
kvn@2727	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
kvn@2727	18	*
kvn@2727	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
kvn@2727	20	* or visit www.oracle.com if you need additional information or have any
kvn@2727	21	* questions.
kvn@2727	22	*
kvn@2727	23	*/
kvn@2727	24
kvn@2727	25	#include "precompiled.hpp"
kvn@2727	26	#include "opto/loopnode.hpp"
kvn@2727	27	#include "opto/addnode.hpp"
kvn@2727	28	#include "opto/callnode.hpp"
kvn@2727	29	#include "opto/connode.hpp"
kvn@2727	30	#include "opto/loopnode.hpp"
kvn@2727	31	#include "opto/mulnode.hpp"
kvn@2727	32	#include "opto/rootnode.hpp"
kvn@2727	33	#include "opto/subnode.hpp"
kvn@2727	34
kvn@2727	35	/*
kvn@2727	36	* The general idea of Loop Predication is to insert a predicate on the entry
kvn@2727	37	* path to a loop, and raise a uncommon trap if the check of the condition fails.
kvn@2727	38	* The condition checks are promoted from inside the loop body, and thus
kvn@2727	39	* the checks inside the loop could be eliminated. Currently, loop predication
kvn@2727	40	* optimization has been applied to remove array range check and loop invariant
kvn@2727	41	* checks (such as null checks).
kvn@2727	42	*/
kvn@2727	43
kvn@2727	44	//-------------------------------register_control-------------------------
kvn@2727	45	void PhaseIdealLoop::register_control(Node* n, IdealLoopTree *loop, Node* pred) {
kvn@2727	46	assert(n->is_CFG(), "must be control node");
kvn@2727	47	_igvn.register_new_node_with_optimizer(n);
kvn@2727	48	loop->_body.push(n);
kvn@2727	49	set_loop(n, loop);
kvn@2727	50	// When called from beautify_loops() idom is not constructed yet.
kvn@2727	51	if (_idom != NULL) {
kvn@2727	52	set_idom(n, pred, dom_depth(pred));
kvn@2727	53	}
kvn@2727	54	}
kvn@2727	55
kvn@2727	56	//------------------------------create_new_if_for_predicate------------------------
kvn@2727	57	// create a new if above the uct_if_pattern for the predicate to be promoted.
kvn@2727	58	//
kvn@2727	59	// before after
kvn@2727	60	// ---------- ----------
kvn@2727	61	// ctrl ctrl
kvn@2727	62	// | |
kvn@2727	63	// | |
kvn@2727	64	// v v
kvn@2727	65	// iff new_iff
kvn@2727	66	// / \ / \
kvn@2727	67	// / \ / \
kvn@2727	68	// v v v v
kvn@2727	69	// uncommon_proj cont_proj if_uct if_cont
kvn@2727	70	// \ | | | |
kvn@2727	71	// \ | | | |
kvn@2727	72	// v v v | v
kvn@2727	73	// rgn loop | iff
kvn@2727	74	// | | / \
kvn@2727	75	// | | / \
kvn@2727	76	// v | v v
kvn@2727	77	// uncommon_trap | uncommon_proj cont_proj
kvn@2727	78	// \ \ | |
kvn@2727	79	// \ \ | |
kvn@2727	80	// v v v v
kvn@2727	81	// rgn loop
kvn@2727	82	// |
kvn@2727	83	// |
kvn@2727	84	// v
kvn@2727	85	// uncommon_trap
kvn@2727	86	//
kvn@2727	87	//
kvn@2727	88	// We will create a region to guard the uct call if there is no one there.
kvn@2727	89	// The true projecttion (if_cont) of the new_iff is returned.
kvn@2727	90	// This code is also used to clone predicates to clonned loops.
kvn@2727	91	ProjNode* PhaseIdealLoop::create_new_if_for_predicate(ProjNode* cont_proj, Node* new_entry,
kvn@2727	92	Deoptimization::DeoptReason reason) {
roland@5981	93	assert(cont_proj->is_uncommon_trap_if_pattern(reason), "must be a uct if pattern!");
kvn@2727	94	IfNode* iff = cont_proj->in(0)->as_If();
kvn@2727	95
kvn@2727	96	ProjNode *uncommon_proj = iff->proj_out(1 - cont_proj->_con);
kvn@2727	97	Node *rgn = uncommon_proj->unique_ctrl_out();
kvn@2727	98	assert(rgn->is_Region() || rgn->is_Call(), "must be a region or call uct");
kvn@2727	99
kvn@2727	100	uint proj_index = 1; // region's edge corresponding to uncommon_proj
kvn@2727	101	if (!rgn->is_Region()) { // create a region to guard the call
kvn@2727	102	assert(rgn->is_Call(), "must be call uct");
kvn@2727	103	CallNode* call = rgn->as_Call();
kvn@2727	104	IdealLoopTree* loop = get_loop(call);
kvn@4115	105	rgn = new (C) RegionNode(1);
kvn@2727	106	rgn->add_req(uncommon_proj);
kvn@2727	107	register_control(rgn, loop, uncommon_proj);
kvn@2727	108	_igvn.hash_delete(call);
kvn@2727	109	call->set_req(0, rgn);
kvn@2727	110	// When called from beautify_loops() idom is not constructed yet.
kvn@2727	111	if (_idom != NULL) {
kvn@2727	112	set_idom(call, rgn, dom_depth(rgn));
kvn@2727	113	}
kvn@2727	114	} else {
kvn@2727	115	// Find region's edge corresponding to uncommon_proj
kvn@2727	116	for (; proj_index < rgn->req(); proj_index++)
kvn@2727	117	if (rgn->in(proj_index) == uncommon_proj) break;
kvn@2727	118	assert(proj_index < rgn->req(), "sanity");
kvn@2727	119	}
kvn@2727	120
kvn@2727	121	Node* entry = iff->in(0);
kvn@2727	122	if (new_entry != NULL) {
kvn@2727	123	// Clonning the predicate to new location.
kvn@2727	124	entry = new_entry;
kvn@2727	125	}
kvn@2727	126	// Create new_iff
kvn@2727	127	IdealLoopTree* lp = get_loop(entry);
kvn@2727	128	IfNode *new_iff = iff->clone()->as_If();
kvn@2727	129	new_iff->set_req(0, entry);
kvn@2727	130	register_control(new_iff, lp, entry);
kvn@4115	131	Node *if_cont = new (C) IfTrueNode(new_iff);
kvn@4115	132	Node *if_uct = new (C) IfFalseNode(new_iff);
kvn@2727	133	if (cont_proj->is_IfFalse()) {
kvn@2727	134	// Swap
kvn@2727	135	Node* tmp = if_uct; if_uct = if_cont; if_cont = tmp;
kvn@2727	136	}
kvn@2727	137	register_control(if_cont, lp, new_iff);
kvn@2727	138	register_control(if_uct, get_loop(rgn), new_iff);
kvn@2727	139
kvn@2727	140	// if_uct to rgn
kvn@2727	141	_igvn.hash_delete(rgn);
kvn@2727	142	rgn->add_req(if_uct);
kvn@2727	143	// When called from beautify_loops() idom is not constructed yet.
kvn@2727	144	if (_idom != NULL) {
kvn@2727	145	Node* ridom = idom(rgn);
kvn@2727	146	Node* nrdom = dom_lca(ridom, new_iff);
kvn@2727	147	set_idom(rgn, nrdom, dom_depth(rgn));
kvn@2727	148	}
kvn@2727	149
kvn@2727	150	// If rgn has phis add new edges which has the same
kvn@2727	151	// value as on original uncommon_proj pass.
kvn@2727	152	assert(rgn->in(rgn->req() -1) == if_uct, "new edge should be last");
kvn@2727	153	bool has_phi = false;
kvn@2727	154	for (DUIterator_Fast imax, i = rgn->fast_outs(imax); i < imax; i++) {
kvn@2727	155	Node* use = rgn->fast_out(i);
kvn@2727	156	if (use->is_Phi() && use->outcnt() > 0) {
kvn@2727	157	assert(use->in(0) == rgn, "");
kvn@3847	158	_igvn.rehash_node_delayed(use);
kvn@2727	159	use->add_req(use->in(proj_index));
kvn@2727	160	has_phi = true;
kvn@2727	161	}
kvn@2727	162	}
kvn@2727	163	assert(!has_phi || rgn->req() > 3, "no phis when region is created");
kvn@2727	164
kvn@2727	165	if (new_entry == NULL) {
kvn@2727	166	// Attach if_cont to iff
kvn@2727	167	_igvn.hash_delete(iff);
kvn@2727	168	iff->set_req(0, if_cont);
kvn@2727	169	if (_idom != NULL) {
kvn@2727	170	set_idom(iff, if_cont, dom_depth(iff));
kvn@2727	171	}
kvn@2727	172	}
kvn@2727	173	return if_cont->as_Proj();
kvn@2727	174	}
kvn@2727	175
kvn@2727	176	//------------------------------create_new_if_for_predicate------------------------
kvn@2727	177	// Create a new if below new_entry for the predicate to be cloned (IGVN optimization)
kvn@2727	178	ProjNode* PhaseIterGVN::create_new_if_for_predicate(ProjNode* cont_proj, Node* new_entry,
kvn@2727	179	Deoptimization::DeoptReason reason) {
kvn@2727	180	assert(new_entry != 0, "only used for clone predicate");
roland@5981	181	assert(cont_proj->is_uncommon_trap_if_pattern(reason), "must be a uct if pattern!");
kvn@2727	182	IfNode* iff = cont_proj->in(0)->as_If();
kvn@2727	183
kvn@2727	184	ProjNode *uncommon_proj = iff->proj_out(1 - cont_proj->_con);
kvn@2727	185	Node *rgn = uncommon_proj->unique_ctrl_out();
kvn@2727	186	assert(rgn->is_Region() || rgn->is_Call(), "must be a region or call uct");
kvn@2727	187
kvn@2727	188	uint proj_index = 1; // region's edge corresponding to uncommon_proj
kvn@2727	189	if (!rgn->is_Region()) { // create a region to guard the call
kvn@2727	190	assert(rgn->is_Call(), "must be call uct");
kvn@2727	191	CallNode* call = rgn->as_Call();
kvn@4115	192	rgn = new (C) RegionNode(1);
kvn@2727	193	register_new_node_with_optimizer(rgn);
kvn@2727	194	rgn->add_req(uncommon_proj);
kvn@2727	195	hash_delete(call);
kvn@2727	196	call->set_req(0, rgn);
kvn@2727	197	} else {
kvn@2727	198	// Find region's edge corresponding to uncommon_proj
kvn@2727	199	for (; proj_index < rgn->req(); proj_index++)
kvn@2727	200	if (rgn->in(proj_index) == uncommon_proj) break;
kvn@2727	201	assert(proj_index < rgn->req(), "sanity");
kvn@2727	202	}
kvn@2727	203
kvn@2727	204	// Create new_iff in new location.
kvn@2727	205	IfNode *new_iff = iff->clone()->as_If();
kvn@2727	206	new_iff->set_req(0, new_entry);
kvn@2727	207
kvn@2727	208	register_new_node_with_optimizer(new_iff);
kvn@4115	209	Node *if_cont = new (C) IfTrueNode(new_iff);
kvn@4115	210	Node *if_uct = new (C) IfFalseNode(new_iff);
kvn@2727	211	if (cont_proj->is_IfFalse()) {
kvn@2727	212	// Swap
kvn@2727	213	Node* tmp = if_uct; if_uct = if_cont; if_cont = tmp;
kvn@2727	214	}
kvn@2727	215	register_new_node_with_optimizer(if_cont);
kvn@2727	216	register_new_node_with_optimizer(if_uct);
kvn@2727	217
kvn@2727	218	// if_uct to rgn
kvn@2727	219	hash_delete(rgn);
kvn@2727	220	rgn->add_req(if_uct);
kvn@2727	221
kvn@2727	222	// If rgn has phis add corresponding new edges which has the same
kvn@2727	223	// value as on original uncommon_proj pass.
kvn@2727	224	assert(rgn->in(rgn->req() -1) == if_uct, "new edge should be last");
kvn@2727	225	bool has_phi = false;
kvn@2727	226	for (DUIterator_Fast imax, i = rgn->fast_outs(imax); i < imax; i++) {
kvn@2727	227	Node* use = rgn->fast_out(i);
kvn@2727	228	if (use->is_Phi() && use->outcnt() > 0) {
kvn@3847	229	rehash_node_delayed(use);
kvn@2727	230	use->add_req(use->in(proj_index));
kvn@2727	231	has_phi = true;
kvn@2727	232	}
kvn@2727	233	}
kvn@2727	234	assert(!has_phi || rgn->req() > 3, "no phis when region is created");
kvn@2727	235
kvn@2727	236	return if_cont->as_Proj();
kvn@2727	237	}
kvn@2727	238
kvn@2727	239	//--------------------------clone_predicate-----------------------
kvn@2727	240	ProjNode* PhaseIdealLoop::clone_predicate(ProjNode* predicate_proj, Node* new_entry,
kvn@2727	241	Deoptimization::DeoptReason reason,
kvn@2727	242	PhaseIdealLoop* loop_phase,
kvn@2727	243	PhaseIterGVN* igvn) {
kvn@2727	244	ProjNode* new_predicate_proj;
kvn@2727	245	if (loop_phase != NULL) {
kvn@2727	246	new_predicate_proj = loop_phase->create_new_if_for_predicate(predicate_proj, new_entry, reason);
kvn@2727	247	} else {
kvn@2727	248	new_predicate_proj = igvn->create_new_if_for_predicate(predicate_proj, new_entry, reason);
kvn@2727	249	}
kvn@2727	250	IfNode* iff = new_predicate_proj->in(0)->as_If();
kvn@2727	251	Node* ctrl = iff->in(0);
kvn@2727	252
kvn@2727	253	// Match original condition since predicate's projections could be swapped.
kvn@2727	254	assert(predicate_proj->in(0)->in(1)->in(1)->Opcode()==Op_Opaque1, "must be");
kvn@4115	255	Node* opq = new (igvn->C) Opaque1Node(igvn->C, predicate_proj->in(0)->in(1)->in(1)->in(1));
kvn@2727	256	igvn->C->add_predicate_opaq(opq);
kvn@2727	257
kvn@4115	258	Node* bol = new (igvn->C) Conv2BNode(opq);
kvn@2727	259	if (loop_phase != NULL) {
kvn@2727	260	loop_phase->register_new_node(opq, ctrl);
kvn@2727	261	loop_phase->register_new_node(bol, ctrl);
kvn@2727	262	} else {
kvn@2727	263	igvn->register_new_node_with_optimizer(opq);
kvn@2727	264	igvn->register_new_node_with_optimizer(bol);
kvn@2727	265	}
kvn@2727	266	igvn->hash_delete(iff);
kvn@2727	267	iff->set_req(1, bol);
kvn@2727	268	return new_predicate_proj;
kvn@2727	269	}
kvn@2727	270
kvn@2727	271
kvn@2727	272	//--------------------------clone_loop_predicates-----------------------
kvn@2727	273	// Interface from IGVN
kvn@2877	274	Node* PhaseIterGVN::clone_loop_predicates(Node* old_entry, Node* new_entry, bool clone_limit_check) {
kvn@3043	275	return PhaseIdealLoop::clone_loop_predicates(old_entry, new_entry, clone_limit_check, NULL, this);
kvn@2727	276	}
kvn@2727	277
kvn@2727	278	// Interface from PhaseIdealLoop
kvn@2877	279	Node* PhaseIdealLoop::clone_loop_predicates(Node* old_entry, Node* new_entry, bool clone_limit_check) {
kvn@3043	280	return clone_loop_predicates(old_entry, new_entry, clone_limit_check, this, &this->_igvn);
kvn@2727	281	}
kvn@2727	282
kvn@2727	283	// Clone loop predicates to cloned loops (peeled, unswitched, split_if).
kvn@2727	284	Node* PhaseIdealLoop::clone_loop_predicates(Node* old_entry, Node* new_entry,
kvn@2877	285	bool clone_limit_check,
kvn@2727	286	PhaseIdealLoop* loop_phase,
kvn@2727	287	PhaseIterGVN* igvn) {
kvn@2727	288	#ifdef ASSERT
kvn@2727	289	if (new_entry == NULL || !(new_entry->is_Proj() || new_entry->is_Region() || new_entry->is_SafePoint())) {
kvn@2727	290	if (new_entry != NULL)
kvn@2727	291	new_entry->dump();
kvn@2727	292	assert(false, "not IfTrue, IfFalse, Region or SafePoint");
kvn@2727	293	}
kvn@2727	294	#endif
kvn@2727	295	// Search original predicates
kvn@2727	296	Node* entry = old_entry;
kvn@2877	297	ProjNode* limit_check_proj = NULL;
kvn@2877	298	if (LoopLimitCheck) {
kvn@2877	299	limit_check_proj = find_predicate_insertion_point(entry, Deoptimization::Reason_loop_limit_check);
kvn@2877	300	if (limit_check_proj != NULL) {
kvn@2877	301	entry = entry->in(0)->in(0);
kvn@2877	302	}
kvn@2877	303	}
kvn@2727	304	if (UseLoopPredicate) {
kvn@2727	305	ProjNode* predicate_proj = find_predicate_insertion_point(entry, Deoptimization::Reason_predicate);
kvn@2727	306	if (predicate_proj != NULL) { // right pattern that can be used by loop predication
kvn@3043	307	// clone predicate
kvn@3043	308	new_entry = clone_predicate(predicate_proj, new_entry,
kvn@3043	309	Deoptimization::Reason_predicate,
kvn@3043	310	loop_phase, igvn);
kvn@3043	311	assert(new_entry != NULL && new_entry->is_Proj(), "IfTrue or IfFalse after clone predicate");
kvn@2727	312	if (TraceLoopPredicate) {
kvn@3043	313	tty->print("Loop Predicate cloned: ");
kvn@2727	314	debug_only( new_entry->in(0)->dump(); )
kvn@2727	315	}
kvn@2727	316	}
kvn@2727	317	}
kvn@2877	318	if (limit_check_proj != NULL && clone_limit_check) {
kvn@2877	319	// Clone loop limit check last to insert it before loop.
kvn@2877	320	// Don't clone a limit check which was already finalized
kvn@2877	321	// for this counted loop (only one limit check is needed).
kvn@3043	322	new_entry = clone_predicate(limit_check_proj, new_entry,
kvn@3043	323	Deoptimization::Reason_loop_limit_check,
kvn@3043	324	loop_phase, igvn);
kvn@3043	325	assert(new_entry != NULL && new_entry->is_Proj(), "IfTrue or IfFalse after clone limit check");
kvn@2877	326	if (TraceLoopLimitCheck) {
kvn@3043	327	tty->print("Loop Limit Check cloned: ");
kvn@2877	328	debug_only( new_entry->in(0)->dump(); )
kvn@2877	329	}
kvn@2877	330	}
kvn@2727	331	return new_entry;
kvn@2727	332	}
kvn@2727	333
kvn@2727	334	//--------------------------skip_loop_predicates------------------------------
kvn@2727	335	// Skip related predicates.
kvn@2727	336	Node* PhaseIdealLoop::skip_loop_predicates(Node* entry) {
kvn@2727	337	Node* predicate = NULL;
kvn@2877	338	if (LoopLimitCheck) {
kvn@2877	339	predicate = find_predicate_insertion_point(entry, Deoptimization::Reason_loop_limit_check);
kvn@2877	340	if (predicate != NULL) {
kvn@2877	341	entry = entry->in(0)->in(0);
kvn@2877	342	}
kvn@2877	343	}
kvn@2727	344	if (UseLoopPredicate) {
kvn@2727	345	predicate = find_predicate_insertion_point(entry, Deoptimization::Reason_predicate);
kvn@2727	346	if (predicate != NULL) { // right pattern that can be used by loop predication
kvn@2727	347	IfNode* iff = entry->in(0)->as_If();
kvn@2727	348	ProjNode* uncommon_proj = iff->proj_out(1 - entry->as_Proj()->_con);
kvn@2727	349	Node* rgn = uncommon_proj->unique_ctrl_out();
kvn@2727	350	assert(rgn->is_Region() || rgn->is_Call(), "must be a region or call uct");
kvn@2727	351	entry = entry->in(0)->in(0);
kvn@2727	352	while (entry != NULL && entry->is_Proj() && entry->in(0)->is_If()) {
kvn@2727	353	uncommon_proj = entry->in(0)->as_If()->proj_out(1 - entry->as_Proj()->_con);
kvn@2727	354	if (uncommon_proj->unique_ctrl_out() != rgn)
kvn@2727	355	break;
kvn@2727	356	entry = entry->in(0)->in(0);
kvn@2727	357	}
kvn@2727	358	}
kvn@2727	359	}
kvn@2727	360	return entry;
kvn@2727	361	}
kvn@2727	362
kvn@2727	363	//--------------------------find_predicate_insertion_point-------------------
kvn@2727	364	// Find a good location to insert a predicate
kvn@2727	365	ProjNode* PhaseIdealLoop::find_predicate_insertion_point(Node* start_c, Deoptimization::DeoptReason reason) {
kvn@2727	366	if (start_c == NULL || !start_c->is_Proj())
kvn@2727	367	return NULL;
roland@5981	368	if (start_c->as_Proj()->is_uncommon_trap_if_pattern(reason)) {
kvn@2727	369	return start_c->as_Proj();
kvn@2727	370	}
kvn@2727	371	return NULL;
kvn@2727	372	}
kvn@2727	373
kvn@2727	374	//--------------------------find_predicate------------------------------------
kvn@2727	375	// Find a predicate
kvn@2727	376	Node* PhaseIdealLoop::find_predicate(Node* entry) {
kvn@2727	377	Node* predicate = NULL;
kvn@2877	378	if (LoopLimitCheck) {
kvn@2877	379	predicate = find_predicate_insertion_point(entry, Deoptimization::Reason_loop_limit_check);
kvn@2877	380	if (predicate != NULL) { // right pattern that can be used by loop predication
kvn@2877	381	return entry;
kvn@2877	382	}
kvn@2877	383	}
kvn@2727	384	if (UseLoopPredicate) {
kvn@2727	385	predicate = find_predicate_insertion_point(entry, Deoptimization::Reason_predicate);
kvn@2727	386	if (predicate != NULL) { // right pattern that can be used by loop predication
kvn@2727	387	return entry;
kvn@2727	388	}
kvn@2727	389	}
kvn@2727	390	return NULL;
kvn@2727	391	}
kvn@2727	392
kvn@2727	393	//------------------------------Invariance-----------------------------------
kvn@2727	394	// Helper class for loop_predication_impl to compute invariance on the fly and
kvn@2727	395	// clone invariants.
kvn@2727	396	class Invariance : public StackObj {
kvn@2727	397	VectorSet _visited, _invariant;
kvn@2727	398	Node_Stack _stack;
kvn@2727	399	VectorSet _clone_visited;
kvn@2727	400	Node_List _old_new; // map of old to new (clone)
kvn@2727	401	IdealLoopTree* _lpt;
kvn@2727	402	PhaseIdealLoop* _phase;
kvn@2727	403
kvn@2727	404	// Helper function to set up the invariance for invariance computation
kvn@2727	405	// If n is a known invariant, set up directly. Otherwise, look up the
kvn@2727	406	// the possibility to push n onto the stack for further processing.
kvn@2727	407	void visit(Node* use, Node* n) {
kvn@2727	408	if (_lpt->is_invariant(n)) { // known invariant
kvn@2727	409	_invariant.set(n->_idx);
kvn@2727	410	} else if (!n->is_CFG()) {
kvn@2727	411	Node *n_ctrl = _phase->ctrl_or_self(n);
kvn@2727	412	Node *u_ctrl = _phase->ctrl_or_self(use); // self if use is a CFG
kvn@2727	413	if (_phase->is_dominator(n_ctrl, u_ctrl)) {
kvn@2727	414	_stack.push(n, n->in(0) == NULL ? 1 : 0);
kvn@2727	415	}
kvn@2727	416	}
kvn@2727	417	}
kvn@2727	418
kvn@2727	419	// Compute invariance for "the_node" and (possibly) all its inputs recursively
kvn@2727	420	// on the fly
kvn@2727	421	void compute_invariance(Node* n) {
kvn@2727	422	assert(_visited.test(n->_idx), "must be");
kvn@2727	423	visit(n, n);
kvn@2727	424	while (_stack.is_nonempty()) {
kvn@2727	425	Node* n = _stack.node();
kvn@2727	426	uint idx = _stack.index();
kvn@2727	427	if (idx == n->req()) { // all inputs are processed
kvn@2727	428	_stack.pop();
kvn@2727	429	// n is invariant if it's inputs are all invariant
kvn@2727	430	bool all_inputs_invariant = true;
kvn@2727	431	for (uint i = 0; i < n->req(); i++) {
kvn@2727	432	Node* in = n->in(i);
kvn@2727	433	if (in == NULL) continue;
kvn@2727	434	assert(_visited.test(in->_idx), "must have visited input");
kvn@2727	435	if (!_invariant.test(in->_idx)) { // bad guy
kvn@2727	436	all_inputs_invariant = false;
kvn@2727	437	break;
kvn@2727	438	}
kvn@2727	439	}
kvn@2727	440	if (all_inputs_invariant) {
kvn@2727	441	_invariant.set(n->_idx); // I am a invariant too
kvn@2727	442	}
kvn@2727	443	} else { // process next input
kvn@2727	444	_stack.set_index(idx + 1);
kvn@2727	445	Node* m = n->in(idx);
kvn@2727	446	if (m != NULL && !_visited.test_set(m->_idx)) {
kvn@2727	447	visit(n, m);
kvn@2727	448	}
kvn@2727	449	}
kvn@2727	450	}
kvn@2727	451	}
kvn@2727	452
kvn@2727	453	// Helper function to set up _old_new map for clone_nodes.
kvn@2727	454	// If n is a known invariant, set up directly ("clone" of n == n).
kvn@2727	455	// Otherwise, push n onto the stack for real cloning.
kvn@2727	456	void clone_visit(Node* n) {
kvn@2727	457	assert(_invariant.test(n->_idx), "must be invariant");
kvn@2727	458	if (_lpt->is_invariant(n)) { // known invariant
kvn@2727	459	_old_new.map(n->_idx, n);
kvn@2727	460	} else { // to be cloned
kvn@2727	461	assert(!n->is_CFG(), "should not see CFG here");
kvn@2727	462	_stack.push(n, n->in(0) == NULL ? 1 : 0);
kvn@2727	463	}
kvn@2727	464	}
kvn@2727	465
kvn@2727	466	// Clone "n" and (possibly) all its inputs recursively
kvn@2727	467	void clone_nodes(Node* n, Node* ctrl) {
kvn@2727	468	clone_visit(n);
kvn@2727	469	while (_stack.is_nonempty()) {
kvn@2727	470	Node* n = _stack.node();
kvn@2727	471	uint idx = _stack.index();
kvn@2727	472	if (idx == n->req()) { // all inputs processed, clone n!
kvn@2727	473	_stack.pop();
kvn@2727	474	// clone invariant node
kvn@2727	475	Node* n_cl = n->clone();
kvn@2727	476	_old_new.map(n->_idx, n_cl);
kvn@2727	477	_phase->register_new_node(n_cl, ctrl);
kvn@2727	478	for (uint i = 0; i < n->req(); i++) {
kvn@2727	479	Node* in = n_cl->in(i);
kvn@2727	480	if (in == NULL) continue;
kvn@2727	481	n_cl->set_req(i, _old_new[in->_idx]);
kvn@2727	482	}
kvn@2727	483	} else { // process next input
kvn@2727	484	_stack.set_index(idx + 1);
kvn@2727	485	Node* m = n->in(idx);
kvn@2727	486	if (m != NULL && !_clone_visited.test_set(m->_idx)) {
kvn@2727	487	clone_visit(m); // visit the input
kvn@2727	488	}
kvn@2727	489	}
kvn@2727	490	}
kvn@2727	491	}
kvn@2727	492
kvn@2727	493	public:
kvn@2727	494	Invariance(Arena* area, IdealLoopTree* lpt) :
kvn@2727	495	_lpt(lpt), _phase(lpt->_phase),
kvn@2727	496	_visited(area), _invariant(area), _stack(area, 10 /* guess */),
kvn@2727	497	_clone_visited(area), _old_new(area)
kvn@2727	498	{}
kvn@2727	499
kvn@2727	500	// Map old to n for invariance computation and clone
kvn@2727	501	void map_ctrl(Node* old, Node* n) {
kvn@2727	502	assert(old->is_CFG() && n->is_CFG(), "must be");
kvn@2727	503	_old_new.map(old->_idx, n); // "clone" of old is n
kvn@2727	504	_invariant.set(old->_idx); // old is invariant
kvn@2727	505	_clone_visited.set(old->_idx);
kvn@2727	506	}
kvn@2727	507
kvn@2727	508	// Driver function to compute invariance
kvn@2727	509	bool is_invariant(Node* n) {
kvn@2727	510	if (!_visited.test_set(n->_idx))
kvn@2727	511	compute_invariance(n);
kvn@2727	512	return (_invariant.test(n->_idx) != 0);
kvn@2727	513	}
kvn@2727	514
kvn@2727	515	// Driver function to clone invariant
kvn@2727	516	Node* clone(Node* n, Node* ctrl) {
kvn@2727	517	assert(ctrl->is_CFG(), "must be");
kvn@2727	518	assert(_invariant.test(n->_idx), "must be an invariant");
kvn@2727	519	if (!_clone_visited.test(n->_idx))
kvn@2727	520	clone_nodes(n, ctrl);
kvn@2727	521	return _old_new[n->_idx];
kvn@2727	522	}
kvn@2727	523	};
kvn@2727	524
kvn@2727	525	//------------------------------is_range_check_if -----------------------------------
kvn@2727	526	// Returns true if the predicate of iff is in "scale*iv + offset u< load_range(ptr)" format
kvn@2727	527	// Note: this function is particularly designed for loop predication. We require load_range
kvn@2727	528	// and offset to be loop invariant computed on the fly by "invar"
kvn@2727	529	bool IdealLoopTree::is_range_check_if(IfNode *iff, PhaseIdealLoop *phase, Invariance& invar) const {
kvn@2727	530	if (!is_loop_exit(iff)) {
kvn@2727	531	return false;
kvn@2727	532	}
kvn@2727	533	if (!iff->in(1)->is_Bool()) {
kvn@2727	534	return false;
kvn@2727	535	}
kvn@2727	536	const BoolNode *bol = iff->in(1)->as_Bool();
kvn@2727	537	if (bol->_test._test != BoolTest::lt) {
kvn@2727	538	return false;
kvn@2727	539	}
kvn@2727	540	if (!bol->in(1)->is_Cmp()) {
kvn@2727	541	return false;
kvn@2727	542	}
kvn@2727	543	const CmpNode *cmp = bol->in(1)->as_Cmp();
kvn@2727	544	if (cmp->Opcode() != Op_CmpU) {
kvn@2727	545	return false;
kvn@2727	546	}
kvn@2727	547	Node* range = cmp->in(2);
kvn@2727	548	if (range->Opcode() != Op_LoadRange) {
kvn@2727	549	const TypeInt* tint = phase->_igvn.type(range)->isa_int();
kvn@2877	550	if (tint == NULL || tint->empty() || tint->_lo < 0) {
kvn@2727	551	// Allow predication on positive values that aren't LoadRanges.
kvn@2727	552	// This allows optimization of loops where the length of the
kvn@2727	553	// array is a known value and doesn't need to be loaded back
kvn@2727	554	// from the array.
kvn@2727	555	return false;
kvn@2727	556	}
kvn@2727	557	}
kvn@2727	558	if (!invar.is_invariant(range)) {
kvn@2727	559	return false;
kvn@2727	560	}
kvn@2727	561	Node *iv = _head->as_CountedLoop()->phi();
kvn@2727	562	int scale = 0;
kvn@2727	563	Node *offset = NULL;
kvn@2727	564	if (!phase->is_scaled_iv_plus_offset(cmp->in(1), iv, &scale, &offset)) {
kvn@2727	565	return false;
kvn@2727	566	}
kvn@2727	567	if (offset && !invar.is_invariant(offset)) { // offset must be invariant
kvn@2727	568	return false;
kvn@2727	569	}
kvn@2727	570	return true;
kvn@2727	571	}
kvn@2727	572
kvn@2727	573	//------------------------------rc_predicate-----------------------------------
kvn@2727	574	// Create a range check predicate
kvn@2727	575	//
kvn@2727	576	// for (i = init; i < limit; i += stride) {
kvn@2727	577	// a[scale*i+offset]
kvn@2727	578	// }
kvn@2727	579	//
kvn@2727	580	// Compute max(scale*i + offset) for init <= i < limit and build the predicate
kvn@2727	581	// as "max(scale*i + offset) u< a.length".
kvn@2727	582	//
kvn@2727	583	// There are two cases for max(scale*i + offset):
kvn@2727	584	// (1) stride*scale > 0
kvn@2727	585	// max(scale*i + offset) = scale*(limit-stride) + offset
kvn@2727	586	// (2) stride*scale < 0
kvn@2727	587	// max(scale*i + offset) = scale*init + offset
kvn@2877	588	BoolNode* PhaseIdealLoop::rc_predicate(IdealLoopTree *loop, Node* ctrl,
kvn@2727	589	int scale, Node* offset,
kvn@2727	590	Node* init, Node* limit, Node* stride,
kvn@2727	591	Node* range, bool upper) {
never@2868	592	stringStream* predString = NULL;
never@2868	593	if (TraceLoopPredicate) {
never@2868	594	predString = new stringStream();
never@2868	595	predString->print("rc_predicate ");
never@2868	596	}
kvn@2727	597
kvn@2727	598	Node* max_idx_expr = init;
kvn@2727	599	int stride_con = stride->get_int();
kvn@2727	600	if ((stride_con > 0) == (scale > 0) == upper) {
kvn@2877	601	if (LoopLimitCheck) {
kvn@2877	602	// With LoopLimitCheck limit is not exact.
kvn@2877	603	// Calculate exact limit here.
kvn@2877	604	// Note, counted loop's test is '<' or '>'.
kvn@2877	605	limit = exact_limit(loop);
kvn@4115	606	max_idx_expr = new (C) SubINode(limit, stride);
kvn@2877	607	register_new_node(max_idx_expr, ctrl);
kvn@2877	608	if (TraceLoopPredicate) predString->print("(limit - stride) ");
kvn@2877	609	} else {
kvn@4115	610	max_idx_expr = new (C) SubINode(limit, stride);
kvn@2877	611	register_new_node(max_idx_expr, ctrl);
kvn@2877	612	if (TraceLoopPredicate) predString->print("(limit - stride) ");
kvn@2877	613	}
kvn@2727	614	} else {
never@2868	615	if (TraceLoopPredicate) predString->print("init ");
kvn@2727	616	}
kvn@2727	617
kvn@2727	618	if (scale != 1) {
kvn@2727	619	ConNode* con_scale = _igvn.intcon(scale);
kvn@4115	620	max_idx_expr = new (C) MulINode(max_idx_expr, con_scale);
kvn@2727	621	register_new_node(max_idx_expr, ctrl);
never@2868	622	if (TraceLoopPredicate) predString->print("* %d ", scale);
kvn@2727	623	}
kvn@2727	624
kvn@2727	625	if (offset && (!offset->is_Con() || offset->get_int() != 0)){
kvn@4115	626	max_idx_expr = new (C) AddINode(max_idx_expr, offset);
kvn@2727	627	register_new_node(max_idx_expr, ctrl);
kvn@2727	628	if (TraceLoopPredicate)
never@2868	629	if (offset->is_Con()) predString->print("+ %d ", offset->get_int());
never@2868	630	else predString->print("+ offset ");
kvn@2727	631	}
kvn@2727	632
kvn@4115	633	CmpUNode* cmp = new (C) CmpUNode(max_idx_expr, range);
kvn@2727	634	register_new_node(cmp, ctrl);
kvn@4115	635	BoolNode* bol = new (C) BoolNode(cmp, BoolTest::lt);
kvn@2727	636	register_new_node(bol, ctrl);
kvn@2727	637
never@2868	638	if (TraceLoopPredicate) {
never@2868	639	predString->print_cr("<u range");
drchase@6680	640	tty->print("%s", predString->as_string());
never@2868	641	}
kvn@2727	642	return bol;
kvn@2727	643	}
kvn@2727	644
kvn@2727	645	//------------------------------ loop_predication_impl--------------------------
kvn@2727	646	// Insert loop predicates for null checks and range checks
kvn@2727	647	bool PhaseIdealLoop::loop_predication_impl(IdealLoopTree *loop) {
kvn@2727	648	if (!UseLoopPredicate) return false;
kvn@2727	649
kvn@2727	650	if (!loop->_head->is_Loop()) {
kvn@2727	651	// Could be a simple region when irreducible loops are present.
kvn@2727	652	return false;
kvn@2727	653	}
kvn@2877	654	LoopNode* head = loop->_head->as_Loop();
kvn@2727	655
kvn@2877	656	if (head->unique_ctrl_out()->Opcode() == Op_NeverBranch) {
kvn@2727	657	// do nothing for infinite loops
kvn@2727	658	return false;
kvn@2727	659	}
kvn@2727	660
kvn@2727	661	CountedLoopNode *cl = NULL;
kvn@3048	662	if (head->is_valid_counted_loop()) {
kvn@2877	663	cl = head->as_CountedLoop();
kvn@2727	664	// do nothing for iteration-splitted loops
kvn@2727	665	if (!cl->is_normal_loop()) return false;
kvn@3038	666	// Avoid RCE if Counted loop's test is '!='.
kvn@3038	667	BoolTest::mask bt = cl->loopexit()->test_trip();
kvn@3038	668	if (bt != BoolTest::lt && bt != BoolTest::gt)
kvn@3038	669	cl = NULL;
kvn@2727	670	}
kvn@2727	671
kvn@2877	672	Node* entry = head->in(LoopNode::EntryControl);
kvn@2877	673	ProjNode *predicate_proj = NULL;
kvn@2877	674	// Loop limit check predicate should be near the loop.
kvn@2877	675	if (LoopLimitCheck) {
kvn@2877	676	predicate_proj = find_predicate_insertion_point(entry, Deoptimization::Reason_loop_limit_check);
kvn@2877	677	if (predicate_proj != NULL)
kvn@2877	678	entry = predicate_proj->in(0)->in(0);
kvn@2877	679	}
kvn@2727	680
kvn@2877	681	predicate_proj = find_predicate_insertion_point(entry, Deoptimization::Reason_predicate);
kvn@2727	682	if (!predicate_proj) {
kvn@2727	683	#ifndef PRODUCT
kvn@2727	684	if (TraceLoopPredicate) {
kvn@2727	685	tty->print("missing predicate:");
kvn@2727	686	loop->dump_head();
kvn@2877	687	head->dump(1);
kvn@2727	688	}
kvn@2727	689	#endif
kvn@2727	690	return false;
kvn@2727	691	}
kvn@2727	692	ConNode* zero = _igvn.intcon(0);
kvn@2727	693	set_ctrl(zero, C->root());
kvn@2727	694
kvn@2727	695	ResourceArea *area = Thread::current()->resource_area();
kvn@2727	696	Invariance invar(area, loop);
kvn@2727	697
kvn@2727	698	// Create list of if-projs such that a newer proj dominates all older
kvn@2727	699	// projs in the list, and they all dominate loop->tail()
kvn@2727	700	Node_List if_proj_list(area);
kvn@2727	701	Node *current_proj = loop->tail(); //start from tail
kvn@2727	702	while (current_proj != head) {
kvn@2727	703	if (loop == get_loop(current_proj) && // still in the loop ?
kvn@2727	704	current_proj->is_Proj() && // is a projection ?
kvn@2727	705	current_proj->in(0)->Opcode() == Op_If) { // is a if projection ?
kvn@2727	706	if_proj_list.push(current_proj);
kvn@2727	707	}
kvn@2727	708	current_proj = idom(current_proj);
kvn@2727	709	}
kvn@2727	710
kvn@2727	711	bool hoisted = false; // true if at least one proj is promoted
kvn@2727	712	while (if_proj_list.size() > 0) {
kvn@2727	713	// Following are changed to nonnull when a predicate can be hoisted
kvn@2727	714	ProjNode* new_predicate_proj = NULL;
kvn@2727	715
kvn@2727	716	ProjNode* proj = if_proj_list.pop()->as_Proj();
kvn@2727	717	IfNode* iff = proj->in(0)->as_If();
kvn@2727	718
roland@5981	719	if (!proj->is_uncommon_trap_if_pattern(Deoptimization::Reason_none)) {
kvn@2727	720	if (loop->is_loop_exit(iff)) {
kvn@2727	721	// stop processing the remaining projs in the list because the execution of them
kvn@2727	722	// depends on the condition of "iff" (iff->in(1)).
kvn@2727	723	break;
kvn@2727	724	} else {
kvn@2727	725	// Both arms are inside the loop. There are two cases:
kvn@2727	726	// (1) there is one backward branch. In this case, any remaining proj
kvn@2727	727	// in the if_proj list post-dominates "iff". So, the condition of "iff"
kvn@2727	728	// does not determine the execution the remining projs directly, and we
kvn@2727	729	// can safely continue.
kvn@2727	730	// (2) both arms are forwarded, i.e. a diamond shape. In this case, "proj"
kvn@2727	731	// does not dominate loop->tail(), so it can not be in the if_proj list.
kvn@2727	732	continue;
kvn@2727	733	}
kvn@2727	734	}
kvn@2727	735
kvn@2727	736	Node* test = iff->in(1);
kvn@2727	737	if (!test->is_Bool()){ //Conv2B, ...
kvn@2727	738	continue;
kvn@2727	739	}
kvn@2727	740	BoolNode* bol = test->as_Bool();
kvn@2727	741	if (invar.is_invariant(bol)) {
kvn@2727	742	// Invariant test
kvn@2727	743	new_predicate_proj = create_new_if_for_predicate(predicate_proj, NULL,
kvn@2727	744	Deoptimization::Reason_predicate);
kvn@2727	745	Node* ctrl = new_predicate_proj->in(0)->as_If()->in(0);
kvn@2727	746	BoolNode* new_predicate_bol = invar.clone(bol, ctrl)->as_Bool();
kvn@2727	747
kvn@2727	748	// Negate test if necessary
kvn@2727	749	bool negated = false;
kvn@2727	750	if (proj->_con != predicate_proj->_con) {
kvn@4115	751	new_predicate_bol = new (C) BoolNode(new_predicate_bol->in(1), new_predicate_bol->_test.negate());
kvn@2727	752	register_new_node(new_predicate_bol, ctrl);
kvn@2727	753	negated = true;
kvn@2727	754	}
kvn@2727	755	IfNode* new_predicate_iff = new_predicate_proj->in(0)->as_If();
kvn@2727	756	_igvn.hash_delete(new_predicate_iff);
kvn@2727	757	new_predicate_iff->set_req(1, new_predicate_bol);
kvn@2727	758	#ifndef PRODUCT
kvn@2727	759	if (TraceLoopPredicate) {
kvn@2727	760	tty->print("Predicate invariant if%s: %d ", negated ? " negated" : "", new_predicate_iff->_idx);
kvn@2727	761	loop->dump_head();
kvn@2727	762	} else if (TraceLoopOpts) {
kvn@2727	763	tty->print("Predicate IC ");
kvn@2727	764	loop->dump_head();
kvn@2727	765	}
kvn@2727	766	#endif
kvn@5110	767	} else if ((cl != NULL) && (proj->_con == predicate_proj->_con) &&
kvn@5110	768	loop->is_range_check_if(iff, this, invar)) {
kvn@2727	769
kvn@2727	770	// Range check for counted loops
kvn@2727	771	const Node* cmp = bol->in(1)->as_Cmp();
kvn@2727	772	Node* idx = cmp->in(1);
kvn@2727	773	assert(!invar.is_invariant(idx), "index is variant");
kvn@2727	774	Node* rng = cmp->in(2);
kvn@2877	775	assert(rng->Opcode() == Op_LoadRange || _igvn.type(rng)->is_int() >= 0, "must be");
kvn@2727	776	assert(invar.is_invariant(rng), "range must be invariant");
kvn@2727	777	int scale = 1;
kvn@2727	778	Node* offset = zero;
kvn@2727	779	bool ok = is_scaled_iv_plus_offset(idx, cl->phi(), &scale, &offset);
kvn@2727	780	assert(ok, "must be index expression");
kvn@2727	781
kvn@2727	782	Node* init = cl->init_trip();
kvn@2727	783	Node* limit = cl->limit();
kvn@2727	784	Node* stride = cl->stride();
kvn@2727	785
kvn@2727	786	// Build if's for the upper and lower bound tests. The
kvn@2727	787	// lower_bound test will dominate the upper bound test and all
kvn@2727	788	// cloned or created nodes will use the lower bound test as
kvn@2727	789	// their declared control.
kvn@2727	790	ProjNode* lower_bound_proj = create_new_if_for_predicate(predicate_proj, NULL, Deoptimization::Reason_predicate);
kvn@2727	791	ProjNode* upper_bound_proj = create_new_if_for_predicate(predicate_proj, NULL, Deoptimization::Reason_predicate);
kvn@2727	792	assert(upper_bound_proj->in(0)->as_If()->in(0) == lower_bound_proj, "should dominate");
kvn@2727	793	Node *ctrl = lower_bound_proj->in(0)->as_If()->in(0);
kvn@2727	794
kvn@2727	795	// Perform cloning to keep Invariance state correct since the
kvn@2727	796	// late schedule will place invariant things in the loop.
kvn@2727	797	rng = invar.clone(rng, ctrl);
kvn@2727	798	if (offset && offset != zero) {
kvn@2727	799	assert(invar.is_invariant(offset), "offset must be loop invariant");
kvn@2727	800	offset = invar.clone(offset, ctrl);
kvn@2727	801	}
kvn@2727	802
kvn@2727	803	// Test the lower bound
kvn@2877	804	Node* lower_bound_bol = rc_predicate(loop, ctrl, scale, offset, init, limit, stride, rng, false);
kvn@2727	805	IfNode* lower_bound_iff = lower_bound_proj->in(0)->as_If();
kvn@2727	806	_igvn.hash_delete(lower_bound_iff);
kvn@2727	807	lower_bound_iff->set_req(1, lower_bound_bol);
kvn@2727	808	if (TraceLoopPredicate) tty->print_cr("lower bound check if: %d", lower_bound_iff->_idx);
kvn@2727	809
kvn@2727	810	// Test the upper bound
kvn@3038	811	Node* upper_bound_bol = rc_predicate(loop, lower_bound_proj, scale, offset, init, limit, stride, rng, true);
kvn@2727	812	IfNode* upper_bound_iff = upper_bound_proj->in(0)->as_If();
kvn@2727	813	_igvn.hash_delete(upper_bound_iff);
kvn@2727	814	upper_bound_iff->set_req(1, upper_bound_bol);
kvn@2727	815	if (TraceLoopPredicate) tty->print_cr("upper bound check if: %d", lower_bound_iff->_idx);
kvn@2727	816
kvn@2727	817	// Fall through into rest of the clean up code which will move
kvn@2727	818	// any dependent nodes onto the upper bound test.
kvn@2727	819	new_predicate_proj = upper_bound_proj;
kvn@2727	820
kvn@2727	821	#ifndef PRODUCT
kvn@2727	822	if (TraceLoopOpts && !TraceLoopPredicate) {
kvn@2727	823	tty->print("Predicate RC ");
kvn@2727	824	loop->dump_head();
kvn@2727	825	}
kvn@2727	826	#endif
kvn@2727	827	} else {
kvn@2727	828	// Loop variant check (for example, range check in non-counted loop)
kvn@2727	829	// with uncommon trap.
kvn@2727	830	continue;
kvn@2727	831	}
kvn@2727	832	assert(new_predicate_proj != NULL, "sanity");
kvn@2727	833	// Success - attach condition (new_predicate_bol) to predicate if
kvn@2727	834	invar.map_ctrl(proj, new_predicate_proj); // so that invariance test can be appropriate
kvn@2727	835
kvn@2727	836	// Eliminate the old If in the loop body
kvn@2727	837	dominated_by( new_predicate_proj, iff, proj->_con != new_predicate_proj->_con );
kvn@2727	838
kvn@2727	839	hoisted = true;
kvn@2727	840	C->set_major_progress();
kvn@2727	841	} // end while
kvn@2727	842
kvn@2727	843	#ifndef PRODUCT
kvn@2727	844	// report that the loop predication has been actually performed
kvn@2727	845	// for this loop
kvn@2727	846	if (TraceLoopPredicate && hoisted) {
kvn@2727	847	tty->print("Loop Predication Performed:");
kvn@2727	848	loop->dump_head();
kvn@2727	849	}
kvn@2727	850	#endif
kvn@2727	851
kvn@2727	852	return hoisted;
kvn@2727	853	}
kvn@2727	854
kvn@2727	855	//------------------------------loop_predication--------------------------------
kvn@2727	856	// driver routine for loop predication optimization
kvn@2727	857	bool IdealLoopTree::loop_predication( PhaseIdealLoop *phase) {
kvn@2727	858	bool hoisted = false;
kvn@2727	859	// Recursively promote predicates
kvn@2727	860	if (_child) {
kvn@2727	861	hoisted = _child->loop_predication( phase);
kvn@2727	862	}
kvn@2727	863
kvn@2727	864	// self
kvn@2727	865	if (!_irreducible && !tail()->is_top()) {
kvn@2727	866	hoisted |= phase->loop_predication_impl(this);
kvn@2727	867	}
kvn@2727	868
kvn@2727	869	if (_next) { //sibling
kvn@2727	870	hoisted |= _next->loop_predication( phase);
kvn@2727	871	}
kvn@2727	872
kvn@2727	873	return hoisted;
kvn@2727	874	}