Mercurial > hg > truffle
annotate src/share/vm/opto/escape.cpp @ 756:cecd04fc6f93
6837011: SIGSEGV in PhaseIdealLoop in 32bit jvm
Summary: The CR's test crashes with SIGSEGV when running with "-server -Xcomp" using using 32bit jvm.
Reviewed-by: kvn, never, rasbold
author | twisti |
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date | Wed, 06 May 2009 12:04:42 -0700 |
parents | 98cb887364d3 |
children | b2934faac289 |
rev | line source |
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0 | 1 /* |
196 | 2 * Copyright 2005-2008 Sun Microsystems, Inc. All Rights Reserved. |
0 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
19 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, | |
20 * CA 95054 USA or visit www.sun.com if you need additional information or | |
21 * have any questions. | |
22 * | |
23 */ | |
24 | |
25 #include "incls/_precompiled.incl" | |
26 #include "incls/_escape.cpp.incl" | |
27 | |
28 void PointsToNode::add_edge(uint targIdx, PointsToNode::EdgeType et) { | |
29 uint v = (targIdx << EdgeShift) + ((uint) et); | |
30 if (_edges == NULL) { | |
31 Arena *a = Compile::current()->comp_arena(); | |
32 _edges = new(a) GrowableArray<uint>(a, INITIAL_EDGE_COUNT, 0, 0); | |
33 } | |
34 _edges->append_if_missing(v); | |
35 } | |
36 | |
37 void PointsToNode::remove_edge(uint targIdx, PointsToNode::EdgeType et) { | |
38 uint v = (targIdx << EdgeShift) + ((uint) et); | |
39 | |
40 _edges->remove(v); | |
41 } | |
42 | |
43 #ifndef PRODUCT | |
77 | 44 static const char *node_type_names[] = { |
0 | 45 "UnknownType", |
46 "JavaObject", | |
47 "LocalVar", | |
48 "Field" | |
49 }; | |
50 | |
77 | 51 static const char *esc_names[] = { |
0 | 52 "UnknownEscape", |
65 | 53 "NoEscape", |
54 "ArgEscape", | |
55 "GlobalEscape" | |
0 | 56 }; |
57 | |
77 | 58 static const char *edge_type_suffix[] = { |
0 | 59 "?", // UnknownEdge |
60 "P", // PointsToEdge | |
61 "D", // DeferredEdge | |
62 "F" // FieldEdge | |
63 }; | |
64 | |
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65 void PointsToNode::dump(bool print_state) const { |
0 | 66 NodeType nt = node_type(); |
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67 tty->print("%s ", node_type_names[(int) nt]); |
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68 if (print_state) { |
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69 EscapeState es = escape_state(); |
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70 tty->print("%s %s ", esc_names[(int) es], _scalar_replaceable ? "":"NSR"); |
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71 } |
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72 tty->print("[["); |
0 | 73 for (uint i = 0; i < edge_count(); i++) { |
74 tty->print(" %d%s", edge_target(i), edge_type_suffix[(int) edge_type(i)]); | |
75 } | |
76 tty->print("]] "); | |
77 if (_node == NULL) | |
78 tty->print_cr("<null>"); | |
79 else | |
80 _node->dump(); | |
81 } | |
82 #endif | |
83 | |
244
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84 ConnectionGraph::ConnectionGraph(Compile * C) : |
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85 _nodes(C->comp_arena(), C->unique(), C->unique(), PointsToNode()), |
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86 _processed(C->comp_arena()), |
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87 _collecting(true), |
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88 _compile(C), |
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89 _node_map(C->comp_arena()) { |
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90 |
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91 _phantom_object = C->top()->_idx, |
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92 add_node(C->top(), PointsToNode::JavaObject, PointsToNode::GlobalEscape,true); |
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93 |
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94 // Add ConP(#NULL) and ConN(#NULL) nodes. |
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95 PhaseGVN* igvn = C->initial_gvn(); |
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96 Node* oop_null = igvn->zerocon(T_OBJECT); |
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97 _oop_null = oop_null->_idx; |
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98 assert(_oop_null < C->unique(), "should be created already"); |
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99 add_node(oop_null, PointsToNode::JavaObject, PointsToNode::NoEscape, true); |
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100 |
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101 if (UseCompressedOops) { |
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102 Node* noop_null = igvn->zerocon(T_NARROWOOP); |
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103 _noop_null = noop_null->_idx; |
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104 assert(_noop_null < C->unique(), "should be created already"); |
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105 add_node(noop_null, PointsToNode::JavaObject, PointsToNode::NoEscape, true); |
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106 } |
0 | 107 } |
108 | |
109 void ConnectionGraph::add_pointsto_edge(uint from_i, uint to_i) { | |
110 PointsToNode *f = ptnode_adr(from_i); | |
111 PointsToNode *t = ptnode_adr(to_i); | |
112 | |
113 assert(f->node_type() != PointsToNode::UnknownType && t->node_type() != PointsToNode::UnknownType, "node types must be set"); | |
114 assert(f->node_type() == PointsToNode::LocalVar || f->node_type() == PointsToNode::Field, "invalid source of PointsTo edge"); | |
115 assert(t->node_type() == PointsToNode::JavaObject, "invalid destination of PointsTo edge"); | |
116 f->add_edge(to_i, PointsToNode::PointsToEdge); | |
117 } | |
118 | |
119 void ConnectionGraph::add_deferred_edge(uint from_i, uint to_i) { | |
120 PointsToNode *f = ptnode_adr(from_i); | |
121 PointsToNode *t = ptnode_adr(to_i); | |
122 | |
123 assert(f->node_type() != PointsToNode::UnknownType && t->node_type() != PointsToNode::UnknownType, "node types must be set"); | |
124 assert(f->node_type() == PointsToNode::LocalVar || f->node_type() == PointsToNode::Field, "invalid source of Deferred edge"); | |
125 assert(t->node_type() == PointsToNode::LocalVar || t->node_type() == PointsToNode::Field, "invalid destination of Deferred edge"); | |
126 // don't add a self-referential edge, this can occur during removal of | |
127 // deferred edges | |
128 if (from_i != to_i) | |
129 f->add_edge(to_i, PointsToNode::DeferredEdge); | |
130 } | |
131 | |
65 | 132 int ConnectionGraph::address_offset(Node* adr, PhaseTransform *phase) { |
133 const Type *adr_type = phase->type(adr); | |
134 if (adr->is_AddP() && adr_type->isa_oopptr() == NULL && | |
135 adr->in(AddPNode::Address)->is_Proj() && | |
136 adr->in(AddPNode::Address)->in(0)->is_Allocate()) { | |
137 // We are computing a raw address for a store captured by an Initialize | |
138 // compute an appropriate address type. AddP cases #3 and #5 (see below). | |
139 int offs = (int)phase->find_intptr_t_con(adr->in(AddPNode::Offset), Type::OffsetBot); | |
140 assert(offs != Type::OffsetBot || | |
141 adr->in(AddPNode::Address)->in(0)->is_AllocateArray(), | |
142 "offset must be a constant or it is initialization of array"); | |
143 return offs; | |
144 } | |
145 const TypePtr *t_ptr = adr_type->isa_ptr(); | |
0 | 146 assert(t_ptr != NULL, "must be a pointer type"); |
147 return t_ptr->offset(); | |
148 } | |
149 | |
150 void ConnectionGraph::add_field_edge(uint from_i, uint to_i, int offset) { | |
151 PointsToNode *f = ptnode_adr(from_i); | |
152 PointsToNode *t = ptnode_adr(to_i); | |
153 | |
154 assert(f->node_type() != PointsToNode::UnknownType && t->node_type() != PointsToNode::UnknownType, "node types must be set"); | |
155 assert(f->node_type() == PointsToNode::JavaObject, "invalid destination of Field edge"); | |
156 assert(t->node_type() == PointsToNode::Field, "invalid destination of Field edge"); | |
157 assert (t->offset() == -1 || t->offset() == offset, "conflicting field offsets"); | |
158 t->set_offset(offset); | |
159 | |
160 f->add_edge(to_i, PointsToNode::FieldEdge); | |
161 } | |
162 | |
163 void ConnectionGraph::set_escape_state(uint ni, PointsToNode::EscapeState es) { | |
164 PointsToNode *npt = ptnode_adr(ni); | |
165 PointsToNode::EscapeState old_es = npt->escape_state(); | |
166 if (es > old_es) | |
167 npt->set_escape_state(es); | |
168 } | |
169 | |
65 | 170 void ConnectionGraph::add_node(Node *n, PointsToNode::NodeType nt, |
171 PointsToNode::EscapeState es, bool done) { | |
172 PointsToNode* ptadr = ptnode_adr(n->_idx); | |
173 ptadr->_node = n; | |
174 ptadr->set_node_type(nt); | |
175 | |
176 // inline set_escape_state(idx, es); | |
177 PointsToNode::EscapeState old_es = ptadr->escape_state(); | |
178 if (es > old_es) | |
179 ptadr->set_escape_state(es); | |
180 | |
181 if (done) | |
182 _processed.set(n->_idx); | |
183 } | |
184 | |
0 | 185 PointsToNode::EscapeState ConnectionGraph::escape_state(Node *n, PhaseTransform *phase) { |
186 uint idx = n->_idx; | |
187 PointsToNode::EscapeState es; | |
188 | |
65 | 189 // If we are still collecting or there were no non-escaping allocations |
190 // we don't know the answer yet | |
244
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191 if (_collecting) |
0 | 192 return PointsToNode::UnknownEscape; |
193 | |
194 // if the node was created after the escape computation, return | |
195 // UnknownEscape | |
244
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196 if (idx >= nodes_size()) |
0 | 197 return PointsToNode::UnknownEscape; |
198 | |
244
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199 es = ptnode_adr(idx)->escape_state(); |
0 | 200 |
201 // if we have already computed a value, return it | |
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202 if (es != PointsToNode::UnknownEscape && |
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203 ptnode_adr(idx)->node_type() == PointsToNode::JavaObject) |
0 | 204 return es; |
205 | |
244
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206 // PointsTo() calls n->uncast() which can return a new ideal node. |
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207 if (n->uncast()->_idx >= nodes_size()) |
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208 return PointsToNode::UnknownEscape; |
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209 |
0 | 210 // compute max escape state of anything this node could point to |
211 VectorSet ptset(Thread::current()->resource_area()); | |
212 PointsTo(ptset, n, phase); | |
65 | 213 for(VectorSetI i(&ptset); i.test() && es != PointsToNode::GlobalEscape; ++i) { |
0 | 214 uint pt = i.elem; |
244
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215 PointsToNode::EscapeState pes = ptnode_adr(pt)->escape_state(); |
0 | 216 if (pes > es) |
217 es = pes; | |
218 } | |
219 // cache the computed escape state | |
220 assert(es != PointsToNode::UnknownEscape, "should have computed an escape state"); | |
244
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221 ptnode_adr(idx)->set_escape_state(es); |
0 | 222 return es; |
223 } | |
224 | |
225 void ConnectionGraph::PointsTo(VectorSet &ptset, Node * n, PhaseTransform *phase) { | |
226 VectorSet visited(Thread::current()->resource_area()); | |
227 GrowableArray<uint> worklist; | |
228 | |
124
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229 #ifdef ASSERT |
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230 Node *orig_n = n; |
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231 #endif |
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232 |
65 | 233 n = n->uncast(); |
244
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234 PointsToNode* npt = ptnode_adr(n->_idx); |
0 | 235 |
236 // If we have a JavaObject, return just that object | |
244
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237 if (npt->node_type() == PointsToNode::JavaObject) { |
0 | 238 ptset.set(n->_idx); |
239 return; | |
240 } | |
124
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241 #ifdef ASSERT |
244
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242 if (npt->_node == NULL) { |
124
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243 if (orig_n != n) |
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244 orig_n->dump(); |
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245 n->dump(); |
244
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246 assert(npt->_node != NULL, "unregistered node"); |
124
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247 } |
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248 #endif |
0 | 249 worklist.push(n->_idx); |
250 while(worklist.length() > 0) { | |
251 int ni = worklist.pop(); | |
244
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252 if (visited.test_set(ni)) |
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253 continue; |
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254 |
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255 PointsToNode* pn = ptnode_adr(ni); |
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256 // ensure that all inputs of a Phi have been processed |
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257 assert(!_collecting || !pn->_node->is_Phi() || _processed.test(ni),""); |
0 | 258 |
244
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259 int edges_processed = 0; |
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260 uint e_cnt = pn->edge_count(); |
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261 for (uint e = 0; e < e_cnt; e++) { |
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262 uint etgt = pn->edge_target(e); |
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263 PointsToNode::EdgeType et = pn->edge_type(e); |
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264 if (et == PointsToNode::PointsToEdge) { |
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265 ptset.set(etgt); |
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266 edges_processed++; |
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267 } else if (et == PointsToNode::DeferredEdge) { |
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268 worklist.push(etgt); |
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269 edges_processed++; |
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270 } else { |
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271 assert(false,"neither PointsToEdge or DeferredEdge"); |
0 | 272 } |
244
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273 } |
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274 if (edges_processed == 0) { |
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275 // no deferred or pointsto edges found. Assume the value was set |
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276 // outside this method. Add the phantom object to the pointsto set. |
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277 ptset.set(_phantom_object); |
0 | 278 } |
279 } | |
280 } | |
281 | |
101
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282 void ConnectionGraph::remove_deferred(uint ni, GrowableArray<uint>* deferred_edges, VectorSet* visited) { |
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283 // This method is most expensive during ConnectionGraph construction. |
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284 // Reuse vectorSet and an additional growable array for deferred edges. |
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285 deferred_edges->clear(); |
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286 visited->Clear(); |
0 | 287 |
244
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288 visited->set(ni); |
0 | 289 PointsToNode *ptn = ptnode_adr(ni); |
290 | |
101
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291 // Mark current edges as visited and move deferred edges to separate array. |
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292 for (uint i = 0; i < ptn->edge_count(); ) { |
65 | 293 uint t = ptn->edge_target(i); |
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294 #ifdef ASSERT |
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295 assert(!visited->test_set(t), "expecting no duplications"); |
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296 #else |
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297 visited->set(t); |
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298 #endif |
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299 if (ptn->edge_type(i) == PointsToNode::DeferredEdge) { |
0 | 300 ptn->remove_edge(t, PointsToNode::DeferredEdge); |
101
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301 deferred_edges->append(t); |
124
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302 } else { |
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303 i++; |
101
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304 } |
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305 } |
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306 for (int next = 0; next < deferred_edges->length(); ++next) { |
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307 uint t = deferred_edges->at(next); |
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308 PointsToNode *ptt = ptnode_adr(t); |
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309 uint e_cnt = ptt->edge_count(); |
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310 for (uint e = 0; e < e_cnt; e++) { |
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311 uint etgt = ptt->edge_target(e); |
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312 if (visited->test_set(etgt)) |
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313 continue; |
244
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314 |
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315 PointsToNode::EdgeType et = ptt->edge_type(e); |
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316 if (et == PointsToNode::PointsToEdge) { |
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317 add_pointsto_edge(ni, etgt); |
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318 if(etgt == _phantom_object) { |
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319 // Special case - field set outside (globally escaping). |
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320 ptn->set_escape_state(PointsToNode::GlobalEscape); |
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321 } |
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322 } else if (et == PointsToNode::DeferredEdge) { |
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323 deferred_edges->append(etgt); |
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324 } else { |
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325 assert(false,"invalid connection graph"); |
0 | 326 } |
327 } | |
328 } | |
329 } | |
330 | |
331 | |
332 // Add an edge to node given by "to_i" from any field of adr_i whose offset | |
333 // matches "offset" A deferred edge is added if to_i is a LocalVar, and | |
334 // a pointsto edge is added if it is a JavaObject | |
335 | |
336 void ConnectionGraph::add_edge_from_fields(uint adr_i, uint to_i, int offs) { | |
244
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337 PointsToNode* an = ptnode_adr(adr_i); |
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338 PointsToNode* to = ptnode_adr(to_i); |
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339 bool deferred = (to->node_type() == PointsToNode::LocalVar); |
0 | 340 |
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341 for (uint fe = 0; fe < an->edge_count(); fe++) { |
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342 assert(an->edge_type(fe) == PointsToNode::FieldEdge, "expecting a field edge"); |
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343 int fi = an->edge_target(fe); |
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344 PointsToNode* pf = ptnode_adr(fi); |
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345 int po = pf->offset(); |
0 | 346 if (po == offs || po == Type::OffsetBot || offs == Type::OffsetBot) { |
347 if (deferred) | |
348 add_deferred_edge(fi, to_i); | |
349 else | |
350 add_pointsto_edge(fi, to_i); | |
351 } | |
352 } | |
353 } | |
354 | |
65 | 355 // Add a deferred edge from node given by "from_i" to any field of adr_i |
356 // whose offset matches "offset". | |
0 | 357 void ConnectionGraph::add_deferred_edge_to_fields(uint from_i, uint adr_i, int offs) { |
244
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358 PointsToNode* an = ptnode_adr(adr_i); |
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359 for (uint fe = 0; fe < an->edge_count(); fe++) { |
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360 assert(an->edge_type(fe) == PointsToNode::FieldEdge, "expecting a field edge"); |
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361 int fi = an->edge_target(fe); |
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362 PointsToNode* pf = ptnode_adr(fi); |
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363 int po = pf->offset(); |
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364 if (pf->edge_count() == 0) { |
0 | 365 // we have not seen any stores to this field, assume it was set outside this method |
366 add_pointsto_edge(fi, _phantom_object); | |
367 } | |
368 if (po == offs || po == Type::OffsetBot || offs == Type::OffsetBot) { | |
369 add_deferred_edge(from_i, fi); | |
370 } | |
371 } | |
372 } | |
373 | |
65 | 374 // Helper functions |
375 | |
376 static Node* get_addp_base(Node *addp) { | |
377 assert(addp->is_AddP(), "must be AddP"); | |
378 // | |
379 // AddP cases for Base and Address inputs: | |
380 // case #1. Direct object's field reference: | |
381 // Allocate | |
382 // | | |
383 // Proj #5 ( oop result ) | |
384 // | | |
385 // CheckCastPP (cast to instance type) | |
386 // | | | |
387 // AddP ( base == address ) | |
388 // | |
389 // case #2. Indirect object's field reference: | |
390 // Phi | |
391 // | | |
392 // CastPP (cast to instance type) | |
393 // | | | |
394 // AddP ( base == address ) | |
395 // | |
396 // case #3. Raw object's field reference for Initialize node: | |
397 // Allocate | |
398 // | | |
399 // Proj #5 ( oop result ) | |
400 // top | | |
401 // \ | | |
402 // AddP ( base == top ) | |
403 // | |
404 // case #4. Array's element reference: | |
405 // {CheckCastPP | CastPP} | |
406 // | | | | |
407 // | AddP ( array's element offset ) | |
408 // | | | |
409 // AddP ( array's offset ) | |
410 // | |
411 // case #5. Raw object's field reference for arraycopy stub call: | |
412 // The inline_native_clone() case when the arraycopy stub is called | |
413 // after the allocation before Initialize and CheckCastPP nodes. | |
414 // Allocate | |
415 // | | |
416 // Proj #5 ( oop result ) | |
417 // | | | |
418 // AddP ( base == address ) | |
419 // | |
77 | 420 // case #6. Constant Pool, ThreadLocal, CastX2P or |
421 // Raw object's field reference: | |
422 // {ConP, ThreadLocal, CastX2P, raw Load} | |
65 | 423 // top | |
424 // \ | | |
425 // AddP ( base == top ) | |
426 // | |
77 | 427 // case #7. Klass's field reference. |
428 // LoadKlass | |
429 // | | | |
430 // AddP ( base == address ) | |
431 // | |
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432 // case #8. narrow Klass's field reference. |
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433 // LoadNKlass |
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434 // | |
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435 // DecodeN |
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436 // | | |
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437 // AddP ( base == address ) |
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438 // |
65 | 439 Node *base = addp->in(AddPNode::Base)->uncast(); |
440 if (base->is_top()) { // The AddP case #3 and #6. | |
441 base = addp->in(AddPNode::Address)->uncast(); | |
442 assert(base->Opcode() == Op_ConP || base->Opcode() == Op_ThreadLocal || | |
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443 base->Opcode() == Op_CastX2P || base->is_DecodeN() || |
77 | 444 (base->is_Mem() && base->bottom_type() == TypeRawPtr::NOTNULL) || |
445 (base->is_Proj() && base->in(0)->is_Allocate()), "sanity"); | |
0 | 446 } |
65 | 447 return base; |
448 } | |
449 | |
450 static Node* find_second_addp(Node* addp, Node* n) { | |
451 assert(addp->is_AddP() && addp->outcnt() > 0, "Don't process dead nodes"); | |
452 | |
453 Node* addp2 = addp->raw_out(0); | |
454 if (addp->outcnt() == 1 && addp2->is_AddP() && | |
455 addp2->in(AddPNode::Base) == n && | |
456 addp2->in(AddPNode::Address) == addp) { | |
457 | |
458 assert(addp->in(AddPNode::Base) == n, "expecting the same base"); | |
459 // | |
460 // Find array's offset to push it on worklist first and | |
461 // as result process an array's element offset first (pushed second) | |
462 // to avoid CastPP for the array's offset. | |
463 // Otherwise the inserted CastPP (LocalVar) will point to what | |
464 // the AddP (Field) points to. Which would be wrong since | |
465 // the algorithm expects the CastPP has the same point as | |
466 // as AddP's base CheckCastPP (LocalVar). | |
467 // | |
468 // ArrayAllocation | |
469 // | | |
470 // CheckCastPP | |
471 // | | |
472 // memProj (from ArrayAllocation CheckCastPP) | |
473 // | || | |
474 // | || Int (element index) | |
475 // | || | ConI (log(element size)) | |
476 // | || | / | |
477 // | || LShift | |
478 // | || / | |
479 // | AddP (array's element offset) | |
480 // | | | |
481 // | | ConI (array's offset: #12(32-bits) or #24(64-bits)) | |
482 // | / / | |
483 // AddP (array's offset) | |
484 // | | |
485 // Load/Store (memory operation on array's element) | |
486 // | |
487 return addp2; | |
488 } | |
489 return NULL; | |
0 | 490 } |
491 | |
492 // | |
493 // Adjust the type and inputs of an AddP which computes the | |
494 // address of a field of an instance | |
495 // | |
293
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496 bool ConnectionGraph::split_AddP(Node *addp, Node *base, PhaseGVN *igvn) { |
65 | 497 const TypeOopPtr *base_t = igvn->type(base)->isa_oopptr(); |
223 | 498 assert(base_t != NULL && base_t->is_known_instance(), "expecting instance oopptr"); |
0 | 499 const TypeOopPtr *t = igvn->type(addp)->isa_oopptr(); |
65 | 500 if (t == NULL) { |
501 // We are computing a raw address for a store captured by an Initialize | |
293
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502 // compute an appropriate address type (cases #3 and #5). |
65 | 503 assert(igvn->type(addp) == TypeRawPtr::NOTNULL, "must be raw pointer"); |
504 assert(addp->in(AddPNode::Address)->is_Proj(), "base of raw address must be result projection from allocation"); | |
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505 intptr_t offs = (int)igvn->find_intptr_t_con(addp->in(AddPNode::Offset), Type::OffsetBot); |
65 | 506 assert(offs != Type::OffsetBot, "offset must be a constant"); |
507 t = base_t->add_offset(offs)->is_oopptr(); | |
508 } | |
223 | 509 int inst_id = base_t->instance_id(); |
510 assert(!t->is_known_instance() || t->instance_id() == inst_id, | |
0 | 511 "old type must be non-instance or match new type"); |
293
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512 |
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513 // The type 't' could be subclass of 'base_t'. |
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514 // As result t->offset() could be large then base_t's size and it will |
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515 // cause the failure in add_offset() with narrow oops since TypeOopPtr() |
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516 // constructor verifies correctness of the offset. |
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517 // |
605 | 518 // It could happened on subclass's branch (from the type profiling |
293
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519 // inlining) which was not eliminated during parsing since the exactness |
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520 // of the allocation type was not propagated to the subclass type check. |
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521 // |
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522 // Do nothing for such AddP node and don't process its users since |
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523 // this code branch will go away. |
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524 // |
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525 if (!t->is_known_instance() && |
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526 !t->klass()->equals(base_t->klass()) && |
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527 t->klass()->is_subtype_of(base_t->klass())) { |
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528 return false; // bail out |
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529 } |
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530 |
0 | 531 const TypeOopPtr *tinst = base_t->add_offset(t->offset())->is_oopptr(); |
65 | 532 // Do NOT remove the next call: ensure an new alias index is allocated |
533 // for the instance type | |
0 | 534 int alias_idx = _compile->get_alias_index(tinst); |
535 igvn->set_type(addp, tinst); | |
536 // record the allocation in the node map | |
537 set_map(addp->_idx, get_map(base->_idx)); | |
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538 |
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539 // Set addp's Base and Address to 'base'. |
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540 Node *abase = addp->in(AddPNode::Base); |
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541 Node *adr = addp->in(AddPNode::Address); |
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542 if (adr->is_Proj() && adr->in(0)->is_Allocate() && |
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543 adr->in(0)->_idx == (uint)inst_id) { |
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544 // Skip AddP cases #3 and #5. |
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545 } else { |
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546 assert(!abase->is_top(), "sanity"); // AddP case #3 |
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547 if (abase != base) { |
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548 igvn->hash_delete(addp); |
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549 addp->set_req(AddPNode::Base, base); |
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550 if (abase == adr) { |
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551 addp->set_req(AddPNode::Address, base); |
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552 } else { |
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553 // AddP case #4 (adr is array's element offset AddP node) |
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554 #ifdef ASSERT |
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555 const TypeOopPtr *atype = igvn->type(adr)->isa_oopptr(); |
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556 assert(adr->is_AddP() && atype != NULL && |
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557 atype->instance_id() == inst_id, "array's element offset should be processed first"); |
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558 #endif |
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559 } |
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560 igvn->hash_insert(addp); |
0 | 561 } |
562 } | |
65 | 563 // Put on IGVN worklist since at least addp's type was changed above. |
564 record_for_optimizer(addp); | |
293
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565 return true; |
0 | 566 } |
567 | |
568 // | |
569 // Create a new version of orig_phi if necessary. Returns either the newly | |
570 // created phi or an existing phi. Sets create_new to indicate wheter a new | |
571 // phi was created. Cache the last newly created phi in the node map. | |
572 // | |
573 PhiNode *ConnectionGraph::create_split_phi(PhiNode *orig_phi, int alias_idx, GrowableArray<PhiNode *> &orig_phi_worklist, PhaseGVN *igvn, bool &new_created) { | |
574 Compile *C = _compile; | |
575 new_created = false; | |
576 int phi_alias_idx = C->get_alias_index(orig_phi->adr_type()); | |
577 // nothing to do if orig_phi is bottom memory or matches alias_idx | |
65 | 578 if (phi_alias_idx == alias_idx) { |
0 | 579 return orig_phi; |
580 } | |
581 // have we already created a Phi for this alias index? | |
582 PhiNode *result = get_map_phi(orig_phi->_idx); | |
583 if (result != NULL && C->get_alias_index(result->adr_type()) == alias_idx) { | |
584 return result; | |
585 } | |
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586 if ((int)C->unique() + 2*NodeLimitFudgeFactor > MaxNodeLimit) { |
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587 if (C->do_escape_analysis() == true && !C->failing()) { |
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588 // Retry compilation without escape analysis. |
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589 // If this is the first failure, the sentinel string will "stick" |
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590 // to the Compile object, and the C2Compiler will see it and retry. |
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591 C->record_failure(C2Compiler::retry_no_escape_analysis()); |
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592 } |
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593 return NULL; |
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594 } |
0 | 595 orig_phi_worklist.append_if_missing(orig_phi); |
65 | 596 const TypePtr *atype = C->get_adr_type(alias_idx); |
0 | 597 result = PhiNode::make(orig_phi->in(0), NULL, Type::MEMORY, atype); |
598 set_map_phi(orig_phi->_idx, result); | |
599 igvn->set_type(result, result->bottom_type()); | |
600 record_for_optimizer(result); | |
601 new_created = true; | |
602 return result; | |
603 } | |
604 | |
605 // | |
606 // Return a new version of Memory Phi "orig_phi" with the inputs having the | |
607 // specified alias index. | |
608 // | |
609 PhiNode *ConnectionGraph::split_memory_phi(PhiNode *orig_phi, int alias_idx, GrowableArray<PhiNode *> &orig_phi_worklist, PhaseGVN *igvn) { | |
610 | |
611 assert(alias_idx != Compile::AliasIdxBot, "can't split out bottom memory"); | |
612 Compile *C = _compile; | |
613 bool new_phi_created; | |
65 | 614 PhiNode *result = create_split_phi(orig_phi, alias_idx, orig_phi_worklist, igvn, new_phi_created); |
0 | 615 if (!new_phi_created) { |
616 return result; | |
617 } | |
618 | |
619 GrowableArray<PhiNode *> phi_list; | |
620 GrowableArray<uint> cur_input; | |
621 | |
622 PhiNode *phi = orig_phi; | |
623 uint idx = 1; | |
624 bool finished = false; | |
625 while(!finished) { | |
626 while (idx < phi->req()) { | |
65 | 627 Node *mem = find_inst_mem(phi->in(idx), alias_idx, orig_phi_worklist, igvn); |
0 | 628 if (mem != NULL && mem->is_Phi()) { |
65 | 629 PhiNode *newphi = create_split_phi(mem->as_Phi(), alias_idx, orig_phi_worklist, igvn, new_phi_created); |
0 | 630 if (new_phi_created) { |
631 // found an phi for which we created a new split, push current one on worklist and begin | |
632 // processing new one | |
633 phi_list.push(phi); | |
634 cur_input.push(idx); | |
635 phi = mem->as_Phi(); | |
65 | 636 result = newphi; |
0 | 637 idx = 1; |
638 continue; | |
639 } else { | |
65 | 640 mem = newphi; |
0 | 641 } |
642 } | |
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643 if (C->failing()) { |
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644 return NULL; |
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645 } |
0 | 646 result->set_req(idx++, mem); |
647 } | |
648 #ifdef ASSERT | |
649 // verify that the new Phi has an input for each input of the original | |
650 assert( phi->req() == result->req(), "must have same number of inputs."); | |
651 assert( result->in(0) != NULL && result->in(0) == phi->in(0), "regions must match"); | |
65 | 652 #endif |
653 // Check if all new phi's inputs have specified alias index. | |
654 // Otherwise use old phi. | |
0 | 655 for (uint i = 1; i < phi->req(); i++) { |
65 | 656 Node* in = result->in(i); |
657 assert((phi->in(i) == NULL) == (in == NULL), "inputs must correspond."); | |
0 | 658 } |
659 // we have finished processing a Phi, see if there are any more to do | |
660 finished = (phi_list.length() == 0 ); | |
661 if (!finished) { | |
662 phi = phi_list.pop(); | |
663 idx = cur_input.pop(); | |
65 | 664 PhiNode *prev_result = get_map_phi(phi->_idx); |
665 prev_result->set_req(idx++, result); | |
666 result = prev_result; | |
0 | 667 } |
668 } | |
669 return result; | |
670 } | |
671 | |
65 | 672 |
673 // | |
674 // The next methods are derived from methods in MemNode. | |
675 // | |
676 static Node *step_through_mergemem(MergeMemNode *mmem, int alias_idx, const TypeOopPtr *tinst) { | |
677 Node *mem = mmem; | |
678 // TypeInstPtr::NOTNULL+any is an OOP with unknown offset - generally | |
679 // means an array I have not precisely typed yet. Do not do any | |
680 // alias stuff with it any time soon. | |
681 if( tinst->base() != Type::AnyPtr && | |
682 !(tinst->klass()->is_java_lang_Object() && | |
683 tinst->offset() == Type::OffsetBot) ) { | |
684 mem = mmem->memory_at(alias_idx); | |
685 // Update input if it is progress over what we have now | |
686 } | |
687 return mem; | |
688 } | |
689 | |
690 // | |
691 // Search memory chain of "mem" to find a MemNode whose address | |
692 // is the specified alias index. | |
693 // | |
694 Node* ConnectionGraph::find_inst_mem(Node *orig_mem, int alias_idx, GrowableArray<PhiNode *> &orig_phis, PhaseGVN *phase) { | |
695 if (orig_mem == NULL) | |
696 return orig_mem; | |
697 Compile* C = phase->C; | |
698 const TypeOopPtr *tinst = C->get_adr_type(alias_idx)->isa_oopptr(); | |
223 | 699 bool is_instance = (tinst != NULL) && tinst->is_known_instance(); |
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700 Node *start_mem = C->start()->proj_out(TypeFunc::Memory); |
65 | 701 Node *prev = NULL; |
702 Node *result = orig_mem; | |
703 while (prev != result) { | |
704 prev = result; | |
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705 if (result == start_mem) |
605 | 706 break; // hit one of our sentinels |
65 | 707 if (result->is_Mem()) { |
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708 const Type *at = phase->type(result->in(MemNode::Address)); |
65 | 709 if (at != Type::TOP) { |
710 assert (at->isa_ptr() != NULL, "pointer type required."); | |
711 int idx = C->get_alias_index(at->is_ptr()); | |
712 if (idx == alias_idx) | |
713 break; | |
714 } | |
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715 result = result->in(MemNode::Memory); |
65 | 716 } |
717 if (!is_instance) | |
718 continue; // don't search further for non-instance types | |
719 // skip over a call which does not affect this memory slice | |
720 if (result->is_Proj() && result->as_Proj()->_con == TypeFunc::Memory) { | |
721 Node *proj_in = result->in(0); | |
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722 if (proj_in->is_Allocate() && proj_in->_idx == (uint)tinst->instance_id()) { |
605 | 723 break; // hit one of our sentinels |
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724 } else if (proj_in->is_Call()) { |
65 | 725 CallNode *call = proj_in->as_Call(); |
726 if (!call->may_modify(tinst, phase)) { | |
727 result = call->in(TypeFunc::Memory); | |
728 } | |
729 } else if (proj_in->is_Initialize()) { | |
730 AllocateNode* alloc = proj_in->as_Initialize()->allocation(); | |
731 // Stop if this is the initialization for the object instance which | |
732 // which contains this memory slice, otherwise skip over it. | |
223 | 733 if (alloc == NULL || alloc->_idx != (uint)tinst->instance_id()) { |
65 | 734 result = proj_in->in(TypeFunc::Memory); |
735 } | |
736 } else if (proj_in->is_MemBar()) { | |
737 result = proj_in->in(TypeFunc::Memory); | |
738 } | |
739 } else if (result->is_MergeMem()) { | |
740 MergeMemNode *mmem = result->as_MergeMem(); | |
741 result = step_through_mergemem(mmem, alias_idx, tinst); | |
742 if (result == mmem->base_memory()) { | |
743 // Didn't find instance memory, search through general slice recursively. | |
744 result = mmem->memory_at(C->get_general_index(alias_idx)); | |
745 result = find_inst_mem(result, alias_idx, orig_phis, phase); | |
746 if (C->failing()) { | |
747 return NULL; | |
748 } | |
749 mmem->set_memory_at(alias_idx, result); | |
750 } | |
751 } else if (result->is_Phi() && | |
752 C->get_alias_index(result->as_Phi()->adr_type()) != alias_idx) { | |
753 Node *un = result->as_Phi()->unique_input(phase); | |
754 if (un != NULL) { | |
755 result = un; | |
756 } else { | |
757 break; | |
758 } | |
584 | 759 } else if (result->Opcode() == Op_SCMemProj) { |
760 assert(result->in(0)->is_LoadStore(), "sanity"); | |
761 const Type *at = phase->type(result->in(0)->in(MemNode::Address)); | |
762 if (at != Type::TOP) { | |
763 assert (at->isa_ptr() != NULL, "pointer type required."); | |
764 int idx = C->get_alias_index(at->is_ptr()); | |
765 assert(idx != alias_idx, "Object is not scalar replaceable if a LoadStore node access its field"); | |
766 break; | |
767 } | |
768 result = result->in(0)->in(MemNode::Memory); | |
65 | 769 } |
770 } | |
247 | 771 if (result->is_Phi()) { |
65 | 772 PhiNode *mphi = result->as_Phi(); |
773 assert(mphi->bottom_type() == Type::MEMORY, "memory phi required"); | |
774 const TypePtr *t = mphi->adr_type(); | |
775 if (C->get_alias_index(t) != alias_idx) { | |
247 | 776 // Create a new Phi with the specified alias index type. |
65 | 777 result = split_memory_phi(mphi, alias_idx, orig_phis, phase); |
247 | 778 } else if (!is_instance) { |
779 // Push all non-instance Phis on the orig_phis worklist to update inputs | |
780 // during Phase 4 if needed. | |
781 orig_phis.append_if_missing(mphi); | |
65 | 782 } |
783 } | |
784 // the result is either MemNode, PhiNode, InitializeNode. | |
785 return result; | |
786 } | |
787 | |
788 | |
0 | 789 // |
790 // Convert the types of unescaped object to instance types where possible, | |
791 // propagate the new type information through the graph, and update memory | |
792 // edges and MergeMem inputs to reflect the new type. | |
793 // | |
794 // We start with allocations (and calls which may be allocations) on alloc_worklist. | |
795 // The processing is done in 4 phases: | |
796 // | |
797 // Phase 1: Process possible allocations from alloc_worklist. Create instance | |
798 // types for the CheckCastPP for allocations where possible. | |
799 // Propagate the the new types through users as follows: | |
800 // casts and Phi: push users on alloc_worklist | |
801 // AddP: cast Base and Address inputs to the instance type | |
802 // push any AddP users on alloc_worklist and push any memnode | |
803 // users onto memnode_worklist. | |
804 // Phase 2: Process MemNode's from memnode_worklist. compute new address type and | |
805 // search the Memory chain for a store with the appropriate type | |
806 // address type. If a Phi is found, create a new version with | |
605 | 807 // the appropriate memory slices from each of the Phi inputs. |
0 | 808 // For stores, process the users as follows: |
809 // MemNode: push on memnode_worklist | |
810 // MergeMem: push on mergemem_worklist | |
811 // Phase 3: Process MergeMem nodes from mergemem_worklist. Walk each memory slice | |
812 // moving the first node encountered of each instance type to the | |
813 // the input corresponding to its alias index. | |
814 // appropriate memory slice. | |
815 // Phase 4: Update the inputs of non-instance memory Phis and the Memory input of memnodes. | |
816 // | |
817 // In the following example, the CheckCastPP nodes are the cast of allocation | |
818 // results and the allocation of node 29 is unescaped and eligible to be an | |
819 // instance type. | |
820 // | |
821 // We start with: | |
822 // | |
823 // 7 Parm #memory | |
824 // 10 ConI "12" | |
825 // 19 CheckCastPP "Foo" | |
826 // 20 AddP _ 19 19 10 Foo+12 alias_index=4 | |
827 // 29 CheckCastPP "Foo" | |
828 // 30 AddP _ 29 29 10 Foo+12 alias_index=4 | |
829 // | |
830 // 40 StoreP 25 7 20 ... alias_index=4 | |
831 // 50 StoreP 35 40 30 ... alias_index=4 | |
832 // 60 StoreP 45 50 20 ... alias_index=4 | |
833 // 70 LoadP _ 60 30 ... alias_index=4 | |
834 // 80 Phi 75 50 60 Memory alias_index=4 | |
835 // 90 LoadP _ 80 30 ... alias_index=4 | |
836 // 100 LoadP _ 80 20 ... alias_index=4 | |
837 // | |
838 // | |
839 // Phase 1 creates an instance type for node 29 assigning it an instance id of 24 | |
840 // and creating a new alias index for node 30. This gives: | |
841 // | |
842 // 7 Parm #memory | |
843 // 10 ConI "12" | |
844 // 19 CheckCastPP "Foo" | |
845 // 20 AddP _ 19 19 10 Foo+12 alias_index=4 | |
846 // 29 CheckCastPP "Foo" iid=24 | |
847 // 30 AddP _ 29 29 10 Foo+12 alias_index=6 iid=24 | |
848 // | |
849 // 40 StoreP 25 7 20 ... alias_index=4 | |
850 // 50 StoreP 35 40 30 ... alias_index=6 | |
851 // 60 StoreP 45 50 20 ... alias_index=4 | |
852 // 70 LoadP _ 60 30 ... alias_index=6 | |
853 // 80 Phi 75 50 60 Memory alias_index=4 | |
854 // 90 LoadP _ 80 30 ... alias_index=6 | |
855 // 100 LoadP _ 80 20 ... alias_index=4 | |
856 // | |
857 // In phase 2, new memory inputs are computed for the loads and stores, | |
858 // And a new version of the phi is created. In phase 4, the inputs to | |
859 // node 80 are updated and then the memory nodes are updated with the | |
860 // values computed in phase 2. This results in: | |
861 // | |
862 // 7 Parm #memory | |
863 // 10 ConI "12" | |
864 // 19 CheckCastPP "Foo" | |
865 // 20 AddP _ 19 19 10 Foo+12 alias_index=4 | |
866 // 29 CheckCastPP "Foo" iid=24 | |
867 // 30 AddP _ 29 29 10 Foo+12 alias_index=6 iid=24 | |
868 // | |
869 // 40 StoreP 25 7 20 ... alias_index=4 | |
870 // 50 StoreP 35 7 30 ... alias_index=6 | |
871 // 60 StoreP 45 40 20 ... alias_index=4 | |
872 // 70 LoadP _ 50 30 ... alias_index=6 | |
873 // 80 Phi 75 40 60 Memory alias_index=4 | |
874 // 120 Phi 75 50 50 Memory alias_index=6 | |
875 // 90 LoadP _ 120 30 ... alias_index=6 | |
876 // 100 LoadP _ 80 20 ... alias_index=4 | |
877 // | |
878 void ConnectionGraph::split_unique_types(GrowableArray<Node *> &alloc_worklist) { | |
879 GrowableArray<Node *> memnode_worklist; | |
880 GrowableArray<Node *> mergemem_worklist; | |
881 GrowableArray<PhiNode *> orig_phis; | |
882 PhaseGVN *igvn = _compile->initial_gvn(); | |
883 uint new_index_start = (uint) _compile->num_alias_types(); | |
884 VectorSet visited(Thread::current()->resource_area()); | |
885 VectorSet ptset(Thread::current()->resource_area()); | |
886 | |
65 | 887 |
888 // Phase 1: Process possible allocations from alloc_worklist. | |
889 // Create instance types for the CheckCastPP for allocations where possible. | |
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890 // |
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891 // (Note: don't forget to change the order of the second AddP node on |
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892 // the alloc_worklist if the order of the worklist processing is changed, |
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893 // see the comment in find_second_addp().) |
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894 // |
0 | 895 while (alloc_worklist.length() != 0) { |
896 Node *n = alloc_worklist.pop(); | |
897 uint ni = n->_idx; | |
65 | 898 const TypeOopPtr* tinst = NULL; |
0 | 899 if (n->is_Call()) { |
900 CallNode *alloc = n->as_Call(); | |
901 // copy escape information to call node | |
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902 PointsToNode* ptn = ptnode_adr(alloc->_idx); |
0 | 903 PointsToNode::EscapeState es = escape_state(alloc, igvn); |
65 | 904 // We have an allocation or call which returns a Java object, |
905 // see if it is unescaped. | |
906 if (es != PointsToNode::NoEscape || !ptn->_scalar_replaceable) | |
0 | 907 continue; |
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908 if (alloc->is_Allocate()) { |
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909 // Set the scalar_replaceable flag before the next check. |
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910 alloc->as_Allocate()->_is_scalar_replaceable = true; |
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911 } |
65 | 912 // find CheckCastPP of call return value |
913 n = alloc->result_cast(); | |
914 if (n == NULL || // No uses accept Initialize or | |
915 !n->is_CheckCastPP()) // not unique CheckCastPP. | |
916 continue; | |
917 // The inline code for Object.clone() casts the allocation result to | |
247 | 918 // java.lang.Object and then to the actual type of the allocated |
65 | 919 // object. Detect this case and use the second cast. |
247 | 920 // Also detect j.l.reflect.Array.newInstance(jobject, jint) case when |
921 // the allocation result is cast to java.lang.Object and then | |
922 // to the actual Array type. | |
65 | 923 if (alloc->is_Allocate() && n->as_Type()->type() == TypeInstPtr::NOTNULL |
247 | 924 && (alloc->is_AllocateArray() || |
925 igvn->type(alloc->in(AllocateNode::KlassNode)) != TypeKlassPtr::OBJECT)) { | |
65 | 926 Node *cast2 = NULL; |
927 for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) { | |
928 Node *use = n->fast_out(i); | |
929 if (use->is_CheckCastPP()) { | |
930 cast2 = use; | |
931 break; | |
932 } | |
933 } | |
934 if (cast2 != NULL) { | |
935 n = cast2; | |
936 } else { | |
937 continue; | |
938 } | |
939 } | |
940 set_escape_state(n->_idx, es); | |
247 | 941 // in order for an object to be scalar-replaceable, it must be: |
65 | 942 // - a direct allocation (not a call returning an object) |
943 // - non-escaping | |
944 // - eligible to be a unique type | |
945 // - not determined to be ineligible by escape analysis | |
0 | 946 set_map(alloc->_idx, n); |
947 set_map(n->_idx, alloc); | |
65 | 948 const TypeOopPtr *t = igvn->type(n)->isa_oopptr(); |
949 if (t == NULL) | |
0 | 950 continue; // not a TypeInstPtr |
247 | 951 tinst = t->cast_to_exactness(true)->is_oopptr()->cast_to_instance_id(ni); |
0 | 952 igvn->hash_delete(n); |
953 igvn->set_type(n, tinst); | |
954 n->raise_bottom_type(tinst); | |
955 igvn->hash_insert(n); | |
65 | 956 record_for_optimizer(n); |
957 if (alloc->is_Allocate() && ptn->_scalar_replaceable && | |
958 (t->isa_instptr() || t->isa_aryptr())) { | |
163 | 959 |
960 // First, put on the worklist all Field edges from Connection Graph | |
961 // which is more accurate then putting immediate users from Ideal Graph. | |
962 for (uint e = 0; e < ptn->edge_count(); e++) { | |
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963 Node *use = ptnode_adr(ptn->edge_target(e))->_node; |
163 | 964 assert(ptn->edge_type(e) == PointsToNode::FieldEdge && use->is_AddP(), |
965 "only AddP nodes are Field edges in CG"); | |
966 if (use->outcnt() > 0) { // Don't process dead nodes | |
967 Node* addp2 = find_second_addp(use, use->in(AddPNode::Base)); | |
968 if (addp2 != NULL) { | |
969 assert(alloc->is_AllocateArray(),"array allocation was expected"); | |
970 alloc_worklist.append_if_missing(addp2); | |
971 } | |
972 alloc_worklist.append_if_missing(use); | |
973 } | |
974 } | |
975 | |
65 | 976 // An allocation may have an Initialize which has raw stores. Scan |
977 // the users of the raw allocation result and push AddP users | |
978 // on alloc_worklist. | |
979 Node *raw_result = alloc->proj_out(TypeFunc::Parms); | |
980 assert (raw_result != NULL, "must have an allocation result"); | |
981 for (DUIterator_Fast imax, i = raw_result->fast_outs(imax); i < imax; i++) { | |
982 Node *use = raw_result->fast_out(i); | |
983 if (use->is_AddP() && use->outcnt() > 0) { // Don't process dead nodes | |
984 Node* addp2 = find_second_addp(use, raw_result); | |
985 if (addp2 != NULL) { | |
986 assert(alloc->is_AllocateArray(),"array allocation was expected"); | |
987 alloc_worklist.append_if_missing(addp2); | |
988 } | |
989 alloc_worklist.append_if_missing(use); | |
990 } else if (use->is_Initialize()) { | |
991 memnode_worklist.append_if_missing(use); | |
992 } | |
993 } | |
994 } | |
0 | 995 } else if (n->is_AddP()) { |
996 ptset.Clear(); | |
65 | 997 PointsTo(ptset, get_addp_base(n), igvn); |
0 | 998 assert(ptset.Size() == 1, "AddP address is unique"); |
65 | 999 uint elem = ptset.getelem(); // Allocation node's index |
1000 if (elem == _phantom_object) | |
1001 continue; // Assume the value was set outside this method. | |
1002 Node *base = get_map(elem); // CheckCastPP node | |
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1003 if (!split_AddP(n, base, igvn)) continue; // wrong type |
65 | 1004 tinst = igvn->type(base)->isa_oopptr(); |
1005 } else if (n->is_Phi() || | |
1006 n->is_CheckCastPP() || | |
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1007 n->is_EncodeP() || |
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1008 n->is_DecodeN() || |
65 | 1009 (n->is_ConstraintCast() && n->Opcode() == Op_CastPP)) { |
0 | 1010 if (visited.test_set(n->_idx)) { |
1011 assert(n->is_Phi(), "loops only through Phi's"); | |
1012 continue; // already processed | |
1013 } | |
1014 ptset.Clear(); | |
1015 PointsTo(ptset, n, igvn); | |
1016 if (ptset.Size() == 1) { | |
65 | 1017 uint elem = ptset.getelem(); // Allocation node's index |
1018 if (elem == _phantom_object) | |
1019 continue; // Assume the value was set outside this method. | |
1020 Node *val = get_map(elem); // CheckCastPP node | |
0 | 1021 TypeNode *tn = n->as_Type(); |
65 | 1022 tinst = igvn->type(val)->isa_oopptr(); |
223 | 1023 assert(tinst != NULL && tinst->is_known_instance() && |
1024 (uint)tinst->instance_id() == elem , "instance type expected."); | |
163 | 1025 |
1026 const Type *tn_type = igvn->type(tn); | |
223 | 1027 const TypeOopPtr *tn_t; |
1028 if (tn_type->isa_narrowoop()) { | |
1029 tn_t = tn_type->make_ptr()->isa_oopptr(); | |
1030 } else { | |
1031 tn_t = tn_type->isa_oopptr(); | |
1032 } | |
0 | 1033 |
65 | 1034 if (tn_t != NULL && |
223 | 1035 tinst->cast_to_instance_id(TypeOopPtr::InstanceBot)->higher_equal(tn_t)) { |
163 | 1036 if (tn_type->isa_narrowoop()) { |
1037 tn_type = tinst->make_narrowoop(); | |
1038 } else { | |
1039 tn_type = tinst; | |
1040 } | |
0 | 1041 igvn->hash_delete(tn); |
163 | 1042 igvn->set_type(tn, tn_type); |
1043 tn->set_type(tn_type); | |
0 | 1044 igvn->hash_insert(tn); |
65 | 1045 record_for_optimizer(n); |
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1046 } else { |
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1047 continue; // wrong type |
0 | 1048 } |
1049 } | |
1050 } else { | |
1051 continue; | |
1052 } | |
1053 // push users on appropriate worklist | |
1054 for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) { | |
1055 Node *use = n->fast_out(i); | |
1056 if(use->is_Mem() && use->in(MemNode::Address) == n) { | |
65 | 1057 memnode_worklist.append_if_missing(use); |
1058 } else if (use->is_Initialize()) { | |
1059 memnode_worklist.append_if_missing(use); | |
1060 } else if (use->is_MergeMem()) { | |
1061 mergemem_worklist.append_if_missing(use); | |
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1062 } else if (use->is_SafePoint() && tinst != NULL) { |
65 | 1063 // Look for MergeMem nodes for calls which reference unique allocation |
1064 // (through CheckCastPP nodes) even for debug info. | |
1065 Node* m = use->in(TypeFunc::Memory); | |
1066 uint iid = tinst->instance_id(); | |
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1067 while (m->is_Proj() && m->in(0)->is_SafePoint() && |
65 | 1068 m->in(0) != use && !m->in(0)->_idx != iid) { |
1069 m = m->in(0)->in(TypeFunc::Memory); | |
1070 } | |
1071 if (m->is_MergeMem()) { | |
1072 mergemem_worklist.append_if_missing(m); | |
1073 } | |
1074 } else if (use->is_AddP() && use->outcnt() > 0) { // No dead nodes | |
1075 Node* addp2 = find_second_addp(use, n); | |
1076 if (addp2 != NULL) { | |
1077 alloc_worklist.append_if_missing(addp2); | |
1078 } | |
1079 alloc_worklist.append_if_missing(use); | |
1080 } else if (use->is_Phi() || | |
1081 use->is_CheckCastPP() || | |
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1082 use->is_EncodeP() || |
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1083 use->is_DecodeN() || |
65 | 1084 (use->is_ConstraintCast() && use->Opcode() == Op_CastPP)) { |
1085 alloc_worklist.append_if_missing(use); | |
0 | 1086 } |
1087 } | |
1088 | |
1089 } | |
65 | 1090 // New alias types were created in split_AddP(). |
0 | 1091 uint new_index_end = (uint) _compile->num_alias_types(); |
1092 | |
1093 // Phase 2: Process MemNode's from memnode_worklist. compute new address type and | |
1094 // compute new values for Memory inputs (the Memory inputs are not | |
1095 // actually updated until phase 4.) | |
1096 if (memnode_worklist.length() == 0) | |
1097 return; // nothing to do | |
1098 | |
1099 while (memnode_worklist.length() != 0) { | |
1100 Node *n = memnode_worklist.pop(); | |
65 | 1101 if (visited.test_set(n->_idx)) |
1102 continue; | |
0 | 1103 if (n->is_Phi()) { |
1104 assert(n->as_Phi()->adr_type() != TypePtr::BOTTOM, "narrow memory slice required"); | |
1105 // we don't need to do anything, but the users must be pushed if we haven't processed | |
1106 // this Phi before | |
65 | 1107 } else if (n->is_Initialize()) { |
1108 // we don't need to do anything, but the users of the memory projection must be pushed | |
1109 n = n->as_Initialize()->proj_out(TypeFunc::Memory); | |
1110 if (n == NULL) | |
0 | 1111 continue; |
1112 } else { | |
1113 assert(n->is_Mem(), "memory node required."); | |
1114 Node *addr = n->in(MemNode::Address); | |
65 | 1115 assert(addr->is_AddP(), "AddP required"); |
0 | 1116 const Type *addr_t = igvn->type(addr); |
1117 if (addr_t == Type::TOP) | |
1118 continue; | |
1119 assert (addr_t->isa_ptr() != NULL, "pointer type required."); | |
1120 int alias_idx = _compile->get_alias_index(addr_t->is_ptr()); | |
65 | 1121 assert ((uint)alias_idx < new_index_end, "wrong alias index"); |
1122 Node *mem = find_inst_mem(n->in(MemNode::Memory), alias_idx, orig_phis, igvn); | |
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1123 if (_compile->failing()) { |
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1124 return; |
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1125 } |
65 | 1126 if (mem != n->in(MemNode::Memory)) { |
0 | 1127 set_map(n->_idx, mem); |
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1128 ptnode_adr(n->_idx)->_node = n; |
65 | 1129 } |
0 | 1130 if (n->is_Load()) { |
1131 continue; // don't push users | |
1132 } else if (n->is_LoadStore()) { | |
1133 // get the memory projection | |
1134 for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) { | |
1135 Node *use = n->fast_out(i); | |
1136 if (use->Opcode() == Op_SCMemProj) { | |
1137 n = use; | |
1138 break; | |
1139 } | |
1140 } | |
1141 assert(n->Opcode() == Op_SCMemProj, "memory projection required"); | |
1142 } | |
1143 } | |
1144 // push user on appropriate worklist | |
1145 for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) { | |
1146 Node *use = n->fast_out(i); | |
1147 if (use->is_Phi()) { | |
65 | 1148 memnode_worklist.append_if_missing(use); |
0 | 1149 } else if(use->is_Mem() && use->in(MemNode::Memory) == n) { |
65 | 1150 memnode_worklist.append_if_missing(use); |
1151 } else if (use->is_Initialize()) { | |
1152 memnode_worklist.append_if_missing(use); | |
0 | 1153 } else if (use->is_MergeMem()) { |
65 | 1154 mergemem_worklist.append_if_missing(use); |
0 | 1155 } |
1156 } | |
1157 } | |
1158 | |
65 | 1159 // Phase 3: Process MergeMem nodes from mergemem_worklist. |
1160 // Walk each memory moving the first node encountered of each | |
1161 // instance type to the the input corresponding to its alias index. | |
0 | 1162 while (mergemem_worklist.length() != 0) { |
1163 Node *n = mergemem_worklist.pop(); | |
1164 assert(n->is_MergeMem(), "MergeMem node required."); | |
65 | 1165 if (visited.test_set(n->_idx)) |
1166 continue; | |
0 | 1167 MergeMemNode *nmm = n->as_MergeMem(); |
1168 // Note: we don't want to use MergeMemStream here because we only want to | |
65 | 1169 // scan inputs which exist at the start, not ones we add during processing. |
0 | 1170 uint nslices = nmm->req(); |
1171 igvn->hash_delete(nmm); | |
1172 for (uint i = Compile::AliasIdxRaw+1; i < nslices; i++) { | |
65 | 1173 Node* mem = nmm->in(i); |
1174 Node* cur = NULL; | |
0 | 1175 if (mem == NULL || mem->is_top()) |
1176 continue; | |
1177 while (mem->is_Mem()) { | |
1178 const Type *at = igvn->type(mem->in(MemNode::Address)); | |
1179 if (at != Type::TOP) { | |
1180 assert (at->isa_ptr() != NULL, "pointer type required."); | |
1181 uint idx = (uint)_compile->get_alias_index(at->is_ptr()); | |
1182 if (idx == i) { | |
1183 if (cur == NULL) | |
1184 cur = mem; | |
1185 } else { | |
1186 if (idx >= nmm->req() || nmm->is_empty_memory(nmm->in(idx))) { | |
1187 nmm->set_memory_at(idx, mem); | |
1188 } | |
1189 } | |
1190 } | |
1191 mem = mem->in(MemNode::Memory); | |
1192 } | |
1193 nmm->set_memory_at(i, (cur != NULL) ? cur : mem); | |
65 | 1194 // Find any instance of the current type if we haven't encountered |
1195 // a value of the instance along the chain. | |
1196 for (uint ni = new_index_start; ni < new_index_end; ni++) { | |
1197 if((uint)_compile->get_general_index(ni) == i) { | |
1198 Node *m = (ni >= nmm->req()) ? nmm->empty_memory() : nmm->in(ni); | |
1199 if (nmm->is_empty_memory(m)) { | |
1200 Node* result = find_inst_mem(mem, ni, orig_phis, igvn); | |
1201 if (_compile->failing()) { | |
1202 return; | |
1203 } | |
1204 nmm->set_memory_at(ni, result); | |
1205 } | |
1206 } | |
1207 } | |
1208 } | |
1209 // Find the rest of instances values | |
1210 for (uint ni = new_index_start; ni < new_index_end; ni++) { | |
1211 const TypeOopPtr *tinst = igvn->C->get_adr_type(ni)->isa_oopptr(); | |
1212 Node* result = step_through_mergemem(nmm, ni, tinst); | |
1213 if (result == nmm->base_memory()) { | |
1214 // Didn't find instance memory, search through general slice recursively. | |
1215 result = nmm->memory_at(igvn->C->get_general_index(ni)); | |
1216 result = find_inst_mem(result, ni, orig_phis, igvn); | |
1217 if (_compile->failing()) { | |
1218 return; | |
1219 } | |
1220 nmm->set_memory_at(ni, result); | |
1221 } | |
1222 } | |
1223 igvn->hash_insert(nmm); | |
1224 record_for_optimizer(nmm); | |
1225 | |
1226 // Propagate new memory slices to following MergeMem nodes. | |
1227 for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) { | |
1228 Node *use = n->fast_out(i); | |
1229 if (use->is_Call()) { | |
1230 CallNode* in = use->as_Call(); | |
1231 if (in->proj_out(TypeFunc::Memory) != NULL) { | |
1232 Node* m = in->proj_out(TypeFunc::Memory); | |
1233 for (DUIterator_Fast jmax, j = m->fast_outs(jmax); j < jmax; j++) { | |
1234 Node* mm = m->fast_out(j); | |
1235 if (mm->is_MergeMem()) { | |
1236 mergemem_worklist.append_if_missing(mm); | |
1237 } | |
1238 } | |
1239 } | |
1240 if (use->is_Allocate()) { | |
1241 use = use->as_Allocate()->initialization(); | |
1242 if (use == NULL) { | |
1243 continue; | |
1244 } | |
1245 } | |
1246 } | |
1247 if (use->is_Initialize()) { | |
1248 InitializeNode* in = use->as_Initialize(); | |
1249 if (in->proj_out(TypeFunc::Memory) != NULL) { | |
1250 Node* m = in->proj_out(TypeFunc::Memory); | |
1251 for (DUIterator_Fast jmax, j = m->fast_outs(jmax); j < jmax; j++) { | |
1252 Node* mm = m->fast_out(j); | |
1253 if (mm->is_MergeMem()) { | |
1254 mergemem_worklist.append_if_missing(mm); | |
0 | 1255 } |
1256 } | |
1257 } | |
1258 } | |
1259 } | |
1260 } | |
1261 | |
65 | 1262 // Phase 4: Update the inputs of non-instance memory Phis and |
1263 // the Memory input of memnodes | |
0 | 1264 // First update the inputs of any non-instance Phi's from |
1265 // which we split out an instance Phi. Note we don't have | |
1266 // to recursively process Phi's encounted on the input memory | |
1267 // chains as is done in split_memory_phi() since they will | |
1268 // also be processed here. | |
247 | 1269 for (int j = 0; j < orig_phis.length(); j++) { |
1270 PhiNode *phi = orig_phis.at(j); | |
0 | 1271 int alias_idx = _compile->get_alias_index(phi->adr_type()); |
1272 igvn->hash_delete(phi); | |
1273 for (uint i = 1; i < phi->req(); i++) { | |
1274 Node *mem = phi->in(i); | |
65 | 1275 Node *new_mem = find_inst_mem(mem, alias_idx, orig_phis, igvn); |
1276 if (_compile->failing()) { | |
1277 return; | |
1278 } | |
0 | 1279 if (mem != new_mem) { |
1280 phi->set_req(i, new_mem); | |
1281 } | |
1282 } | |
1283 igvn->hash_insert(phi); | |
1284 record_for_optimizer(phi); | |
1285 } | |
1286 | |
1287 // Update the memory inputs of MemNodes with the value we computed | |
1288 // in Phase 2. | |
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1289 for (uint i = 0; i < nodes_size(); i++) { |
0 | 1290 Node *nmem = get_map(i); |
1291 if (nmem != NULL) { | |
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1292 Node *n = ptnode_adr(i)->_node; |
0 | 1293 if (n != NULL && n->is_Mem()) { |
1294 igvn->hash_delete(n); | |
1295 n->set_req(MemNode::Memory, nmem); | |
1296 igvn->hash_insert(n); | |
1297 record_for_optimizer(n); | |
1298 } | |
1299 } | |
1300 } | |
1301 } | |
1302 | |
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1303 bool ConnectionGraph::has_candidates(Compile *C) { |
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1304 // EA brings benefits only when the code has allocations and/or locks which |
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1305 // are represented by ideal Macro nodes. |
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1306 int cnt = C->macro_count(); |
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1307 for( int i=0; i < cnt; i++ ) { |
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1308 Node *n = C->macro_node(i); |
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1309 if ( n->is_Allocate() ) |
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1310 return true; |
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1311 if( n->is_Lock() ) { |
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1312 Node* obj = n->as_Lock()->obj_node()->uncast(); |
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1313 if( !(obj->is_Parm() || obj->is_Con()) ) |
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1314 return true; |
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1315 } |
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1316 } |
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1317 return false; |
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1318 } |
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1319 |
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1320 bool ConnectionGraph::compute_escape() { |
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1321 Compile* C = _compile; |
65 | 1322 |
163 | 1323 // 1. Populate Connection Graph (CG) with Ideal nodes. |
65 | 1324 |
1325 Unique_Node_List worklist_init; | |
244
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1326 worklist_init.map(C->unique(), NULL); // preallocate space |
65 | 1327 |
1328 // Initialize worklist | |
244
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1329 if (C->root() != NULL) { |
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1330 worklist_init.push(C->root()); |
65 | 1331 } |
1332 | |
1333 GrowableArray<int> cg_worklist; | |
244
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1334 PhaseGVN* igvn = C->initial_gvn(); |
65 | 1335 bool has_allocations = false; |
1336 | |
1337 // Push all useful nodes onto CG list and set their type. | |
1338 for( uint next = 0; next < worklist_init.size(); ++next ) { | |
1339 Node* n = worklist_init.at(next); | |
1340 record_for_escape_analysis(n, igvn); | |
244
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1341 // Only allocations and java static calls results are checked |
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1342 // for an escape status. See process_call_result() below. |
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1343 if (n->is_Allocate() || n->is_CallStaticJava() && |
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1344 ptnode_adr(n->_idx)->node_type() == PointsToNode::JavaObject) { |
65 | 1345 has_allocations = true; |
1346 } | |
1347 if(n->is_AddP()) | |
1348 cg_worklist.append(n->_idx); | |
1349 for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) { | |
1350 Node* m = n->fast_out(i); // Get user | |
1351 worklist_init.push(m); | |
1352 } | |
1353 } | |
0 | 1354 |
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1355 if (!has_allocations) { |
65 | 1356 _collecting = false; |
244
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1357 return false; // Nothing to do. |
65 | 1358 } |
1359 | |
1360 // 2. First pass to create simple CG edges (doesn't require to walk CG). | |
244
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1361 uint delayed_size = _delayed_worklist.size(); |
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1362 for( uint next = 0; next < delayed_size; ++next ) { |
65 | 1363 Node* n = _delayed_worklist.at(next); |
1364 build_connection_graph(n, igvn); | |
1365 } | |
0 | 1366 |
65 | 1367 // 3. Pass to create fields edges (Allocate -F-> AddP). |
244
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1368 uint cg_length = cg_worklist.length(); |
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1369 for( uint next = 0; next < cg_length; ++next ) { |
65 | 1370 int ni = cg_worklist.at(next); |
244
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1371 build_connection_graph(ptnode_adr(ni)->_node, igvn); |
65 | 1372 } |
1373 | |
1374 cg_worklist.clear(); | |
1375 cg_worklist.append(_phantom_object); | |
1376 | |
1377 // 4. Build Connection Graph which need | |
1378 // to walk the connection graph. | |
244
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1379 for (uint ni = 0; ni < nodes_size(); ni++) { |
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1380 PointsToNode* ptn = ptnode_adr(ni); |
65 | 1381 Node *n = ptn->_node; |
1382 if (n != NULL) { // Call, AddP, LoadP, StoreP | |
1383 build_connection_graph(n, igvn); | |
1384 if (ptn->node_type() != PointsToNode::UnknownType) | |
1385 cg_worklist.append(n->_idx); // Collect CG nodes | |
1386 } | |
0 | 1387 } |
1388 | |
1389 VectorSet ptset(Thread::current()->resource_area()); | |
101
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1390 GrowableArray<uint> deferred_edges; |
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1391 VectorSet visited(Thread::current()->resource_area()); |
0 | 1392 |
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1393 // 5. Remove deferred edges from the graph and collect |
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1394 // information needed for type splitting. |
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1395 cg_length = cg_worklist.length(); |
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1396 for( uint next = 0; next < cg_length; ++next ) { |
65 | 1397 int ni = cg_worklist.at(next); |
244
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1398 PointsToNode* ptn = ptnode_adr(ni); |
0 | 1399 PointsToNode::NodeType nt = ptn->node_type(); |
1400 if (nt == PointsToNode::LocalVar || nt == PointsToNode::Field) { | |
101
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1401 remove_deferred(ni, &deferred_edges, &visited); |
244
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1402 Node *n = ptn->_node; |
0 | 1403 if (n->is_AddP()) { |
253
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1404 // Search for objects which are not scalar replaceable. |
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1405 // Mark their escape state as ArgEscape to propagate the state |
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1406 // to referenced objects. |
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1407 // Note: currently there are no difference in compiler optimizations |
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1408 // for ArgEscape objects and NoEscape objects which are not |
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1409 // scalar replaceable. |
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1410 |
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1411 int offset = ptn->offset(); |
65 | 1412 Node *base = get_addp_base(n); |
0 | 1413 ptset.Clear(); |
1414 PointsTo(ptset, base, igvn); | |
253
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1415 int ptset_size = ptset.Size(); |
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1416 |
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1417 // Check if a field's initializing value is recorded and add |
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1418 // a corresponding NULL field's value if it is not recorded. |
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1419 // Connection Graph does not record a default initialization by NULL |
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1420 // captured by Initialize node. |
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1421 // |
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1422 // Note: it will disable scalar replacement in some cases: |
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1423 // |
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1424 // Point p[] = new Point[1]; |
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1425 // p[0] = new Point(); // Will be not scalar replaced |
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1426 // |
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1427 // but it will save us from incorrect optimizations in next cases: |
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1428 // |
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1429 // Point p[] = new Point[1]; |
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1430 // if ( x ) p[0] = new Point(); // Will be not scalar replaced |
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1431 // |
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1432 // Without a control flow analysis we can't distinguish above cases. |
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1433 // |
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1434 if (offset != Type::OffsetBot && ptset_size == 1) { |
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1435 uint elem = ptset.getelem(); // Allocation node's index |
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1436 // It does not matter if it is not Allocation node since |
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1437 // only non-escaping allocations are scalar replaced. |
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1438 if (ptnode_adr(elem)->_node->is_Allocate() && |
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1439 ptnode_adr(elem)->escape_state() == PointsToNode::NoEscape) { |
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1440 AllocateNode* alloc = ptnode_adr(elem)->_node->as_Allocate(); |
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1441 InitializeNode* ini = alloc->initialization(); |
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1442 Node* value = NULL; |
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1443 if (ini != NULL) { |
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1444 BasicType ft = UseCompressedOops ? T_NARROWOOP : T_OBJECT; |
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1445 Node* store = ini->find_captured_store(offset, type2aelembytes(ft), igvn); |
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1446 if (store != NULL && store->is_Store()) |
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1447 value = store->in(MemNode::ValueIn); |
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1448 } |
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1449 if (value == NULL || value != ptnode_adr(value->_idx)->_node) { |
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1450 // A field's initializing value was not recorded. Add NULL. |
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1451 uint null_idx = UseCompressedOops ? _noop_null : _oop_null; |
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1452 add_pointsto_edge(ni, null_idx); |
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1453 } |
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1454 } |
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1455 } |
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1456 |
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1457 // An object is not scalar replaceable if the field which may point |
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1458 // to it has unknown offset (unknown element of an array of objects). |
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1459 // |
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1460 if (offset == Type::OffsetBot) { |
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1461 uint e_cnt = ptn->edge_count(); |
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1462 for (uint ei = 0; ei < e_cnt; ei++) { |
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1463 uint npi = ptn->edge_target(ei); |
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1464 set_escape_state(npi, PointsToNode::ArgEscape); |
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1465 ptnode_adr(npi)->_scalar_replaceable = false; |
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1466 } |
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1467 } |
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1468 |
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1469 // Currently an object is not scalar replaceable if a LoadStore node |
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1470 // access its field since the field value is unknown after it. |
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1471 // |
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1472 bool has_LoadStore = false; |
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1473 for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) { |
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1474 Node *use = n->fast_out(i); |
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1475 if (use->is_LoadStore()) { |
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1476 has_LoadStore = true; |
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1477 break; |
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1478 } |
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1479 } |
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1480 // An object is not scalar replaceable if the address points |
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1481 // to unknown field (unknown element for arrays, offset is OffsetBot). |
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1482 // |
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1483 // Or the address may point to more then one object. This may produce |
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1484 // the false positive result (set scalar_replaceable to false) |
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1485 // since the flow-insensitive escape analysis can't separate |
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1486 // the case when stores overwrite the field's value from the case |
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1487 // when stores happened on different control branches. |
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1488 // |
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1489 if (ptset_size > 1 || ptset_size != 0 && |
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1490 (has_LoadStore || offset == Type::OffsetBot)) { |
0 | 1491 for( VectorSetI j(&ptset); j.test(); ++j ) { |
253
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1492 set_escape_state(j.elem, PointsToNode::ArgEscape); |
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1493 ptnode_adr(j.elem)->_scalar_replaceable = false; |
0 | 1494 } |
1495 } | |
1496 } | |
1497 } | |
1498 } | |
65 | 1499 |
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1500 // 6. Propagate escape states. |
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1501 GrowableArray<int> worklist; |
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1502 bool has_non_escaping_obj = false; |
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1503 |
0 | 1504 // push all GlobalEscape nodes on the worklist |
244
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1505 for( uint next = 0; next < cg_length; ++next ) { |
65 | 1506 int nk = cg_worklist.at(next); |
244
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1507 if (ptnode_adr(nk)->escape_state() == PointsToNode::GlobalEscape) |
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1508 worklist.push(nk); |
0 | 1509 } |
244
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1510 // mark all nodes reachable from GlobalEscape nodes |
0 | 1511 while(worklist.length() > 0) { |
244
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1512 PointsToNode* ptn = ptnode_adr(worklist.pop()); |
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1513 uint e_cnt = ptn->edge_count(); |
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1514 for (uint ei = 0; ei < e_cnt; ei++) { |
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1515 uint npi = ptn->edge_target(ei); |
0 | 1516 PointsToNode *np = ptnode_adr(npi); |
65 | 1517 if (np->escape_state() < PointsToNode::GlobalEscape) { |
0 | 1518 np->set_escape_state(PointsToNode::GlobalEscape); |
244
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1519 worklist.push(npi); |
0 | 1520 } |
1521 } | |
1522 } | |
1523 | |
1524 // push all ArgEscape nodes on the worklist | |
244
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1525 for( uint next = 0; next < cg_length; ++next ) { |
65 | 1526 int nk = cg_worklist.at(next); |
244
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1527 if (ptnode_adr(nk)->escape_state() == PointsToNode::ArgEscape) |
0 | 1528 worklist.push(nk); |
1529 } | |
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1530 // mark all nodes reachable from ArgEscape nodes |
0 | 1531 while(worklist.length() > 0) { |
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1532 PointsToNode* ptn = ptnode_adr(worklist.pop()); |
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1533 if (ptn->node_type() == PointsToNode::JavaObject) |
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1534 has_non_escaping_obj = true; // Non GlobalEscape |
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1535 uint e_cnt = ptn->edge_count(); |
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1536 for (uint ei = 0; ei < e_cnt; ei++) { |
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1537 uint npi = ptn->edge_target(ei); |
0 | 1538 PointsToNode *np = ptnode_adr(npi); |
65 | 1539 if (np->escape_state() < PointsToNode::ArgEscape) { |
0 | 1540 np->set_escape_state(PointsToNode::ArgEscape); |
244
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1541 worklist.push(npi); |
0 | 1542 } |
1543 } | |
1544 } | |
65 | 1545 |
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1546 GrowableArray<Node*> alloc_worklist; |
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1547 |
65 | 1548 // push all NoEscape nodes on the worklist |
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1549 for( uint next = 0; next < cg_length; ++next ) { |
65 | 1550 int nk = cg_worklist.at(next); |
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1551 if (ptnode_adr(nk)->escape_state() == PointsToNode::NoEscape) |
65 | 1552 worklist.push(nk); |
1553 } | |
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1554 // mark all nodes reachable from NoEscape nodes |
65 | 1555 while(worklist.length() > 0) { |
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1556 PointsToNode* ptn = ptnode_adr(worklist.pop()); |
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1557 if (ptn->node_type() == PointsToNode::JavaObject) |
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1558 has_non_escaping_obj = true; // Non GlobalEscape |
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1559 Node* n = ptn->_node; |
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1560 if (n->is_Allocate() && ptn->_scalar_replaceable ) { |
605 | 1561 // Push scalar replaceable allocations on alloc_worklist |
244
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1562 // for processing in split_unique_types(). |
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1563 alloc_worklist.append(n); |
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1564 } |
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1565 uint e_cnt = ptn->edge_count(); |
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1566 for (uint ei = 0; ei < e_cnt; ei++) { |
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1567 uint npi = ptn->edge_target(ei); |
65 | 1568 PointsToNode *np = ptnode_adr(npi); |
1569 if (np->escape_state() < PointsToNode::NoEscape) { | |
1570 np->set_escape_state(PointsToNode::NoEscape); | |
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1571 worklist.push(npi); |
65 | 1572 } |
1573 } | |
1574 } | |
1575 | |
0 | 1576 _collecting = false; |
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1577 assert(C->unique() == nodes_size(), "there should be no new ideal nodes during ConnectionGraph build"); |
0 | 1578 |
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1579 bool has_scalar_replaceable_candidates = alloc_worklist.length() > 0; |
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1580 if ( has_scalar_replaceable_candidates && |
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1581 C->AliasLevel() >= 3 && EliminateAllocations ) { |
0 | 1582 |
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1583 // Now use the escape information to create unique types for |
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1584 // scalar replaceable objects. |
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1585 split_unique_types(alloc_worklist); |
0 | 1586 |
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1587 if (C->failing()) return false; |
0 | 1588 |
65 | 1589 // Clean up after split unique types. |
1590 ResourceMark rm; | |
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1591 PhaseRemoveUseless pru(C->initial_gvn(), C->for_igvn()); |
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1592 |
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1593 C->print_method("After Escape Analysis", 2); |
0 | 1594 |
65 | 1595 #ifdef ASSERT |
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1596 } else if (Verbose && (PrintEscapeAnalysis || PrintEliminateAllocations)) { |
65 | 1597 tty->print("=== No allocations eliminated for "); |
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1598 C->method()->print_short_name(); |
65 | 1599 if(!EliminateAllocations) { |
1600 tty->print(" since EliminateAllocations is off ==="); | |
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1601 } else if(!has_scalar_replaceable_candidates) { |
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1602 tty->print(" since there are no scalar replaceable candidates ==="); |
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1603 } else if(C->AliasLevel() < 3) { |
65 | 1604 tty->print(" since AliasLevel < 3 ==="); |
0 | 1605 } |
65 | 1606 tty->cr(); |
1607 #endif | |
0 | 1608 } |
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1609 return has_non_escaping_obj; |
0 | 1610 } |
1611 | |
1612 void ConnectionGraph::process_call_arguments(CallNode *call, PhaseTransform *phase) { | |
1613 | |
1614 switch (call->Opcode()) { | |
65 | 1615 #ifdef ASSERT |
0 | 1616 case Op_Allocate: |
1617 case Op_AllocateArray: | |
1618 case Op_Lock: | |
1619 case Op_Unlock: | |
65 | 1620 assert(false, "should be done already"); |
0 | 1621 break; |
65 | 1622 #endif |
1623 case Op_CallLeafNoFP: | |
1624 { | |
1625 // Stub calls, objects do not escape but they are not scale replaceable. | |
1626 // Adjust escape state for outgoing arguments. | |
1627 const TypeTuple * d = call->tf()->domain(); | |
1628 VectorSet ptset(Thread::current()->resource_area()); | |
1629 for (uint i = TypeFunc::Parms; i < d->cnt(); i++) { | |
1630 const Type* at = d->field_at(i); | |
1631 Node *arg = call->in(i)->uncast(); | |
1632 const Type *aat = phase->type(arg); | |
1633 if (!arg->is_top() && at->isa_ptr() && aat->isa_ptr()) { | |
1634 assert(aat == Type::TOP || aat == TypePtr::NULL_PTR || | |
1635 aat->isa_ptr() != NULL, "expecting an Ptr"); | |
1636 set_escape_state(arg->_idx, PointsToNode::ArgEscape); | |
1637 if (arg->is_AddP()) { | |
1638 // | |
1639 // The inline_native_clone() case when the arraycopy stub is called | |
1640 // after the allocation before Initialize and CheckCastPP nodes. | |
1641 // | |
1642 // Set AddP's base (Allocate) as not scalar replaceable since | |
1643 // pointer to the base (with offset) is passed as argument. | |
1644 // | |
1645 arg = get_addp_base(arg); | |
1646 } | |
1647 ptset.Clear(); | |
1648 PointsTo(ptset, arg, phase); | |
1649 for( VectorSetI j(&ptset); j.test(); ++j ) { | |
1650 uint pt = j.elem; | |
1651 set_escape_state(pt, PointsToNode::ArgEscape); | |
1652 } | |
1653 } | |
1654 } | |
1655 break; | |
1656 } | |
0 | 1657 |
1658 case Op_CallStaticJava: | |
1659 // For a static call, we know exactly what method is being called. | |
1660 // Use bytecode estimator to record the call's escape affects | |
1661 { | |
1662 ciMethod *meth = call->as_CallJava()->method(); | |
65 | 1663 BCEscapeAnalyzer *call_analyzer = (meth !=NULL) ? meth->get_bcea() : NULL; |
1664 // fall-through if not a Java method or no analyzer information | |
1665 if (call_analyzer != NULL) { | |
0 | 1666 const TypeTuple * d = call->tf()->domain(); |
1667 VectorSet ptset(Thread::current()->resource_area()); | |
65 | 1668 bool copy_dependencies = false; |
0 | 1669 for (uint i = TypeFunc::Parms; i < d->cnt(); i++) { |
1670 const Type* at = d->field_at(i); | |
1671 int k = i - TypeFunc::Parms; | |
1672 | |
1673 if (at->isa_oopptr() != NULL) { | |
65 | 1674 Node *arg = call->in(i)->uncast(); |
0 | 1675 |
65 | 1676 bool global_escapes = false; |
1677 bool fields_escapes = false; | |
1678 if (!call_analyzer->is_arg_stack(k)) { | |
1679 // The argument global escapes, mark everything it could point to | |
1680 set_escape_state(arg->_idx, PointsToNode::GlobalEscape); | |
1681 global_escapes = true; | |
1682 } else { | |
1683 if (!call_analyzer->is_arg_local(k)) { | |
1684 // The argument itself doesn't escape, but any fields might | |
1685 fields_escapes = true; | |
0 | 1686 } |
65 | 1687 set_escape_state(arg->_idx, PointsToNode::ArgEscape); |
1688 copy_dependencies = true; | |
1689 } | |
1690 | |
1691 ptset.Clear(); | |
1692 PointsTo(ptset, arg, phase); | |
1693 for( VectorSetI j(&ptset); j.test(); ++j ) { | |
1694 uint pt = j.elem; | |
1695 if (global_escapes) { | |
1696 //The argument global escapes, mark everything it could point to | |
1697 set_escape_state(pt, PointsToNode::GlobalEscape); | |
1698 } else { | |
1699 if (fields_escapes) { | |
1700 // The argument itself doesn't escape, but any fields might | |
1701 add_edge_from_fields(pt, _phantom_object, Type::OffsetBot); | |
1702 } | |
1703 set_escape_state(pt, PointsToNode::ArgEscape); | |
0 | 1704 } |
1705 } | |
1706 } | |
1707 } | |
65 | 1708 if (copy_dependencies) |
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1709 call_analyzer->copy_dependencies(_compile->dependencies()); |
0 | 1710 break; |
1711 } | |
1712 } | |
1713 | |
1714 default: | |
65 | 1715 // Fall-through here if not a Java method or no analyzer information |
1716 // or some other type of call, assume the worst case: all arguments | |
0 | 1717 // globally escape. |
1718 { | |
1719 // adjust escape state for outgoing arguments | |
1720 const TypeTuple * d = call->tf()->domain(); | |
1721 VectorSet ptset(Thread::current()->resource_area()); | |
1722 for (uint i = TypeFunc::Parms; i < d->cnt(); i++) { | |
1723 const Type* at = d->field_at(i); | |
1724 if (at->isa_oopptr() != NULL) { | |
65 | 1725 Node *arg = call->in(i)->uncast(); |
1726 set_escape_state(arg->_idx, PointsToNode::GlobalEscape); | |
0 | 1727 ptset.Clear(); |
1728 PointsTo(ptset, arg, phase); | |
1729 for( VectorSetI j(&ptset); j.test(); ++j ) { | |
1730 uint pt = j.elem; | |
1731 set_escape_state(pt, PointsToNode::GlobalEscape); | |
1732 } | |
1733 } | |
1734 } | |
1735 } | |
1736 } | |
1737 } | |
1738 void ConnectionGraph::process_call_result(ProjNode *resproj, PhaseTransform *phase) { | |
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1739 CallNode *call = resproj->in(0)->as_Call(); |
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1740 uint call_idx = call->_idx; |
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1741 uint resproj_idx = resproj->_idx; |
0 | 1742 |
1743 switch (call->Opcode()) { | |
1744 case Op_Allocate: | |
1745 { | |
1746 Node *k = call->in(AllocateNode::KlassNode); | |
1747 const TypeKlassPtr *kt; | |
1748 if (k->Opcode() == Op_LoadKlass) { | |
1749 kt = k->as_Load()->type()->isa_klassptr(); | |
1750 } else { | |
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1751 // Also works for DecodeN(LoadNKlass). |
0 | 1752 kt = k->as_Type()->type()->isa_klassptr(); |
1753 } | |
1754 assert(kt != NULL, "TypeKlassPtr required."); | |
1755 ciKlass* cik = kt->klass(); | |
1756 ciInstanceKlass* ciik = cik->as_instance_klass(); | |
1757 | |
65 | 1758 PointsToNode::EscapeState es; |
1759 uint edge_to; | |
0 | 1760 if (cik->is_subclass_of(_compile->env()->Thread_klass()) || ciik->has_finalizer()) { |
65 | 1761 es = PointsToNode::GlobalEscape; |
1762 edge_to = _phantom_object; // Could not be worse | |
0 | 1763 } else { |
65 | 1764 es = PointsToNode::NoEscape; |
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1765 edge_to = call_idx; |
0 | 1766 } |
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1767 set_escape_state(call_idx, es); |
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1768 add_pointsto_edge(resproj_idx, edge_to); |
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1769 _processed.set(resproj_idx); |
0 | 1770 break; |
1771 } | |
1772 | |
1773 case Op_AllocateArray: | |
1774 { | |
65 | 1775 int length = call->in(AllocateNode::ALength)->find_int_con(-1); |
1776 if (length < 0 || length > EliminateAllocationArraySizeLimit) { | |
1777 // Not scalar replaceable if the length is not constant or too big. | |
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1778 ptnode_adr(call_idx)->_scalar_replaceable = false; |
65 | 1779 } |
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1780 set_escape_state(call_idx, PointsToNode::NoEscape); |
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1781 add_pointsto_edge(resproj_idx, call_idx); |
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1782 _processed.set(resproj_idx); |
0 | 1783 break; |
1784 } | |
1785 | |
1786 case Op_CallStaticJava: | |
1787 // For a static call, we know exactly what method is being called. | |
1788 // Use bytecode estimator to record whether the call's return value escapes | |
1789 { | |
65 | 1790 bool done = true; |
0 | 1791 const TypeTuple *r = call->tf()->range(); |
1792 const Type* ret_type = NULL; | |
1793 | |
1794 if (r->cnt() > TypeFunc::Parms) | |
1795 ret_type = r->field_at(TypeFunc::Parms); | |
1796 | |
1797 // Note: we use isa_ptr() instead of isa_oopptr() here because the | |
1798 // _multianewarray functions return a TypeRawPtr. | |
65 | 1799 if (ret_type == NULL || ret_type->isa_ptr() == NULL) { |
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1800 _processed.set(resproj_idx); |
0 | 1801 break; // doesn't return a pointer type |
65 | 1802 } |
0 | 1803 ciMethod *meth = call->as_CallJava()->method(); |
65 | 1804 const TypeTuple * d = call->tf()->domain(); |
0 | 1805 if (meth == NULL) { |
1806 // not a Java method, assume global escape | |
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1807 set_escape_state(call_idx, PointsToNode::GlobalEscape); |
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1808 add_pointsto_edge(resproj_idx, _phantom_object); |
0 | 1809 } else { |
65 | 1810 BCEscapeAnalyzer *call_analyzer = meth->get_bcea(); |
1811 bool copy_dependencies = false; | |
0 | 1812 |
65 | 1813 if (call_analyzer->is_return_allocated()) { |
1814 // Returns a newly allocated unescaped object, simply | |
1815 // update dependency information. | |
1816 // Mark it as NoEscape so that objects referenced by | |
1817 // it's fields will be marked as NoEscape at least. | |
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1818 set_escape_state(call_idx, PointsToNode::NoEscape); |
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1819 add_pointsto_edge(resproj_idx, call_idx); |
65 | 1820 copy_dependencies = true; |
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1821 } else if (call_analyzer->is_return_local()) { |
0 | 1822 // determine whether any arguments are returned |
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1823 set_escape_state(call_idx, PointsToNode::NoEscape); |
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1824 bool ret_arg = false; |
0 | 1825 for (uint i = TypeFunc::Parms; i < d->cnt(); i++) { |
1826 const Type* at = d->field_at(i); | |
1827 | |
1828 if (at->isa_oopptr() != NULL) { | |
65 | 1829 Node *arg = call->in(i)->uncast(); |
0 | 1830 |
65 | 1831 if (call_analyzer->is_arg_returned(i - TypeFunc::Parms)) { |
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1832 ret_arg = true; |
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1833 PointsToNode *arg_esp = ptnode_adr(arg->_idx); |
65 | 1834 if (arg_esp->node_type() == PointsToNode::UnknownType) |
1835 done = false; | |
1836 else if (arg_esp->node_type() == PointsToNode::JavaObject) | |
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1837 add_pointsto_edge(resproj_idx, arg->_idx); |
0 | 1838 else |
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1839 add_deferred_edge(resproj_idx, arg->_idx); |
0 | 1840 arg_esp->_hidden_alias = true; |
1841 } | |
1842 } | |
1843 } | |
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1844 if (done && !ret_arg) { |
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1845 // Returns unknown object. |
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1846 set_escape_state(call_idx, PointsToNode::GlobalEscape); |
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1847 add_pointsto_edge(resproj_idx, _phantom_object); |
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1848 } |
65 | 1849 copy_dependencies = true; |
0 | 1850 } else { |
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1851 set_escape_state(call_idx, PointsToNode::GlobalEscape); |
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1852 add_pointsto_edge(resproj_idx, _phantom_object); |
65 | 1853 for (uint i = TypeFunc::Parms; i < d->cnt(); i++) { |
1854 const Type* at = d->field_at(i); | |
1855 if (at->isa_oopptr() != NULL) { | |
1856 Node *arg = call->in(i)->uncast(); | |
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1857 PointsToNode *arg_esp = ptnode_adr(arg->_idx); |
65 | 1858 arg_esp->_hidden_alias = true; |
1859 } | |
1860 } | |
0 | 1861 } |
65 | 1862 if (copy_dependencies) |
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1863 call_analyzer->copy_dependencies(_compile->dependencies()); |
0 | 1864 } |
65 | 1865 if (done) |
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1866 _processed.set(resproj_idx); |
0 | 1867 break; |
1868 } | |
1869 | |
1870 default: | |
1871 // Some other type of call, assume the worst case that the | |
1872 // returned value, if any, globally escapes. | |
1873 { | |
1874 const TypeTuple *r = call->tf()->range(); | |
1875 if (r->cnt() > TypeFunc::Parms) { | |
1876 const Type* ret_type = r->field_at(TypeFunc::Parms); | |
1877 | |
1878 // Note: we use isa_ptr() instead of isa_oopptr() here because the | |
1879 // _multianewarray functions return a TypeRawPtr. | |
1880 if (ret_type->isa_ptr() != NULL) { | |
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1881 set_escape_state(call_idx, PointsToNode::GlobalEscape); |
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1882 add_pointsto_edge(resproj_idx, _phantom_object); |
0 | 1883 } |
1884 } | |
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1885 _processed.set(resproj_idx); |
0 | 1886 } |
1887 } | |
1888 } | |
1889 | |
65 | 1890 // Populate Connection Graph with Ideal nodes and create simple |
1891 // connection graph edges (do not need to check the node_type of inputs | |
1892 // or to call PointsTo() to walk the connection graph). | |
1893 void ConnectionGraph::record_for_escape_analysis(Node *n, PhaseTransform *phase) { | |
1894 if (_processed.test(n->_idx)) | |
1895 return; // No need to redefine node's state. | |
1896 | |
1897 if (n->is_Call()) { | |
1898 // Arguments to allocation and locking don't escape. | |
1899 if (n->is_Allocate()) { | |
1900 add_node(n, PointsToNode::JavaObject, PointsToNode::UnknownEscape, true); | |
1901 record_for_optimizer(n); | |
1902 } else if (n->is_Lock() || n->is_Unlock()) { | |
1903 // Put Lock and Unlock nodes on IGVN worklist to process them during | |
1904 // the first IGVN optimization when escape information is still available. | |
1905 record_for_optimizer(n); | |
1906 _processed.set(n->_idx); | |
1907 } else { | |
1908 // Have to process call's arguments first. | |
1909 PointsToNode::NodeType nt = PointsToNode::UnknownType; | |
1910 | |
1911 // Check if a call returns an object. | |
1912 const TypeTuple *r = n->as_Call()->tf()->range(); | |
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1913 if (n->is_CallStaticJava() && r->cnt() > TypeFunc::Parms && |
65 | 1914 n->as_Call()->proj_out(TypeFunc::Parms) != NULL) { |
1915 // Note: use isa_ptr() instead of isa_oopptr() here because | |
1916 // the _multianewarray functions return a TypeRawPtr. | |
1917 if (r->field_at(TypeFunc::Parms)->isa_ptr() != NULL) { | |
1918 nt = PointsToNode::JavaObject; | |
1919 } | |
1920 } | |
1921 add_node(n, nt, PointsToNode::UnknownEscape, false); | |
1922 } | |
1923 return; | |
1924 } | |
1925 | |
1926 // Using isa_ptr() instead of isa_oopptr() for LoadP and Phi because | |
1927 // ThreadLocal has RawPrt type. | |
1928 switch (n->Opcode()) { | |
1929 case Op_AddP: | |
1930 { | |
1931 add_node(n, PointsToNode::Field, PointsToNode::UnknownEscape, false); | |
1932 break; | |
1933 } | |
1934 case Op_CastX2P: | |
1935 { // "Unsafe" memory access. | |
1936 add_node(n, PointsToNode::JavaObject, PointsToNode::GlobalEscape, true); | |
1937 break; | |
1938 } | |
1939 case Op_CastPP: | |
1940 case Op_CheckCastPP: | |
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1941 case Op_EncodeP: |
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1942 case Op_DecodeN: |
65 | 1943 { |
1944 add_node(n, PointsToNode::LocalVar, PointsToNode::UnknownEscape, false); | |
1945 int ti = n->in(1)->_idx; | |
244
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1946 PointsToNode::NodeType nt = ptnode_adr(ti)->node_type(); |
65 | 1947 if (nt == PointsToNode::UnknownType) { |
1948 _delayed_worklist.push(n); // Process it later. | |
1949 break; | |
1950 } else if (nt == PointsToNode::JavaObject) { | |
1951 add_pointsto_edge(n->_idx, ti); | |
1952 } else { | |
1953 add_deferred_edge(n->_idx, ti); | |
1954 } | |
1955 _processed.set(n->_idx); | |
1956 break; | |
1957 } | |
1958 case Op_ConP: | |
1959 { | |
1960 // assume all pointer constants globally escape except for null | |
1961 PointsToNode::EscapeState es; | |
1962 if (phase->type(n) == TypePtr::NULL_PTR) | |
1963 es = PointsToNode::NoEscape; | |
1964 else | |
1965 es = PointsToNode::GlobalEscape; | |
0 | 1966 |
65 | 1967 add_node(n, PointsToNode::JavaObject, es, true); |
1968 break; | |
1969 } | |
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1970 case Op_ConN: |
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1971 { |
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1972 // assume all narrow oop constants globally escape except for null |
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1973 PointsToNode::EscapeState es; |
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1974 if (phase->type(n) == TypeNarrowOop::NULL_PTR) |
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1975 es = PointsToNode::NoEscape; |
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1976 else |
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1977 es = PointsToNode::GlobalEscape; |
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1978 |
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1979 add_node(n, PointsToNode::JavaObject, es, true); |
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1980 break; |
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1981 } |
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1982 case Op_CreateEx: |
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1983 { |
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1984 // assume that all exception objects globally escape |
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1985 add_node(n, PointsToNode::JavaObject, PointsToNode::GlobalEscape, true); |
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1986 break; |
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1987 } |
65 | 1988 case Op_LoadKlass: |
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1989 case Op_LoadNKlass: |
65 | 1990 { |
1991 add_node(n, PointsToNode::JavaObject, PointsToNode::GlobalEscape, true); | |
1992 break; | |
1993 } | |
1994 case Op_LoadP: | |
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1995 case Op_LoadN: |
65 | 1996 { |
1997 const Type *t = phase->type(n); | |
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1998 if (t->make_ptr() == NULL) { |
65 | 1999 _processed.set(n->_idx); |
2000 return; | |
2001 } | |
2002 add_node(n, PointsToNode::LocalVar, PointsToNode::UnknownEscape, false); | |
2003 break; | |
2004 } | |
2005 case Op_Parm: | |
2006 { | |
2007 _processed.set(n->_idx); // No need to redefine it state. | |
2008 uint con = n->as_Proj()->_con; | |
2009 if (con < TypeFunc::Parms) | |
2010 return; | |
2011 const Type *t = n->in(0)->as_Start()->_domain->field_at(con); | |
2012 if (t->isa_ptr() == NULL) | |
2013 return; | |
2014 // We have to assume all input parameters globally escape | |
2015 // (Note: passing 'false' since _processed is already set). | |
2016 add_node(n, PointsToNode::JavaObject, PointsToNode::GlobalEscape, false); | |
2017 break; | |
2018 } | |
2019 case Op_Phi: | |
2020 { | |
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2021 const Type *t = n->as_Phi()->type(); |
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2022 if (t->make_ptr() == NULL) { |
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2023 // nothing to do if not an oop or narrow oop |
65 | 2024 _processed.set(n->_idx); |
2025 return; | |
2026 } | |
2027 add_node(n, PointsToNode::LocalVar, PointsToNode::UnknownEscape, false); | |
2028 uint i; | |
2029 for (i = 1; i < n->req() ; i++) { | |
2030 Node* in = n->in(i); | |
2031 if (in == NULL) | |
2032 continue; // ignore NULL | |
2033 in = in->uncast(); | |
2034 if (in->is_top() || in == n) | |
2035 continue; // ignore top or inputs which go back this node | |
2036 int ti = in->_idx; | |
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2037 PointsToNode::NodeType nt = ptnode_adr(ti)->node_type(); |
65 | 2038 if (nt == PointsToNode::UnknownType) { |
2039 break; | |
2040 } else if (nt == PointsToNode::JavaObject) { | |
2041 add_pointsto_edge(n->_idx, ti); | |
2042 } else { | |
2043 add_deferred_edge(n->_idx, ti); | |
2044 } | |
2045 } | |
2046 if (i >= n->req()) | |
2047 _processed.set(n->_idx); | |
2048 else | |
2049 _delayed_worklist.push(n); | |
2050 break; | |
2051 } | |
2052 case Op_Proj: | |
2053 { | |
2054 // we are only interested in the result projection from a call | |
2055 if (n->as_Proj()->_con == TypeFunc::Parms && n->in(0)->is_Call() ) { | |
2056 add_node(n, PointsToNode::LocalVar, PointsToNode::UnknownEscape, false); | |
2057 process_call_result(n->as_Proj(), phase); | |
2058 if (!_processed.test(n->_idx)) { | |
2059 // The call's result may need to be processed later if the call | |
2060 // returns it's argument and the argument is not processed yet. | |
2061 _delayed_worklist.push(n); | |
2062 } | |
2063 } else { | |
2064 _processed.set(n->_idx); | |
2065 } | |
2066 break; | |
2067 } | |
2068 case Op_Return: | |
2069 { | |
2070 if( n->req() > TypeFunc::Parms && | |
2071 phase->type(n->in(TypeFunc::Parms))->isa_oopptr() ) { | |
2072 // Treat Return value as LocalVar with GlobalEscape escape state. | |
2073 add_node(n, PointsToNode::LocalVar, PointsToNode::GlobalEscape, false); | |
2074 int ti = n->in(TypeFunc::Parms)->_idx; | |
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2075 PointsToNode::NodeType nt = ptnode_adr(ti)->node_type(); |
65 | 2076 if (nt == PointsToNode::UnknownType) { |
2077 _delayed_worklist.push(n); // Process it later. | |
2078 break; | |
2079 } else if (nt == PointsToNode::JavaObject) { | |
2080 add_pointsto_edge(n->_idx, ti); | |
2081 } else { | |
2082 add_deferred_edge(n->_idx, ti); | |
2083 } | |
2084 } | |
2085 _processed.set(n->_idx); | |
2086 break; | |
2087 } | |
2088 case Op_StoreP: | |
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2089 case Op_StoreN: |
65 | 2090 { |
2091 const Type *adr_type = phase->type(n->in(MemNode::Address)); | |
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2092 adr_type = adr_type->make_ptr(); |
65 | 2093 if (adr_type->isa_oopptr()) { |
2094 add_node(n, PointsToNode::UnknownType, PointsToNode::UnknownEscape, false); | |
2095 } else { | |
2096 Node* adr = n->in(MemNode::Address); | |
2097 if (adr->is_AddP() && phase->type(adr) == TypeRawPtr::NOTNULL && | |
2098 adr->in(AddPNode::Address)->is_Proj() && | |
2099 adr->in(AddPNode::Address)->in(0)->is_Allocate()) { | |
2100 add_node(n, PointsToNode::UnknownType, PointsToNode::UnknownEscape, false); | |
2101 // We are computing a raw address for a store captured | |
2102 // by an Initialize compute an appropriate address type. | |
2103 int offs = (int)phase->find_intptr_t_con(adr->in(AddPNode::Offset), Type::OffsetBot); | |
2104 assert(offs != Type::OffsetBot, "offset must be a constant"); | |
2105 } else { | |
2106 _processed.set(n->_idx); | |
2107 return; | |
2108 } | |
2109 } | |
2110 break; | |
2111 } | |
2112 case Op_StorePConditional: | |
2113 case Op_CompareAndSwapP: | |
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2114 case Op_CompareAndSwapN: |
65 | 2115 { |
2116 const Type *adr_type = phase->type(n->in(MemNode::Address)); | |
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2117 adr_type = adr_type->make_ptr(); |
65 | 2118 if (adr_type->isa_oopptr()) { |
2119 add_node(n, PointsToNode::UnknownType, PointsToNode::UnknownEscape, false); | |
2120 } else { | |
2121 _processed.set(n->_idx); | |
2122 return; | |
2123 } | |
2124 break; | |
2125 } | |
2126 case Op_ThreadLocal: | |
2127 { | |
2128 add_node(n, PointsToNode::JavaObject, PointsToNode::ArgEscape, true); | |
2129 break; | |
2130 } | |
2131 default: | |
2132 ; | |
2133 // nothing to do | |
2134 } | |
2135 return; | |
2136 } | |
2137 | |
2138 void ConnectionGraph::build_connection_graph(Node *n, PhaseTransform *phase) { | |
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2139 uint n_idx = n->_idx; |
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2140 |
65 | 2141 // Don't set processed bit for AddP, LoadP, StoreP since |
2142 // they may need more then one pass to process. | |
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2143 if (_processed.test(n_idx)) |
65 | 2144 return; // No need to redefine node's state. |
2145 | |
0 | 2146 if (n->is_Call()) { |
2147 CallNode *call = n->as_Call(); | |
2148 process_call_arguments(call, phase); | |
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2149 _processed.set(n_idx); |
0 | 2150 return; |
2151 } | |
2152 | |
65 | 2153 switch (n->Opcode()) { |
0 | 2154 case Op_AddP: |
2155 { | |
65 | 2156 Node *base = get_addp_base(n); |
2157 // Create a field edge to this node from everything base could point to. | |
0 | 2158 VectorSet ptset(Thread::current()->resource_area()); |
2159 PointsTo(ptset, base, phase); | |
2160 for( VectorSetI i(&ptset); i.test(); ++i ) { | |
2161 uint pt = i.elem; | |
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2162 add_field_edge(pt, n_idx, address_offset(n, phase)); |
65 | 2163 } |
2164 break; | |
2165 } | |
2166 case Op_CastX2P: | |
2167 { | |
2168 assert(false, "Op_CastX2P"); | |
2169 break; | |
2170 } | |
2171 case Op_CastPP: | |
2172 case Op_CheckCastPP: | |
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2173 case Op_EncodeP: |
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2174 case Op_DecodeN: |
65 | 2175 { |
2176 int ti = n->in(1)->_idx; | |
244
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2177 if (ptnode_adr(ti)->node_type() == PointsToNode::JavaObject) { |
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2178 add_pointsto_edge(n_idx, ti); |
65 | 2179 } else { |
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2180 add_deferred_edge(n_idx, ti); |
65 | 2181 } |
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2182 _processed.set(n_idx); |
65 | 2183 break; |
2184 } | |
2185 case Op_ConP: | |
2186 { | |
2187 assert(false, "Op_ConP"); | |
2188 break; | |
2189 } | |
163 | 2190 case Op_ConN: |
2191 { | |
2192 assert(false, "Op_ConN"); | |
2193 break; | |
2194 } | |
65 | 2195 case Op_CreateEx: |
2196 { | |
2197 assert(false, "Op_CreateEx"); | |
2198 break; | |
2199 } | |
2200 case Op_LoadKlass: | |
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2201 case Op_LoadNKlass: |
65 | 2202 { |
2203 assert(false, "Op_LoadKlass"); | |
2204 break; | |
2205 } | |
2206 case Op_LoadP: | |
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2207 case Op_LoadN: |
65 | 2208 { |
2209 const Type *t = phase->type(n); | |
2210 #ifdef ASSERT | |
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2211 if (t->make_ptr() == NULL) |
65 | 2212 assert(false, "Op_LoadP"); |
2213 #endif | |
2214 | |
2215 Node* adr = n->in(MemNode::Address)->uncast(); | |
2216 const Type *adr_type = phase->type(adr); | |
2217 Node* adr_base; | |
2218 if (adr->is_AddP()) { | |
2219 adr_base = get_addp_base(adr); | |
2220 } else { | |
2221 adr_base = adr; | |
2222 } | |
2223 | |
2224 // For everything "adr_base" could point to, create a deferred edge from | |
2225 // this node to each field with the same offset. | |
2226 VectorSet ptset(Thread::current()->resource_area()); | |
2227 PointsTo(ptset, adr_base, phase); | |
2228 int offset = address_offset(adr, phase); | |
2229 for( VectorSetI i(&ptset); i.test(); ++i ) { | |
2230 uint pt = i.elem; | |
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2231 add_deferred_edge_to_fields(n_idx, pt, offset); |
0 | 2232 } |
2233 break; | |
2234 } | |
2235 case Op_Parm: | |
2236 { | |
65 | 2237 assert(false, "Op_Parm"); |
0 | 2238 break; |
2239 } | |
2240 case Op_Phi: | |
2241 { | |
65 | 2242 #ifdef ASSERT |
253
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2243 const Type *t = n->as_Phi()->type(); |
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2244 if (t->make_ptr() == NULL) |
65 | 2245 assert(false, "Op_Phi"); |
2246 #endif | |
2247 for (uint i = 1; i < n->req() ; i++) { | |
2248 Node* in = n->in(i); | |
2249 if (in == NULL) | |
2250 continue; // ignore NULL | |
2251 in = in->uncast(); | |
2252 if (in->is_top() || in == n) | |
2253 continue; // ignore top or inputs which go back this node | |
2254 int ti = in->_idx; | |
307
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2255 PointsToNode::NodeType nt = ptnode_adr(ti)->node_type(); |
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2256 assert(nt != PointsToNode::UnknownType, "all nodes should be known"); |
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2257 if (nt == PointsToNode::JavaObject) { |
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2258 add_pointsto_edge(n_idx, ti); |
65 | 2259 } else { |
244
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2260 add_deferred_edge(n_idx, ti); |
65 | 2261 } |
2262 } | |
244
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2263 _processed.set(n_idx); |
0 | 2264 break; |
2265 } | |
65 | 2266 case Op_Proj: |
0 | 2267 { |
65 | 2268 // we are only interested in the result projection from a call |
2269 if (n->as_Proj()->_con == TypeFunc::Parms && n->in(0)->is_Call() ) { | |
2270 process_call_result(n->as_Proj(), phase); | |
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2271 assert(_processed.test(n_idx), "all call results should be processed"); |
65 | 2272 } else { |
2273 assert(false, "Op_Proj"); | |
2274 } | |
0 | 2275 break; |
2276 } | |
65 | 2277 case Op_Return: |
0 | 2278 { |
65 | 2279 #ifdef ASSERT |
2280 if( n->req() <= TypeFunc::Parms || | |
2281 !phase->type(n->in(TypeFunc::Parms))->isa_oopptr() ) { | |
2282 assert(false, "Op_Return"); | |
0 | 2283 } |
65 | 2284 #endif |
2285 int ti = n->in(TypeFunc::Parms)->_idx; | |
244
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2286 if (ptnode_adr(ti)->node_type() == PointsToNode::JavaObject) { |
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2287 add_pointsto_edge(n_idx, ti); |
65 | 2288 } else { |
244
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2289 add_deferred_edge(n_idx, ti); |
65 | 2290 } |
244
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2291 _processed.set(n_idx); |
0 | 2292 break; |
2293 } | |
2294 case Op_StoreP: | |
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2295 case Op_StoreN: |
0 | 2296 case Op_StorePConditional: |
2297 case Op_CompareAndSwapP: | |
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2298 case Op_CompareAndSwapN: |
0 | 2299 { |
2300 Node *adr = n->in(MemNode::Address); | |
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2301 const Type *adr_type = phase->type(adr)->make_ptr(); |
65 | 2302 #ifdef ASSERT |
0 | 2303 if (!adr_type->isa_oopptr()) |
65 | 2304 assert(phase->type(adr) == TypeRawPtr::NOTNULL, "Op_StoreP"); |
2305 #endif | |
0 | 2306 |
65 | 2307 assert(adr->is_AddP(), "expecting an AddP"); |
2308 Node *adr_base = get_addp_base(adr); | |
2309 Node *val = n->in(MemNode::ValueIn)->uncast(); | |
2310 // For everything "adr_base" could point to, create a deferred edge | |
2311 // to "val" from each field with the same offset. | |
0 | 2312 VectorSet ptset(Thread::current()->resource_area()); |
2313 PointsTo(ptset, adr_base, phase); | |
2314 for( VectorSetI i(&ptset); i.test(); ++i ) { | |
2315 uint pt = i.elem; | |
65 | 2316 add_edge_from_fields(pt, val->_idx, address_offset(adr, phase)); |
0 | 2317 } |
2318 break; | |
2319 } | |
65 | 2320 case Op_ThreadLocal: |
0 | 2321 { |
65 | 2322 assert(false, "Op_ThreadLocal"); |
0 | 2323 break; |
2324 } | |
2325 default: | |
2326 ; | |
2327 // nothing to do | |
2328 } | |
2329 } | |
2330 | |
2331 #ifndef PRODUCT | |
2332 void ConnectionGraph::dump() { | |
2333 PhaseGVN *igvn = _compile->initial_gvn(); | |
2334 bool first = true; | |
2335 | |
244
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2336 uint size = nodes_size(); |
65 | 2337 for (uint ni = 0; ni < size; ni++) { |
244
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2338 PointsToNode *ptn = ptnode_adr(ni); |
65 | 2339 PointsToNode::NodeType ptn_type = ptn->node_type(); |
2340 | |
2341 if (ptn_type != PointsToNode::JavaObject || ptn->_node == NULL) | |
0 | 2342 continue; |
65 | 2343 PointsToNode::EscapeState es = escape_state(ptn->_node, igvn); |
2344 if (ptn->_node->is_Allocate() && (es == PointsToNode::NoEscape || Verbose)) { | |
2345 if (first) { | |
2346 tty->cr(); | |
2347 tty->print("======== Connection graph for "); | |
244
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2348 _compile->method()->print_short_name(); |
65 | 2349 tty->cr(); |
2350 first = false; | |
2351 } | |
2352 tty->print("%6d ", ni); | |
2353 ptn->dump(); | |
2354 // Print all locals which reference this allocation | |
2355 for (uint li = ni; li < size; li++) { | |
244
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2356 PointsToNode *ptn_loc = ptnode_adr(li); |
65 | 2357 PointsToNode::NodeType ptn_loc_type = ptn_loc->node_type(); |
2358 if ( ptn_loc_type == PointsToNode::LocalVar && ptn_loc->_node != NULL && | |
2359 ptn_loc->edge_count() == 1 && ptn_loc->edge_target(0) == ni ) { | |
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2360 ptnode_adr(li)->dump(false); |
0 | 2361 } |
2362 } | |
65 | 2363 if (Verbose) { |
2364 // Print all fields which reference this allocation | |
2365 for (uint i = 0; i < ptn->edge_count(); i++) { | |
2366 uint ei = ptn->edge_target(i); | |
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2367 ptnode_adr(ei)->dump(false); |
65 | 2368 } |
2369 } | |
2370 tty->cr(); | |
0 | 2371 } |
2372 } | |
2373 } | |
2374 #endif |