Mercurial > hg > truffle
annotate src/share/vm/opto/superword.cpp @ 605:98cb887364d3
6810672: Comment typos
Summary: I have collected some typos I have found while looking at the code.
Reviewed-by: kvn, never
| author | twisti |
|---|---|
| date | Fri, 27 Feb 2009 13:27:09 -0800 |
| parents | 3b5ac9e7e6ea |
| children | 7bb995fbd3c0 |
| rev | line source |
|---|---|
| 0 | 1 /* |
| 196 | 2 * Copyright 2007-2008 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 #include "incls/_precompiled.incl" | |
| 25 #include "incls/_superword.cpp.incl" | |
| 26 | |
| 27 // | |
| 28 // S U P E R W O R D T R A N S F O R M | |
| 29 //============================================================================= | |
| 30 | |
| 31 //------------------------------SuperWord--------------------------- | |
| 32 SuperWord::SuperWord(PhaseIdealLoop* phase) : | |
| 33 _phase(phase), | |
| 34 _igvn(phase->_igvn), | |
| 35 _arena(phase->C->comp_arena()), | |
| 36 _packset(arena(), 8, 0, NULL), // packs for the current block | |
| 37 _bb_idx(arena(), (int)(1.10 * phase->C->unique()), 0, 0), // node idx to index in bb | |
| 38 _block(arena(), 8, 0, NULL), // nodes in current block | |
| 39 _data_entry(arena(), 8, 0, NULL), // nodes with all inputs from outside | |
| 40 _mem_slice_head(arena(), 8, 0, NULL), // memory slice heads | |
| 41 _mem_slice_tail(arena(), 8, 0, NULL), // memory slice tails | |
| 42 _node_info(arena(), 8, 0, SWNodeInfo::initial), // info needed per node | |
| 43 _align_to_ref(NULL), // memory reference to align vectors to | |
| 44 _disjoint_ptrs(arena(), 8, 0, OrderedPair::initial), // runtime disambiguated pointer pairs | |
| 45 _dg(_arena), // dependence graph | |
| 46 _visited(arena()), // visited node set | |
| 47 _post_visited(arena()), // post visited node set | |
| 48 _n_idx_list(arena(), 8), // scratch list of (node,index) pairs | |
| 49 _stk(arena(), 8, 0, NULL), // scratch stack of nodes | |
| 50 _nlist(arena(), 8, 0, NULL), // scratch list of nodes | |
| 51 _lpt(NULL), // loop tree node | |
| 52 _lp(NULL), // LoopNode | |
| 53 _bb(NULL), // basic block | |
| 54 _iv(NULL) // induction var | |
| 55 {} | |
| 56 | |
| 57 //------------------------------transform_loop--------------------------- | |
| 58 void SuperWord::transform_loop(IdealLoopTree* lpt) { | |
| 59 assert(lpt->_head->is_CountedLoop(), "must be"); | |
| 60 CountedLoopNode *cl = lpt->_head->as_CountedLoop(); | |
| 61 | |
| 62 if (!cl->is_main_loop() ) return; // skip normal, pre, and post loops | |
| 63 | |
| 64 // Check for no control flow in body (other than exit) | |
| 65 Node *cl_exit = cl->loopexit(); | |
| 66 if (cl_exit->in(0) != lpt->_head) return; | |
| 67 | |
|
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68 // Make sure the are no extra control users of the loop backedge |
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69 if (cl->back_control()->outcnt() != 1) { |
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70 return; |
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71 } |
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72 |
| 0 | 73 // Check for pre-loop ending with CountedLoopEnd(Bool(Cmp(x,Opaque1(limit)))) |
| 74 CountedLoopEndNode* pre_end = get_pre_loop_end(cl); | |
| 75 if (pre_end == NULL) return; | |
| 76 Node *pre_opaq1 = pre_end->limit(); | |
| 77 if (pre_opaq1->Opcode() != Op_Opaque1) return; | |
| 78 | |
| 79 // Do vectors exist on this architecture? | |
| 80 if (vector_width_in_bytes() == 0) return; | |
| 81 | |
| 82 init(); // initialize data structures | |
| 83 | |
| 84 set_lpt(lpt); | |
| 85 set_lp(cl); | |
| 86 | |
| 87 // For now, define one block which is the entire loop body | |
| 88 set_bb(cl); | |
| 89 | |
| 90 assert(_packset.length() == 0, "packset must be empty"); | |
| 91 SLP_extract(); | |
| 92 } | |
| 93 | |
| 94 //------------------------------SLP_extract--------------------------- | |
| 95 // Extract the superword level parallelism | |
| 96 // | |
| 97 // 1) A reverse post-order of nodes in the block is constructed. By scanning | |
| 98 // this list from first to last, all definitions are visited before their uses. | |
| 99 // | |
| 100 // 2) A point-to-point dependence graph is constructed between memory references. | |
| 101 // This simplies the upcoming "independence" checker. | |
| 102 // | |
| 103 // 3) The maximum depth in the node graph from the beginning of the block | |
| 104 // to each node is computed. This is used to prune the graph search | |
| 105 // in the independence checker. | |
| 106 // | |
| 107 // 4) For integer types, the necessary bit width is propagated backwards | |
| 108 // from stores to allow packed operations on byte, char, and short | |
| 109 // integers. This reverses the promotion to type "int" that javac | |
| 110 // did for operations like: char c1,c2,c3; c1 = c2 + c3. | |
| 111 // | |
| 112 // 5) One of the memory references is picked to be an aligned vector reference. | |
| 113 // The pre-loop trip count is adjusted to align this reference in the | |
| 114 // unrolled body. | |
| 115 // | |
| 116 // 6) The initial set of pack pairs is seeded with memory references. | |
| 117 // | |
| 118 // 7) The set of pack pairs is extended by following use->def and def->use links. | |
| 119 // | |
| 120 // 8) The pairs are combined into vector sized packs. | |
| 121 // | |
| 122 // 9) Reorder the memory slices to co-locate members of the memory packs. | |
| 123 // | |
| 124 // 10) Generate ideal vector nodes for the final set of packs and where necessary, | |
| 125 // inserting scalar promotion, vector creation from multiple scalars, and | |
| 126 // extraction of scalar values from vectors. | |
| 127 // | |
| 128 void SuperWord::SLP_extract() { | |
| 129 | |
| 130 // Ready the block | |
| 131 | |
| 132 construct_bb(); | |
| 133 | |
| 134 dependence_graph(); | |
| 135 | |
| 136 compute_max_depth(); | |
| 137 | |
| 138 compute_vector_element_type(); | |
| 139 | |
| 140 // Attempt vectorization | |
| 141 | |
| 142 find_adjacent_refs(); | |
| 143 | |
| 144 extend_packlist(); | |
| 145 | |
| 146 combine_packs(); | |
| 147 | |
| 148 construct_my_pack_map(); | |
| 149 | |
| 150 filter_packs(); | |
| 151 | |
| 152 schedule(); | |
| 153 | |
| 154 output(); | |
| 155 } | |
| 156 | |
| 157 //------------------------------find_adjacent_refs--------------------------- | |
| 158 // Find the adjacent memory references and create pack pairs for them. | |
| 159 // This is the initial set of packs that will then be extended by | |
| 160 // following use->def and def->use links. The align positions are | |
| 161 // assigned relative to the reference "align_to_ref" | |
| 162 void SuperWord::find_adjacent_refs() { | |
| 163 // Get list of memory operations | |
| 164 Node_List memops; | |
| 165 for (int i = 0; i < _block.length(); i++) { | |
| 166 Node* n = _block.at(i); | |
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167 if (n->is_Mem() && in_bb(n) && |
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168 is_java_primitive(n->as_Mem()->memory_type())) { |
| 0 | 169 int align = memory_alignment(n->as_Mem(), 0); |
| 170 if (align != bottom_align) { | |
| 171 memops.push(n); | |
| 172 } | |
| 173 } | |
| 174 } | |
| 175 if (memops.size() == 0) return; | |
| 176 | |
| 177 // Find a memory reference to align to. The pre-loop trip count | |
| 178 // is modified to align this reference to a vector-aligned address | |
| 179 find_align_to_ref(memops); | |
| 180 if (align_to_ref() == NULL) return; | |
| 181 | |
| 182 SWPointer align_to_ref_p(align_to_ref(), this); | |
| 183 int offset = align_to_ref_p.offset_in_bytes(); | |
| 184 int scale = align_to_ref_p.scale_in_bytes(); | |
| 185 int vw = vector_width_in_bytes(); | |
| 186 int stride_sign = (scale * iv_stride()) > 0 ? 1 : -1; | |
| 187 int iv_adjustment = (stride_sign * vw - (offset % vw)) % vw; | |
| 188 | |
| 189 #ifndef PRODUCT | |
| 190 if (TraceSuperWord) | |
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191 tty->print_cr("\noffset = %d iv_adjustment = %d elt_align = %d scale = %d iv_stride = %d", |
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192 offset, iv_adjustment, align_to_ref_p.memory_size(), align_to_ref_p.scale_in_bytes(), iv_stride()); |
| 0 | 193 #endif |
| 194 | |
| 195 // Set alignment relative to "align_to_ref" | |
| 196 for (int i = memops.size() - 1; i >= 0; i--) { | |
| 197 MemNode* s = memops.at(i)->as_Mem(); | |
| 198 SWPointer p2(s, this); | |
| 199 if (p2.comparable(align_to_ref_p)) { | |
| 200 int align = memory_alignment(s, iv_adjustment); | |
| 201 set_alignment(s, align); | |
| 202 } else { | |
| 203 memops.remove(i); | |
| 204 } | |
| 205 } | |
| 206 | |
| 207 // Create initial pack pairs of memory operations | |
| 208 for (uint i = 0; i < memops.size(); i++) { | |
| 209 Node* s1 = memops.at(i); | |
| 210 for (uint j = 0; j < memops.size(); j++) { | |
| 211 Node* s2 = memops.at(j); | |
| 212 if (s1 != s2 && are_adjacent_refs(s1, s2)) { | |
| 213 int align = alignment(s1); | |
| 214 if (stmts_can_pack(s1, s2, align)) { | |
| 215 Node_List* pair = new Node_List(); | |
| 216 pair->push(s1); | |
| 217 pair->push(s2); | |
| 218 _packset.append(pair); | |
| 219 } | |
| 220 } | |
| 221 } | |
| 222 } | |
| 223 | |
| 224 #ifndef PRODUCT | |
| 225 if (TraceSuperWord) { | |
| 226 tty->print_cr("\nAfter find_adjacent_refs"); | |
| 227 print_packset(); | |
| 228 } | |
| 229 #endif | |
| 230 } | |
| 231 | |
| 232 //------------------------------find_align_to_ref--------------------------- | |
| 233 // Find a memory reference to align the loop induction variable to. | |
| 234 // Looks first at stores then at loads, looking for a memory reference | |
| 235 // with the largest number of references similar to it. | |
| 236 void SuperWord::find_align_to_ref(Node_List &memops) { | |
| 237 GrowableArray<int> cmp_ct(arena(), memops.size(), memops.size(), 0); | |
| 238 | |
| 239 // Count number of comparable memory ops | |
| 240 for (uint i = 0; i < memops.size(); i++) { | |
| 241 MemNode* s1 = memops.at(i)->as_Mem(); | |
| 242 SWPointer p1(s1, this); | |
| 243 // Discard if pre loop can't align this reference | |
| 244 if (!ref_is_alignable(p1)) { | |
| 245 *cmp_ct.adr_at(i) = 0; | |
| 246 continue; | |
| 247 } | |
| 248 for (uint j = i+1; j < memops.size(); j++) { | |
| 249 MemNode* s2 = memops.at(j)->as_Mem(); | |
| 250 if (isomorphic(s1, s2)) { | |
| 251 SWPointer p2(s2, this); | |
| 252 if (p1.comparable(p2)) { | |
| 253 (*cmp_ct.adr_at(i))++; | |
| 254 (*cmp_ct.adr_at(j))++; | |
| 255 } | |
| 256 } | |
| 257 } | |
| 258 } | |
| 259 | |
| 260 // Find Store (or Load) with the greatest number of "comparable" references | |
| 261 int max_ct = 0; | |
| 262 int max_idx = -1; | |
| 263 int min_size = max_jint; | |
| 264 int min_iv_offset = max_jint; | |
| 265 for (uint j = 0; j < memops.size(); j++) { | |
| 266 MemNode* s = memops.at(j)->as_Mem(); | |
| 267 if (s->is_Store()) { | |
| 268 SWPointer p(s, this); | |
| 269 if (cmp_ct.at(j) > max_ct || | |
| 270 cmp_ct.at(j) == max_ct && (data_size(s) < min_size || | |
| 271 data_size(s) == min_size && | |
| 272 p.offset_in_bytes() < min_iv_offset)) { | |
| 273 max_ct = cmp_ct.at(j); | |
| 274 max_idx = j; | |
| 275 min_size = data_size(s); | |
| 276 min_iv_offset = p.offset_in_bytes(); | |
| 277 } | |
| 278 } | |
| 279 } | |
| 280 // If no stores, look at loads | |
| 281 if (max_ct == 0) { | |
| 282 for (uint j = 0; j < memops.size(); j++) { | |
| 283 MemNode* s = memops.at(j)->as_Mem(); | |
| 284 if (s->is_Load()) { | |
| 285 SWPointer p(s, this); | |
| 286 if (cmp_ct.at(j) > max_ct || | |
| 287 cmp_ct.at(j) == max_ct && (data_size(s) < min_size || | |
| 288 data_size(s) == min_size && | |
| 289 p.offset_in_bytes() < min_iv_offset)) { | |
| 290 max_ct = cmp_ct.at(j); | |
| 291 max_idx = j; | |
| 292 min_size = data_size(s); | |
| 293 min_iv_offset = p.offset_in_bytes(); | |
| 294 } | |
| 295 } | |
| 296 } | |
| 297 } | |
| 298 | |
| 299 if (max_ct > 0) | |
| 300 set_align_to_ref(memops.at(max_idx)->as_Mem()); | |
| 301 | |
| 302 #ifndef PRODUCT | |
| 303 if (TraceSuperWord && Verbose) { | |
| 304 tty->print_cr("\nVector memops after find_align_to_refs"); | |
| 305 for (uint i = 0; i < memops.size(); i++) { | |
| 306 MemNode* s = memops.at(i)->as_Mem(); | |
| 307 s->dump(); | |
| 308 } | |
| 309 } | |
| 310 #endif | |
| 311 } | |
| 312 | |
| 313 //------------------------------ref_is_alignable--------------------------- | |
| 314 // Can the preloop align the reference to position zero in the vector? | |
| 315 bool SuperWord::ref_is_alignable(SWPointer& p) { | |
| 316 if (!p.has_iv()) { | |
| 317 return true; // no induction variable | |
| 318 } | |
| 319 CountedLoopEndNode* pre_end = get_pre_loop_end(lp()->as_CountedLoop()); | |
| 320 assert(pre_end->stride_is_con(), "pre loop stride is constant"); | |
| 321 int preloop_stride = pre_end->stride_con(); | |
| 322 | |
| 323 int span = preloop_stride * p.scale_in_bytes(); | |
| 324 | |
| 325 // Stride one accesses are alignable. | |
| 326 if (ABS(span) == p.memory_size()) | |
| 327 return true; | |
| 328 | |
| 329 // If initial offset from start of object is computable, | |
| 330 // compute alignment within the vector. | |
| 331 int vw = vector_width_in_bytes(); | |
| 332 if (vw % span == 0) { | |
| 333 Node* init_nd = pre_end->init_trip(); | |
| 334 if (init_nd->is_Con() && p.invar() == NULL) { | |
| 335 int init = init_nd->bottom_type()->is_int()->get_con(); | |
| 336 | |
| 337 int init_offset = init * p.scale_in_bytes() + p.offset_in_bytes(); | |
| 338 assert(init_offset >= 0, "positive offset from object start"); | |
| 339 | |
| 340 if (span > 0) { | |
| 341 return (vw - (init_offset % vw)) % span == 0; | |
| 342 } else { | |
| 343 assert(span < 0, "nonzero stride * scale"); | |
| 344 return (init_offset % vw) % -span == 0; | |
| 345 } | |
| 346 } | |
| 347 } | |
| 348 return false; | |
| 349 } | |
| 350 | |
| 351 //---------------------------dependence_graph--------------------------- | |
| 352 // Construct dependency graph. | |
| 353 // Add dependence edges to load/store nodes for memory dependence | |
| 354 // A.out()->DependNode.in(1) and DependNode.out()->B.prec(x) | |
| 355 void SuperWord::dependence_graph() { | |
| 356 // First, assign a dependence node to each memory node | |
| 357 for (int i = 0; i < _block.length(); i++ ) { | |
| 358 Node *n = _block.at(i); | |
| 359 if (n->is_Mem() || n->is_Phi() && n->bottom_type() == Type::MEMORY) { | |
| 360 _dg.make_node(n); | |
| 361 } | |
| 362 } | |
| 363 | |
| 364 // For each memory slice, create the dependences | |
| 365 for (int i = 0; i < _mem_slice_head.length(); i++) { | |
| 366 Node* n = _mem_slice_head.at(i); | |
| 367 Node* n_tail = _mem_slice_tail.at(i); | |
| 368 | |
| 369 // Get slice in predecessor order (last is first) | |
| 370 mem_slice_preds(n_tail, n, _nlist); | |
| 371 | |
| 372 // Make the slice dependent on the root | |
| 373 DepMem* slice = _dg.dep(n); | |
| 374 _dg.make_edge(_dg.root(), slice); | |
| 375 | |
| 376 // Create a sink for the slice | |
| 377 DepMem* slice_sink = _dg.make_node(NULL); | |
| 378 _dg.make_edge(slice_sink, _dg.tail()); | |
| 379 | |
| 380 // Now visit each pair of memory ops, creating the edges | |
| 381 for (int j = _nlist.length() - 1; j >= 0 ; j--) { | |
| 382 Node* s1 = _nlist.at(j); | |
| 383 | |
| 384 // If no dependency yet, use slice | |
| 385 if (_dg.dep(s1)->in_cnt() == 0) { | |
| 386 _dg.make_edge(slice, s1); | |
| 387 } | |
| 388 SWPointer p1(s1->as_Mem(), this); | |
| 389 bool sink_dependent = true; | |
| 390 for (int k = j - 1; k >= 0; k--) { | |
| 391 Node* s2 = _nlist.at(k); | |
| 392 if (s1->is_Load() && s2->is_Load()) | |
| 393 continue; | |
| 394 SWPointer p2(s2->as_Mem(), this); | |
| 395 | |
| 396 int cmp = p1.cmp(p2); | |
| 397 if (SuperWordRTDepCheck && | |
| 398 p1.base() != p2.base() && p1.valid() && p2.valid()) { | |
| 399 // Create a runtime check to disambiguate | |
| 400 OrderedPair pp(p1.base(), p2.base()); | |
| 401 _disjoint_ptrs.append_if_missing(pp); | |
| 402 } else if (!SWPointer::not_equal(cmp)) { | |
| 403 // Possibly same address | |
| 404 _dg.make_edge(s1, s2); | |
| 405 sink_dependent = false; | |
| 406 } | |
| 407 } | |
| 408 if (sink_dependent) { | |
| 409 _dg.make_edge(s1, slice_sink); | |
| 410 } | |
| 411 } | |
| 412 #ifndef PRODUCT | |
| 413 if (TraceSuperWord) { | |
| 414 tty->print_cr("\nDependence graph for slice: %d", n->_idx); | |
| 415 for (int q = 0; q < _nlist.length(); q++) { | |
| 416 _dg.print(_nlist.at(q)); | |
| 417 } | |
| 418 tty->cr(); | |
| 419 } | |
| 420 #endif | |
| 421 _nlist.clear(); | |
| 422 } | |
| 423 | |
| 424 #ifndef PRODUCT | |
| 425 if (TraceSuperWord) { | |
| 426 tty->print_cr("\ndisjoint_ptrs: %s", _disjoint_ptrs.length() > 0 ? "" : "NONE"); | |
| 427 for (int r = 0; r < _disjoint_ptrs.length(); r++) { | |
| 428 _disjoint_ptrs.at(r).print(); | |
| 429 tty->cr(); | |
| 430 } | |
| 431 tty->cr(); | |
| 432 } | |
| 433 #endif | |
| 434 } | |
| 435 | |
| 436 //---------------------------mem_slice_preds--------------------------- | |
| 437 // Return a memory slice (node list) in predecessor order starting at "start" | |
| 438 void SuperWord::mem_slice_preds(Node* start, Node* stop, GrowableArray<Node*> &preds) { | |
| 439 assert(preds.length() == 0, "start empty"); | |
| 440 Node* n = start; | |
| 441 Node* prev = NULL; | |
| 442 while (true) { | |
| 443 assert(in_bb(n), "must be in block"); | |
| 444 for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) { | |
| 445 Node* out = n->fast_out(i); | |
| 446 if (out->is_Load()) { | |
| 447 if (in_bb(out)) { | |
| 448 preds.push(out); | |
| 449 } | |
| 450 } else { | |
| 451 // FIXME | |
| 452 if (out->is_MergeMem() && !in_bb(out)) { | |
| 453 // Either unrolling is causing a memory edge not to disappear, | |
| 454 // or need to run igvn.optimize() again before SLP | |
| 455 } else if (out->is_Phi() && out->bottom_type() == Type::MEMORY && !in_bb(out)) { | |
| 456 // Ditto. Not sure what else to check further. | |
| 457 } else if (out->Opcode() == Op_StoreCM && out->in(4) == n) { | |
| 458 // StoreCM has an input edge used as a precedence edge. | |
| 459 // Maybe an issue when oop stores are vectorized. | |
| 460 } else { | |
| 461 assert(out == prev || prev == NULL, "no branches off of store slice"); | |
| 462 } | |
| 463 } | |
| 464 } | |
| 465 if (n == stop) break; | |
| 466 preds.push(n); | |
| 467 prev = n; | |
| 468 n = n->in(MemNode::Memory); | |
| 469 } | |
| 470 } | |
| 471 | |
| 472 //------------------------------stmts_can_pack--------------------------- | |
| 605 | 473 // Can s1 and s2 be in a pack with s1 immediately preceding s2 and |
| 0 | 474 // s1 aligned at "align" |
| 475 bool SuperWord::stmts_can_pack(Node* s1, Node* s2, int align) { | |
| 476 if (isomorphic(s1, s2)) { | |
| 477 if (independent(s1, s2)) { | |
| 478 if (!exists_at(s1, 0) && !exists_at(s2, 1)) { | |
| 479 if (!s1->is_Mem() || are_adjacent_refs(s1, s2)) { | |
| 480 int s1_align = alignment(s1); | |
| 481 int s2_align = alignment(s2); | |
| 482 if (s1_align == top_align || s1_align == align) { | |
| 483 if (s2_align == top_align || s2_align == align + data_size(s1)) { | |
| 484 return true; | |
| 485 } | |
| 486 } | |
| 487 } | |
| 488 } | |
| 489 } | |
| 490 } | |
| 491 return false; | |
| 492 } | |
| 493 | |
| 494 //------------------------------exists_at--------------------------- | |
| 495 // Does s exist in a pack at position pos? | |
| 496 bool SuperWord::exists_at(Node* s, uint pos) { | |
| 497 for (int i = 0; i < _packset.length(); i++) { | |
| 498 Node_List* p = _packset.at(i); | |
| 499 if (p->at(pos) == s) { | |
| 500 return true; | |
| 501 } | |
| 502 } | |
| 503 return false; | |
| 504 } | |
| 505 | |
| 506 //------------------------------are_adjacent_refs--------------------------- | |
| 507 // Is s1 immediately before s2 in memory? | |
| 508 bool SuperWord::are_adjacent_refs(Node* s1, Node* s2) { | |
| 509 if (!s1->is_Mem() || !s2->is_Mem()) return false; | |
| 510 if (!in_bb(s1) || !in_bb(s2)) return false; | |
| 511 // FIXME - co_locate_pack fails on Stores in different mem-slices, so | |
| 512 // only pack memops that are in the same alias set until that's fixed. | |
| 513 if (_phase->C->get_alias_index(s1->as_Mem()->adr_type()) != | |
| 514 _phase->C->get_alias_index(s2->as_Mem()->adr_type())) | |
| 515 return false; | |
| 516 SWPointer p1(s1->as_Mem(), this); | |
| 517 SWPointer p2(s2->as_Mem(), this); | |
| 518 if (p1.base() != p2.base() || !p1.comparable(p2)) return false; | |
| 519 int diff = p2.offset_in_bytes() - p1.offset_in_bytes(); | |
| 520 return diff == data_size(s1); | |
| 521 } | |
| 522 | |
| 523 //------------------------------isomorphic--------------------------- | |
| 524 // Are s1 and s2 similar? | |
| 525 bool SuperWord::isomorphic(Node* s1, Node* s2) { | |
| 526 if (s1->Opcode() != s2->Opcode()) return false; | |
| 527 if (s1->req() != s2->req()) return false; | |
| 528 if (s1->in(0) != s2->in(0)) return false; | |
| 529 if (velt_type(s1) != velt_type(s2)) return false; | |
| 530 return true; | |
| 531 } | |
| 532 | |
| 533 //------------------------------independent--------------------------- | |
| 534 // Is there no data path from s1 to s2 or s2 to s1? | |
| 535 bool SuperWord::independent(Node* s1, Node* s2) { | |
| 536 // assert(s1->Opcode() == s2->Opcode(), "check isomorphic first"); | |
| 537 int d1 = depth(s1); | |
| 538 int d2 = depth(s2); | |
| 539 if (d1 == d2) return s1 != s2; | |
| 540 Node* deep = d1 > d2 ? s1 : s2; | |
| 541 Node* shallow = d1 > d2 ? s2 : s1; | |
| 542 | |
| 543 visited_clear(); | |
| 544 | |
| 545 return independent_path(shallow, deep); | |
| 546 } | |
| 547 | |
| 548 //------------------------------independent_path------------------------------ | |
| 549 // Helper for independent | |
| 550 bool SuperWord::independent_path(Node* shallow, Node* deep, uint dp) { | |
| 551 if (dp >= 1000) return false; // stop deep recursion | |
| 552 visited_set(deep); | |
| 553 int shal_depth = depth(shallow); | |
| 554 assert(shal_depth <= depth(deep), "must be"); | |
| 555 for (DepPreds preds(deep, _dg); !preds.done(); preds.next()) { | |
| 556 Node* pred = preds.current(); | |
| 557 if (in_bb(pred) && !visited_test(pred)) { | |
| 558 if (shallow == pred) { | |
| 559 return false; | |
| 560 } | |
| 561 if (shal_depth < depth(pred) && !independent_path(shallow, pred, dp+1)) { | |
| 562 return false; | |
| 563 } | |
| 564 } | |
| 565 } | |
| 566 return true; | |
| 567 } | |
| 568 | |
| 569 //------------------------------set_alignment--------------------------- | |
| 570 void SuperWord::set_alignment(Node* s1, Node* s2, int align) { | |
| 571 set_alignment(s1, align); | |
| 572 set_alignment(s2, align + data_size(s1)); | |
| 573 } | |
| 574 | |
| 575 //------------------------------data_size--------------------------- | |
| 576 int SuperWord::data_size(Node* s) { | |
| 577 const Type* t = velt_type(s); | |
| 578 BasicType bt = t->array_element_basic_type(); | |
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579 int bsize = type2aelembytes(bt); |
| 0 | 580 assert(bsize != 0, "valid size"); |
| 581 return bsize; | |
| 582 } | |
| 583 | |
| 584 //------------------------------extend_packlist--------------------------- | |
| 585 // Extend packset by following use->def and def->use links from pack members. | |
| 586 void SuperWord::extend_packlist() { | |
| 587 bool changed; | |
| 588 do { | |
| 589 changed = false; | |
| 590 for (int i = 0; i < _packset.length(); i++) { | |
| 591 Node_List* p = _packset.at(i); | |
| 592 changed |= follow_use_defs(p); | |
| 593 changed |= follow_def_uses(p); | |
| 594 } | |
| 595 } while (changed); | |
| 596 | |
| 597 #ifndef PRODUCT | |
| 598 if (TraceSuperWord) { | |
| 599 tty->print_cr("\nAfter extend_packlist"); | |
| 600 print_packset(); | |
| 601 } | |
| 602 #endif | |
| 603 } | |
| 604 | |
| 605 //------------------------------follow_use_defs--------------------------- | |
| 606 // Extend the packset by visiting operand definitions of nodes in pack p | |
| 607 bool SuperWord::follow_use_defs(Node_List* p) { | |
| 608 Node* s1 = p->at(0); | |
| 609 Node* s2 = p->at(1); | |
| 610 assert(p->size() == 2, "just checking"); | |
| 611 assert(s1->req() == s2->req(), "just checking"); | |
| 612 assert(alignment(s1) + data_size(s1) == alignment(s2), "just checking"); | |
| 613 | |
| 614 if (s1->is_Load()) return false; | |
| 615 | |
| 616 int align = alignment(s1); | |
| 617 bool changed = false; | |
| 618 int start = s1->is_Store() ? MemNode::ValueIn : 1; | |
| 619 int end = s1->is_Store() ? MemNode::ValueIn+1 : s1->req(); | |
| 620 for (int j = start; j < end; j++) { | |
| 621 Node* t1 = s1->in(j); | |
| 622 Node* t2 = s2->in(j); | |
| 623 if (!in_bb(t1) || !in_bb(t2)) | |
| 624 continue; | |
| 625 if (stmts_can_pack(t1, t2, align)) { | |
| 626 if (est_savings(t1, t2) >= 0) { | |
| 627 Node_List* pair = new Node_List(); | |
| 628 pair->push(t1); | |
| 629 pair->push(t2); | |
| 630 _packset.append(pair); | |
| 631 set_alignment(t1, t2, align); | |
| 632 changed = true; | |
| 633 } | |
| 634 } | |
| 635 } | |
| 636 return changed; | |
| 637 } | |
| 638 | |
| 639 //------------------------------follow_def_uses--------------------------- | |
| 640 // Extend the packset by visiting uses of nodes in pack p | |
| 641 bool SuperWord::follow_def_uses(Node_List* p) { | |
| 642 bool changed = false; | |
| 643 Node* s1 = p->at(0); | |
| 644 Node* s2 = p->at(1); | |
| 645 assert(p->size() == 2, "just checking"); | |
| 646 assert(s1->req() == s2->req(), "just checking"); | |
| 647 assert(alignment(s1) + data_size(s1) == alignment(s2), "just checking"); | |
| 648 | |
| 649 if (s1->is_Store()) return false; | |
| 650 | |
| 651 int align = alignment(s1); | |
| 652 int savings = -1; | |
| 653 Node* u1 = NULL; | |
| 654 Node* u2 = NULL; | |
| 655 for (DUIterator_Fast imax, i = s1->fast_outs(imax); i < imax; i++) { | |
| 656 Node* t1 = s1->fast_out(i); | |
| 657 if (!in_bb(t1)) continue; | |
| 658 for (DUIterator_Fast jmax, j = s2->fast_outs(jmax); j < jmax; j++) { | |
| 659 Node* t2 = s2->fast_out(j); | |
| 660 if (!in_bb(t2)) continue; | |
| 661 if (!opnd_positions_match(s1, t1, s2, t2)) | |
| 662 continue; | |
| 663 if (stmts_can_pack(t1, t2, align)) { | |
| 664 int my_savings = est_savings(t1, t2); | |
| 665 if (my_savings > savings) { | |
| 666 savings = my_savings; | |
| 667 u1 = t1; | |
| 668 u2 = t2; | |
| 669 } | |
| 670 } | |
| 671 } | |
| 672 } | |
| 673 if (savings >= 0) { | |
| 674 Node_List* pair = new Node_List(); | |
| 675 pair->push(u1); | |
| 676 pair->push(u2); | |
| 677 _packset.append(pair); | |
| 678 set_alignment(u1, u2, align); | |
| 679 changed = true; | |
| 680 } | |
| 681 return changed; | |
| 682 } | |
| 683 | |
| 684 //---------------------------opnd_positions_match------------------------- | |
| 685 // Is the use of d1 in u1 at the same operand position as d2 in u2? | |
| 686 bool SuperWord::opnd_positions_match(Node* d1, Node* u1, Node* d2, Node* u2) { | |
| 687 uint ct = u1->req(); | |
| 688 if (ct != u2->req()) return false; | |
| 689 uint i1 = 0; | |
| 690 uint i2 = 0; | |
| 691 do { | |
| 692 for (i1++; i1 < ct; i1++) if (u1->in(i1) == d1) break; | |
| 693 for (i2++; i2 < ct; i2++) if (u2->in(i2) == d2) break; | |
| 694 if (i1 != i2) { | |
| 695 return false; | |
| 696 } | |
| 697 } while (i1 < ct); | |
| 698 return true; | |
| 699 } | |
| 700 | |
| 701 //------------------------------est_savings--------------------------- | |
| 702 // Estimate the savings from executing s1 and s2 as a pack | |
| 703 int SuperWord::est_savings(Node* s1, Node* s2) { | |
| 704 int save = 2 - 1; // 2 operations per instruction in packed form | |
| 705 | |
| 706 // inputs | |
| 707 for (uint i = 1; i < s1->req(); i++) { | |
| 708 Node* x1 = s1->in(i); | |
| 709 Node* x2 = s2->in(i); | |
| 710 if (x1 != x2) { | |
| 711 if (are_adjacent_refs(x1, x2)) { | |
| 712 save += adjacent_profit(x1, x2); | |
| 713 } else if (!in_packset(x1, x2)) { | |
| 714 save -= pack_cost(2); | |
| 715 } else { | |
| 716 save += unpack_cost(2); | |
| 717 } | |
| 718 } | |
| 719 } | |
| 720 | |
| 721 // uses of result | |
| 722 uint ct = 0; | |
| 723 for (DUIterator_Fast imax, i = s1->fast_outs(imax); i < imax; i++) { | |
| 724 Node* s1_use = s1->fast_out(i); | |
| 725 for (int j = 0; j < _packset.length(); j++) { | |
| 726 Node_List* p = _packset.at(j); | |
| 727 if (p->at(0) == s1_use) { | |
| 728 for (DUIterator_Fast kmax, k = s2->fast_outs(kmax); k < kmax; k++) { | |
| 729 Node* s2_use = s2->fast_out(k); | |
| 730 if (p->at(p->size()-1) == s2_use) { | |
| 731 ct++; | |
| 732 if (are_adjacent_refs(s1_use, s2_use)) { | |
| 733 save += adjacent_profit(s1_use, s2_use); | |
| 734 } | |
| 735 } | |
| 736 } | |
| 737 } | |
| 738 } | |
| 739 } | |
| 740 | |
| 741 if (ct < s1->outcnt()) save += unpack_cost(1); | |
| 742 if (ct < s2->outcnt()) save += unpack_cost(1); | |
| 743 | |
| 744 return save; | |
| 745 } | |
| 746 | |
| 747 //------------------------------costs--------------------------- | |
| 748 int SuperWord::adjacent_profit(Node* s1, Node* s2) { return 2; } | |
| 749 int SuperWord::pack_cost(int ct) { return ct; } | |
| 750 int SuperWord::unpack_cost(int ct) { return ct; } | |
| 751 | |
| 752 //------------------------------combine_packs--------------------------- | |
| 753 // Combine packs A and B with A.last == B.first into A.first..,A.last,B.second,..B.last | |
| 754 void SuperWord::combine_packs() { | |
| 755 bool changed; | |
| 756 do { | |
| 757 changed = false; | |
| 758 for (int i = 0; i < _packset.length(); i++) { | |
| 759 Node_List* p1 = _packset.at(i); | |
| 760 if (p1 == NULL) continue; | |
| 761 for (int j = 0; j < _packset.length(); j++) { | |
| 762 Node_List* p2 = _packset.at(j); | |
| 763 if (p2 == NULL) continue; | |
| 764 if (p1->at(p1->size()-1) == p2->at(0)) { | |
| 765 for (uint k = 1; k < p2->size(); k++) { | |
| 766 p1->push(p2->at(k)); | |
| 767 } | |
| 768 _packset.at_put(j, NULL); | |
| 769 changed = true; | |
| 770 } | |
| 771 } | |
| 772 } | |
| 773 } while (changed); | |
| 774 | |
| 775 for (int i = _packset.length() - 1; i >= 0; i--) { | |
| 776 Node_List* p1 = _packset.at(i); | |
| 777 if (p1 == NULL) { | |
| 778 _packset.remove_at(i); | |
| 779 } | |
| 780 } | |
| 781 | |
| 782 #ifndef PRODUCT | |
| 783 if (TraceSuperWord) { | |
| 784 tty->print_cr("\nAfter combine_packs"); | |
| 785 print_packset(); | |
| 786 } | |
| 787 #endif | |
| 788 } | |
| 789 | |
| 790 //-----------------------------construct_my_pack_map-------------------------- | |
| 791 // Construct the map from nodes to packs. Only valid after the | |
| 792 // point where a node is only in one pack (after combine_packs). | |
| 793 void SuperWord::construct_my_pack_map() { | |
| 794 Node_List* rslt = NULL; | |
| 795 for (int i = 0; i < _packset.length(); i++) { | |
| 796 Node_List* p = _packset.at(i); | |
| 797 for (uint j = 0; j < p->size(); j++) { | |
| 798 Node* s = p->at(j); | |
| 799 assert(my_pack(s) == NULL, "only in one pack"); | |
| 800 set_my_pack(s, p); | |
| 801 } | |
| 802 } | |
| 803 } | |
| 804 | |
| 805 //------------------------------filter_packs--------------------------- | |
| 806 // Remove packs that are not implemented or not profitable. | |
| 807 void SuperWord::filter_packs() { | |
| 808 | |
| 809 // Remove packs that are not implemented | |
| 810 for (int i = _packset.length() - 1; i >= 0; i--) { | |
| 811 Node_List* pk = _packset.at(i); | |
| 812 bool impl = implemented(pk); | |
| 813 if (!impl) { | |
| 814 #ifndef PRODUCT | |
| 815 if (TraceSuperWord && Verbose) { | |
| 816 tty->print_cr("Unimplemented"); | |
| 817 pk->at(0)->dump(); | |
| 818 } | |
| 819 #endif | |
| 820 remove_pack_at(i); | |
| 821 } | |
| 822 } | |
| 823 | |
| 824 // Remove packs that are not profitable | |
| 825 bool changed; | |
| 826 do { | |
| 827 changed = false; | |
| 828 for (int i = _packset.length() - 1; i >= 0; i--) { | |
| 829 Node_List* pk = _packset.at(i); | |
| 830 bool prof = profitable(pk); | |
| 831 if (!prof) { | |
| 832 #ifndef PRODUCT | |
| 833 if (TraceSuperWord && Verbose) { | |
| 834 tty->print_cr("Unprofitable"); | |
| 835 pk->at(0)->dump(); | |
| 836 } | |
| 837 #endif | |
| 838 remove_pack_at(i); | |
| 839 changed = true; | |
| 840 } | |
| 841 } | |
| 842 } while (changed); | |
| 843 | |
| 844 #ifndef PRODUCT | |
| 845 if (TraceSuperWord) { | |
| 846 tty->print_cr("\nAfter filter_packs"); | |
| 847 print_packset(); | |
| 848 tty->cr(); | |
| 849 } | |
| 850 #endif | |
| 851 } | |
| 852 | |
| 853 //------------------------------implemented--------------------------- | |
| 854 // Can code be generated for pack p? | |
| 855 bool SuperWord::implemented(Node_List* p) { | |
| 856 Node* p0 = p->at(0); | |
| 857 int vopc = VectorNode::opcode(p0->Opcode(), p->size(), velt_type(p0)); | |
| 858 return vopc > 0 && Matcher::has_match_rule(vopc); | |
| 859 } | |
| 860 | |
| 861 //------------------------------profitable--------------------------- | |
| 862 // For pack p, are all operands and all uses (with in the block) vector? | |
| 863 bool SuperWord::profitable(Node_List* p) { | |
| 864 Node* p0 = p->at(0); | |
| 865 uint start, end; | |
| 866 vector_opd_range(p0, &start, &end); | |
| 867 | |
| 868 // Return false if some input is not vector and inside block | |
| 869 for (uint i = start; i < end; i++) { | |
| 870 if (!is_vector_use(p0, i)) { | |
| 871 // For now, return false if not scalar promotion case (inputs are the same.) | |
| 605 | 872 // Later, implement PackNode and allow differing, non-vector inputs |
| 0 | 873 // (maybe just the ones from outside the block.) |
| 874 Node* p0_def = p0->in(i); | |
| 875 for (uint j = 1; j < p->size(); j++) { | |
| 876 Node* use = p->at(j); | |
| 877 Node* def = use->in(i); | |
| 878 if (p0_def != def) | |
| 879 return false; | |
| 880 } | |
| 881 } | |
| 882 } | |
| 883 if (!p0->is_Store()) { | |
| 884 // For now, return false if not all uses are vector. | |
| 885 // Later, implement ExtractNode and allow non-vector uses (maybe | |
| 886 // just the ones outside the block.) | |
| 887 for (uint i = 0; i < p->size(); i++) { | |
| 888 Node* def = p->at(i); | |
| 889 for (DUIterator_Fast jmax, j = def->fast_outs(jmax); j < jmax; j++) { | |
| 890 Node* use = def->fast_out(j); | |
| 891 for (uint k = 0; k < use->req(); k++) { | |
| 892 Node* n = use->in(k); | |
| 893 if (def == n) { | |
| 894 if (!is_vector_use(use, k)) { | |
| 895 return false; | |
| 896 } | |
| 897 } | |
| 898 } | |
| 899 } | |
| 900 } | |
| 901 } | |
| 902 return true; | |
| 903 } | |
| 904 | |
| 905 //------------------------------schedule--------------------------- | |
| 906 // Adjust the memory graph for the packed operations | |
| 907 void SuperWord::schedule() { | |
| 908 | |
| 909 // Co-locate in the memory graph the members of each memory pack | |
| 910 for (int i = 0; i < _packset.length(); i++) { | |
| 911 co_locate_pack(_packset.at(i)); | |
| 912 } | |
| 913 } | |
| 914 | |
| 915 //------------------------------co_locate_pack--------------------------- | |
| 916 // Within a pack, move stores down to the last executed store, | |
| 917 // and move loads up to the first executed load. | |
| 918 void SuperWord::co_locate_pack(Node_List* pk) { | |
| 919 if (pk->at(0)->is_Store()) { | |
| 920 // Push Stores down towards last executed pack member | |
| 921 MemNode* first = executed_first(pk)->as_Mem(); | |
| 922 MemNode* last = executed_last(pk)->as_Mem(); | |
| 923 MemNode* insert_pt = last; | |
| 924 MemNode* current = last->in(MemNode::Memory)->as_Mem(); | |
| 925 while (true) { | |
| 926 assert(in_bb(current), "stay in block"); | |
| 927 Node* my_mem = current->in(MemNode::Memory); | |
| 928 if (in_pack(current, pk)) { | |
| 929 // Forward users of my memory state to my input memory state | |
| 930 _igvn.hash_delete(current); | |
| 931 _igvn.hash_delete(my_mem); | |
| 932 for (DUIterator i = current->outs(); current->has_out(i); i++) { | |
| 933 Node* use = current->out(i); | |
| 934 if (use->is_Mem()) { | |
| 935 assert(use->in(MemNode::Memory) == current, "must be"); | |
| 936 _igvn.hash_delete(use); | |
| 937 use->set_req(MemNode::Memory, my_mem); | |
| 938 _igvn._worklist.push(use); | |
| 939 --i; // deleted this edge; rescan position | |
| 940 } | |
| 941 } | |
| 942 // put current immediately before insert_pt | |
| 943 current->set_req(MemNode::Memory, insert_pt->in(MemNode::Memory)); | |
| 944 _igvn.hash_delete(insert_pt); | |
| 945 insert_pt->set_req(MemNode::Memory, current); | |
| 946 _igvn._worklist.push(insert_pt); | |
| 947 _igvn._worklist.push(current); | |
| 948 insert_pt = current; | |
| 949 } | |
| 950 if (current == first) break; | |
| 951 current = my_mem->as_Mem(); | |
| 952 } | |
| 953 } else if (pk->at(0)->is_Load()) { | |
| 954 // Pull Loads up towards first executed pack member | |
| 955 LoadNode* first = executed_first(pk)->as_Load(); | |
| 956 Node* first_mem = first->in(MemNode::Memory); | |
| 957 _igvn.hash_delete(first_mem); | |
| 958 // Give each load same memory state as first | |
| 959 for (uint i = 0; i < pk->size(); i++) { | |
| 960 LoadNode* ld = pk->at(i)->as_Load(); | |
| 961 _igvn.hash_delete(ld); | |
| 962 ld->set_req(MemNode::Memory, first_mem); | |
| 963 _igvn._worklist.push(ld); | |
| 964 } | |
| 965 } | |
| 966 } | |
| 967 | |
| 968 //------------------------------output--------------------------- | |
| 969 // Convert packs into vector node operations | |
| 970 void SuperWord::output() { | |
| 971 if (_packset.length() == 0) return; | |
| 972 | |
| 973 // MUST ENSURE main loop's initial value is properly aligned: | |
| 974 // (iv_initial_value + min_iv_offset) % vector_width_in_bytes() == 0 | |
| 975 | |
| 976 align_initial_loop_index(align_to_ref()); | |
| 977 | |
| 978 // Insert extract (unpack) operations for scalar uses | |
| 979 for (int i = 0; i < _packset.length(); i++) { | |
| 980 insert_extracts(_packset.at(i)); | |
| 981 } | |
| 982 | |
| 983 for (int i = 0; i < _block.length(); i++) { | |
| 984 Node* n = _block.at(i); | |
| 985 Node_List* p = my_pack(n); | |
| 986 if (p && n == executed_last(p)) { | |
| 987 uint vlen = p->size(); | |
| 988 Node* vn = NULL; | |
| 989 Node* low_adr = p->at(0); | |
| 990 Node* first = executed_first(p); | |
| 991 if (n->is_Load()) { | |
| 992 int opc = n->Opcode(); | |
| 993 Node* ctl = n->in(MemNode::Control); | |
| 994 Node* mem = first->in(MemNode::Memory); | |
| 995 Node* adr = low_adr->in(MemNode::Address); | |
| 996 const TypePtr* atyp = n->adr_type(); | |
| 997 vn = VectorLoadNode::make(_phase->C, opc, ctl, mem, adr, atyp, vlen); | |
| 998 | |
| 999 } else if (n->is_Store()) { | |
| 1000 // Promote value to be stored to vector | |
| 1001 VectorNode* val = vector_opd(p, MemNode::ValueIn); | |
| 1002 | |
| 1003 int opc = n->Opcode(); | |
| 1004 Node* ctl = n->in(MemNode::Control); | |
| 1005 Node* mem = first->in(MemNode::Memory); | |
| 1006 Node* adr = low_adr->in(MemNode::Address); | |
| 1007 const TypePtr* atyp = n->adr_type(); | |
| 1008 vn = VectorStoreNode::make(_phase->C, opc, ctl, mem, adr, atyp, val, vlen); | |
| 1009 | |
| 1010 } else if (n->req() == 3) { | |
| 1011 // Promote operands to vector | |
| 1012 Node* in1 = vector_opd(p, 1); | |
| 1013 Node* in2 = vector_opd(p, 2); | |
| 1014 vn = VectorNode::make(_phase->C, n->Opcode(), in1, in2, vlen, velt_type(n)); | |
| 1015 | |
| 1016 } else { | |
| 1017 ShouldNotReachHere(); | |
| 1018 } | |
| 1019 | |
| 1020 _phase->_igvn.register_new_node_with_optimizer(vn); | |
| 1021 _phase->set_ctrl(vn, _phase->get_ctrl(p->at(0))); | |
| 1022 for (uint j = 0; j < p->size(); j++) { | |
| 1023 Node* pm = p->at(j); | |
| 1024 _igvn.hash_delete(pm); | |
| 1025 _igvn.subsume_node(pm, vn); | |
| 1026 } | |
| 1027 _igvn._worklist.push(vn); | |
| 1028 } | |
| 1029 } | |
| 1030 } | |
| 1031 | |
| 1032 //------------------------------vector_opd--------------------------- | |
| 1033 // Create a vector operand for the nodes in pack p for operand: in(opd_idx) | |
| 1034 VectorNode* SuperWord::vector_opd(Node_List* p, int opd_idx) { | |
| 1035 Node* p0 = p->at(0); | |
| 1036 uint vlen = p->size(); | |
| 1037 Node* opd = p0->in(opd_idx); | |
| 1038 | |
| 1039 bool same_opd = true; | |
| 1040 for (uint i = 1; i < vlen; i++) { | |
| 1041 Node* pi = p->at(i); | |
| 1042 Node* in = pi->in(opd_idx); | |
| 1043 if (opd != in) { | |
| 1044 same_opd = false; | |
| 1045 break; | |
| 1046 } | |
| 1047 } | |
| 1048 | |
| 1049 if (same_opd) { | |
| 1050 if (opd->is_Vector()) { | |
| 1051 return (VectorNode*)opd; // input is matching vector | |
| 1052 } | |
| 1053 // Convert scalar input to vector. Use p0's type because it's container | |
| 1054 // maybe smaller than the operand's container. | |
| 1055 const Type* opd_t = velt_type(!in_bb(opd) ? p0 : opd); | |
| 1056 const Type* p0_t = velt_type(p0); | |
| 1057 if (p0_t->higher_equal(opd_t)) opd_t = p0_t; | |
| 1058 VectorNode* vn = VectorNode::scalar2vector(_phase->C, opd, vlen, opd_t); | |
| 1059 | |
| 1060 _phase->_igvn.register_new_node_with_optimizer(vn); | |
| 1061 _phase->set_ctrl(vn, _phase->get_ctrl(opd)); | |
| 1062 return vn; | |
| 1063 } | |
| 1064 | |
| 1065 // Insert pack operation | |
| 1066 const Type* opd_t = velt_type(!in_bb(opd) ? p0 : opd); | |
| 1067 PackNode* pk = PackNode::make(_phase->C, opd, opd_t); | |
| 1068 | |
| 1069 for (uint i = 1; i < vlen; i++) { | |
| 1070 Node* pi = p->at(i); | |
| 1071 Node* in = pi->in(opd_idx); | |
| 1072 assert(my_pack(in) == NULL, "Should already have been unpacked"); | |
| 1073 assert(opd_t == velt_type(!in_bb(in) ? pi : in), "all same type"); | |
| 1074 pk->add_opd(in); | |
| 1075 } | |
| 1076 _phase->_igvn.register_new_node_with_optimizer(pk); | |
| 1077 _phase->set_ctrl(pk, _phase->get_ctrl(opd)); | |
| 1078 return pk; | |
| 1079 } | |
| 1080 | |
| 1081 //------------------------------insert_extracts--------------------------- | |
| 1082 // If a use of pack p is not a vector use, then replace the | |
| 1083 // use with an extract operation. | |
| 1084 void SuperWord::insert_extracts(Node_List* p) { | |
| 1085 if (p->at(0)->is_Store()) return; | |
| 1086 assert(_n_idx_list.is_empty(), "empty (node,index) list"); | |
| 1087 | |
| 1088 // Inspect each use of each pack member. For each use that is | |
| 1089 // not a vector use, replace the use with an extract operation. | |
| 1090 | |
| 1091 for (uint i = 0; i < p->size(); i++) { | |
| 1092 Node* def = p->at(i); | |
| 1093 for (DUIterator_Fast jmax, j = def->fast_outs(jmax); j < jmax; j++) { | |
| 1094 Node* use = def->fast_out(j); | |
| 1095 for (uint k = 0; k < use->req(); k++) { | |
| 1096 Node* n = use->in(k); | |
| 1097 if (def == n) { | |
| 1098 if (!is_vector_use(use, k)) { | |
| 1099 _n_idx_list.push(use, k); | |
| 1100 } | |
| 1101 } | |
| 1102 } | |
| 1103 } | |
| 1104 } | |
| 1105 | |
| 1106 while (_n_idx_list.is_nonempty()) { | |
| 1107 Node* use = _n_idx_list.node(); | |
| 1108 int idx = _n_idx_list.index(); | |
| 1109 _n_idx_list.pop(); | |
| 1110 Node* def = use->in(idx); | |
| 1111 | |
| 1112 // Insert extract operation | |
| 1113 _igvn.hash_delete(def); | |
| 1114 _igvn.hash_delete(use); | |
| 1115 int def_pos = alignment(def) / data_size(def); | |
| 1116 const Type* def_t = velt_type(def); | |
| 1117 | |
| 1118 Node* ex = ExtractNode::make(_phase->C, def, def_pos, def_t); | |
| 1119 _phase->_igvn.register_new_node_with_optimizer(ex); | |
| 1120 _phase->set_ctrl(ex, _phase->get_ctrl(def)); | |
| 1121 use->set_req(idx, ex); | |
| 1122 _igvn._worklist.push(def); | |
| 1123 _igvn._worklist.push(use); | |
| 1124 | |
| 1125 bb_insert_after(ex, bb_idx(def)); | |
| 1126 set_velt_type(ex, def_t); | |
| 1127 } | |
| 1128 } | |
| 1129 | |
| 1130 //------------------------------is_vector_use--------------------------- | |
| 1131 // Is use->in(u_idx) a vector use? | |
| 1132 bool SuperWord::is_vector_use(Node* use, int u_idx) { | |
| 1133 Node_List* u_pk = my_pack(use); | |
| 1134 if (u_pk == NULL) return false; | |
| 1135 Node* def = use->in(u_idx); | |
| 1136 Node_List* d_pk = my_pack(def); | |
| 1137 if (d_pk == NULL) { | |
| 1138 // check for scalar promotion | |
| 1139 Node* n = u_pk->at(0)->in(u_idx); | |
| 1140 for (uint i = 1; i < u_pk->size(); i++) { | |
| 1141 if (u_pk->at(i)->in(u_idx) != n) return false; | |
| 1142 } | |
| 1143 return true; | |
| 1144 } | |
| 1145 if (u_pk->size() != d_pk->size()) | |
| 1146 return false; | |
| 1147 for (uint i = 0; i < u_pk->size(); i++) { | |
| 1148 Node* ui = u_pk->at(i); | |
| 1149 Node* di = d_pk->at(i); | |
| 1150 if (ui->in(u_idx) != di || alignment(ui) != alignment(di)) | |
| 1151 return false; | |
| 1152 } | |
| 1153 return true; | |
| 1154 } | |
| 1155 | |
| 1156 //------------------------------construct_bb--------------------------- | |
| 1157 // Construct reverse postorder list of block members | |
| 1158 void SuperWord::construct_bb() { | |
| 1159 Node* entry = bb(); | |
| 1160 | |
| 1161 assert(_stk.length() == 0, "stk is empty"); | |
| 1162 assert(_block.length() == 0, "block is empty"); | |
| 1163 assert(_data_entry.length() == 0, "data_entry is empty"); | |
| 1164 assert(_mem_slice_head.length() == 0, "mem_slice_head is empty"); | |
| 1165 assert(_mem_slice_tail.length() == 0, "mem_slice_tail is empty"); | |
| 1166 | |
| 1167 // Find non-control nodes with no inputs from within block, | |
| 1168 // create a temporary map from node _idx to bb_idx for use | |
| 1169 // by the visited and post_visited sets, | |
| 1170 // and count number of nodes in block. | |
| 1171 int bb_ct = 0; | |
| 1172 for (uint i = 0; i < lpt()->_body.size(); i++ ) { | |
| 1173 Node *n = lpt()->_body.at(i); | |
| 1174 set_bb_idx(n, i); // Create a temporary map | |
| 1175 if (in_bb(n)) { | |
| 1176 bb_ct++; | |
| 1177 if (!n->is_CFG()) { | |
| 1178 bool found = false; | |
| 1179 for (uint j = 0; j < n->req(); j++) { | |
| 1180 Node* def = n->in(j); | |
| 1181 if (def && in_bb(def)) { | |
| 1182 found = true; | |
| 1183 break; | |
| 1184 } | |
| 1185 } | |
| 1186 if (!found) { | |
| 1187 assert(n != entry, "can't be entry"); | |
| 1188 _data_entry.push(n); | |
| 1189 } | |
| 1190 } | |
| 1191 } | |
| 1192 } | |
| 1193 | |
| 1194 // Find memory slices (head and tail) | |
| 1195 for (DUIterator_Fast imax, i = lp()->fast_outs(imax); i < imax; i++) { | |
| 1196 Node *n = lp()->fast_out(i); | |
| 1197 if (in_bb(n) && (n->is_Phi() && n->bottom_type() == Type::MEMORY)) { | |
| 1198 Node* n_tail = n->in(LoopNode::LoopBackControl); | |
|
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1199 if (n_tail != n->in(LoopNode::EntryControl)) { |
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1200 _mem_slice_head.push(n); |
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1201 _mem_slice_tail.push(n_tail); |
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1202 } |
| 0 | 1203 } |
| 1204 } | |
| 1205 | |
| 1206 // Create an RPO list of nodes in block | |
| 1207 | |
| 1208 visited_clear(); | |
| 1209 post_visited_clear(); | |
| 1210 | |
| 1211 // Push all non-control nodes with no inputs from within block, then control entry | |
| 1212 for (int j = 0; j < _data_entry.length(); j++) { | |
| 1213 Node* n = _data_entry.at(j); | |
| 1214 visited_set(n); | |
| 1215 _stk.push(n); | |
| 1216 } | |
| 1217 visited_set(entry); | |
| 1218 _stk.push(entry); | |
| 1219 | |
| 1220 // Do a depth first walk over out edges | |
| 1221 int rpo_idx = bb_ct - 1; | |
| 1222 int size; | |
| 1223 while ((size = _stk.length()) > 0) { | |
| 1224 Node* n = _stk.top(); // Leave node on stack | |
| 1225 if (!visited_test_set(n)) { | |
| 1226 // forward arc in graph | |
| 1227 } else if (!post_visited_test(n)) { | |
| 1228 // cross or back arc | |
| 1229 for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) { | |
| 1230 Node *use = n->fast_out(i); | |
| 1231 if (in_bb(use) && !visited_test(use) && | |
| 1232 // Don't go around backedge | |
| 1233 (!use->is_Phi() || n == entry)) { | |
| 1234 _stk.push(use); | |
| 1235 } | |
| 1236 } | |
| 1237 if (_stk.length() == size) { | |
| 1238 // There were no additional uses, post visit node now | |
| 1239 _stk.pop(); // Remove node from stack | |
| 1240 assert(rpo_idx >= 0, ""); | |
| 1241 _block.at_put_grow(rpo_idx, n); | |
| 1242 rpo_idx--; | |
| 1243 post_visited_set(n); | |
| 1244 assert(rpo_idx >= 0 || _stk.is_empty(), ""); | |
| 1245 } | |
| 1246 } else { | |
| 1247 _stk.pop(); // Remove post-visited node from stack | |
| 1248 } | |
| 1249 } | |
| 1250 | |
| 1251 // Create real map of block indices for nodes | |
| 1252 for (int j = 0; j < _block.length(); j++) { | |
| 1253 Node* n = _block.at(j); | |
| 1254 set_bb_idx(n, j); | |
| 1255 } | |
| 1256 | |
| 1257 initialize_bb(); // Ensure extra info is allocated. | |
| 1258 | |
| 1259 #ifndef PRODUCT | |
| 1260 if (TraceSuperWord) { | |
| 1261 print_bb(); | |
| 1262 tty->print_cr("\ndata entry nodes: %s", _data_entry.length() > 0 ? "" : "NONE"); | |
| 1263 for (int m = 0; m < _data_entry.length(); m++) { | |
| 1264 tty->print("%3d ", m); | |
| 1265 _data_entry.at(m)->dump(); | |
| 1266 } | |
| 1267 tty->print_cr("\nmemory slices: %s", _mem_slice_head.length() > 0 ? "" : "NONE"); | |
| 1268 for (int m = 0; m < _mem_slice_head.length(); m++) { | |
| 1269 tty->print("%3d ", m); _mem_slice_head.at(m)->dump(); | |
| 1270 tty->print(" "); _mem_slice_tail.at(m)->dump(); | |
| 1271 } | |
| 1272 } | |
| 1273 #endif | |
| 1274 assert(rpo_idx == -1 && bb_ct == _block.length(), "all block members found"); | |
| 1275 } | |
| 1276 | |
| 1277 //------------------------------initialize_bb--------------------------- | |
| 1278 // Initialize per node info | |
| 1279 void SuperWord::initialize_bb() { | |
| 1280 Node* last = _block.at(_block.length() - 1); | |
| 1281 grow_node_info(bb_idx(last)); | |
| 1282 } | |
| 1283 | |
| 1284 //------------------------------bb_insert_after--------------------------- | |
| 1285 // Insert n into block after pos | |
| 1286 void SuperWord::bb_insert_after(Node* n, int pos) { | |
| 1287 int n_pos = pos + 1; | |
| 1288 // Make room | |
| 1289 for (int i = _block.length() - 1; i >= n_pos; i--) { | |
| 1290 _block.at_put_grow(i+1, _block.at(i)); | |
| 1291 } | |
| 1292 for (int j = _node_info.length() - 1; j >= n_pos; j--) { | |
| 1293 _node_info.at_put_grow(j+1, _node_info.at(j)); | |
| 1294 } | |
| 1295 // Set value | |
| 1296 _block.at_put_grow(n_pos, n); | |
| 1297 _node_info.at_put_grow(n_pos, SWNodeInfo::initial); | |
| 1298 // Adjust map from node->_idx to _block index | |
| 1299 for (int i = n_pos; i < _block.length(); i++) { | |
| 1300 set_bb_idx(_block.at(i), i); | |
| 1301 } | |
| 1302 } | |
| 1303 | |
| 1304 //------------------------------compute_max_depth--------------------------- | |
| 1305 // Compute max depth for expressions from beginning of block | |
| 1306 // Use to prune search paths during test for independence. | |
| 1307 void SuperWord::compute_max_depth() { | |
| 1308 int ct = 0; | |
| 1309 bool again; | |
| 1310 do { | |
| 1311 again = false; | |
| 1312 for (int i = 0; i < _block.length(); i++) { | |
| 1313 Node* n = _block.at(i); | |
| 1314 if (!n->is_Phi()) { | |
| 1315 int d_orig = depth(n); | |
| 1316 int d_in = 0; | |
| 1317 for (DepPreds preds(n, _dg); !preds.done(); preds.next()) { | |
| 1318 Node* pred = preds.current(); | |
| 1319 if (in_bb(pred)) { | |
| 1320 d_in = MAX2(d_in, depth(pred)); | |
| 1321 } | |
| 1322 } | |
| 1323 if (d_in + 1 != d_orig) { | |
| 1324 set_depth(n, d_in + 1); | |
| 1325 again = true; | |
| 1326 } | |
| 1327 } | |
| 1328 } | |
| 1329 ct++; | |
| 1330 } while (again); | |
| 1331 #ifndef PRODUCT | |
| 1332 if (TraceSuperWord && Verbose) | |
| 1333 tty->print_cr("compute_max_depth iterated: %d times", ct); | |
| 1334 #endif | |
| 1335 } | |
| 1336 | |
| 1337 //-------------------------compute_vector_element_type----------------------- | |
| 1338 // Compute necessary vector element type for expressions | |
| 1339 // This propagates backwards a narrower integer type when the | |
| 1340 // upper bits of the value are not needed. | |
| 1341 // Example: char a,b,c; a = b + c; | |
| 1342 // Normally the type of the add is integer, but for packed character | |
| 1343 // operations the type of the add needs to be char. | |
| 1344 void SuperWord::compute_vector_element_type() { | |
| 1345 #ifndef PRODUCT | |
| 1346 if (TraceSuperWord && Verbose) | |
| 1347 tty->print_cr("\ncompute_velt_type:"); | |
| 1348 #endif | |
| 1349 | |
| 1350 // Initial type | |
| 1351 for (int i = 0; i < _block.length(); i++) { | |
| 1352 Node* n = _block.at(i); | |
| 1353 const Type* t = n->is_Mem() ? Type::get_const_basic_type(n->as_Mem()->memory_type()) | |
| 1354 : _igvn.type(n); | |
| 1355 const Type* vt = container_type(t); | |
| 1356 set_velt_type(n, vt); | |
| 1357 } | |
| 1358 | |
| 1359 // Propagate narrowed type backwards through operations | |
| 1360 // that don't depend on higher order bits | |
| 1361 for (int i = _block.length() - 1; i >= 0; i--) { | |
| 1362 Node* n = _block.at(i); | |
| 1363 // Only integer types need be examined | |
| 1364 if (n->bottom_type()->isa_int()) { | |
| 1365 uint start, end; | |
| 1366 vector_opd_range(n, &start, &end); | |
| 1367 const Type* vt = velt_type(n); | |
| 1368 | |
| 1369 for (uint j = start; j < end; j++) { | |
| 1370 Node* in = n->in(j); | |
| 1371 // Don't propagate through a type conversion | |
| 1372 if (n->bottom_type() != in->bottom_type()) | |
| 1373 continue; | |
| 1374 switch(in->Opcode()) { | |
| 1375 case Op_AddI: case Op_AddL: | |
| 1376 case Op_SubI: case Op_SubL: | |
| 1377 case Op_MulI: case Op_MulL: | |
| 1378 case Op_AndI: case Op_AndL: | |
| 1379 case Op_OrI: case Op_OrL: | |
| 1380 case Op_XorI: case Op_XorL: | |
| 1381 case Op_LShiftI: case Op_LShiftL: | |
| 1382 case Op_CMoveI: case Op_CMoveL: | |
| 1383 if (in_bb(in)) { | |
| 1384 bool same_type = true; | |
| 1385 for (DUIterator_Fast kmax, k = in->fast_outs(kmax); k < kmax; k++) { | |
| 1386 Node *use = in->fast_out(k); | |
| 1387 if (!in_bb(use) || velt_type(use) != vt) { | |
| 1388 same_type = false; | |
| 1389 break; | |
| 1390 } | |
| 1391 } | |
| 1392 if (same_type) { | |
| 1393 set_velt_type(in, vt); | |
| 1394 } | |
| 1395 } | |
| 1396 } | |
| 1397 } | |
| 1398 } | |
| 1399 } | |
| 1400 #ifndef PRODUCT | |
| 1401 if (TraceSuperWord && Verbose) { | |
| 1402 for (int i = 0; i < _block.length(); i++) { | |
| 1403 Node* n = _block.at(i); | |
| 1404 velt_type(n)->dump(); | |
| 1405 tty->print("\t"); | |
| 1406 n->dump(); | |
| 1407 } | |
| 1408 } | |
| 1409 #endif | |
| 1410 } | |
| 1411 | |
| 1412 //------------------------------memory_alignment--------------------------- | |
| 1413 // Alignment within a vector memory reference | |
| 1414 int SuperWord::memory_alignment(MemNode* s, int iv_adjust_in_bytes) { | |
| 1415 SWPointer p(s, this); | |
| 1416 if (!p.valid()) { | |
| 1417 return bottom_align; | |
| 1418 } | |
| 1419 int offset = p.offset_in_bytes(); | |
| 1420 offset += iv_adjust_in_bytes; | |
| 1421 int off_rem = offset % vector_width_in_bytes(); | |
| 1422 int off_mod = off_rem >= 0 ? off_rem : off_rem + vector_width_in_bytes(); | |
| 1423 return off_mod; | |
| 1424 } | |
| 1425 | |
| 1426 //---------------------------container_type--------------------------- | |
| 1427 // Smallest type containing range of values | |
| 1428 const Type* SuperWord::container_type(const Type* t) { | |
|
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1429 const Type* tp = t->make_ptr(); |
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1430 if (tp && tp->isa_aryptr()) { |
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1431 t = tp->is_aryptr()->elem(); |
| 0 | 1432 } |
| 1433 if (t->basic_type() == T_INT) { | |
| 1434 if (t->higher_equal(TypeInt::BOOL)) return TypeInt::BOOL; | |
| 1435 if (t->higher_equal(TypeInt::BYTE)) return TypeInt::BYTE; | |
| 1436 if (t->higher_equal(TypeInt::CHAR)) return TypeInt::CHAR; | |
| 1437 if (t->higher_equal(TypeInt::SHORT)) return TypeInt::SHORT; | |
| 1438 return TypeInt::INT; | |
| 1439 } | |
| 1440 return t; | |
| 1441 } | |
| 1442 | |
| 1443 //-------------------------vector_opd_range----------------------- | |
| 1444 // (Start, end] half-open range defining which operands are vector | |
| 1445 void SuperWord::vector_opd_range(Node* n, uint* start, uint* end) { | |
| 1446 switch (n->Opcode()) { | |
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1447 case Op_LoadB: case Op_LoadUS: |
| 0 | 1448 case Op_LoadI: case Op_LoadL: |
| 1449 case Op_LoadF: case Op_LoadD: | |
| 1450 case Op_LoadP: | |
| 1451 *start = 0; | |
| 1452 *end = 0; | |
| 1453 return; | |
| 1454 case Op_StoreB: case Op_StoreC: | |
| 1455 case Op_StoreI: case Op_StoreL: | |
| 1456 case Op_StoreF: case Op_StoreD: | |
| 1457 case Op_StoreP: | |
| 1458 *start = MemNode::ValueIn; | |
| 1459 *end = *start + 1; | |
| 1460 return; | |
| 1461 case Op_LShiftI: case Op_LShiftL: | |
| 1462 *start = 1; | |
| 1463 *end = 2; | |
| 1464 return; | |
| 1465 case Op_CMoveI: case Op_CMoveL: case Op_CMoveF: case Op_CMoveD: | |
| 1466 *start = 2; | |
| 1467 *end = n->req(); | |
| 1468 return; | |
| 1469 } | |
| 1470 *start = 1; | |
| 1471 *end = n->req(); // default is all operands | |
| 1472 } | |
| 1473 | |
| 1474 //------------------------------in_packset--------------------------- | |
| 1475 // Are s1 and s2 in a pack pair and ordered as s1,s2? | |
| 1476 bool SuperWord::in_packset(Node* s1, Node* s2) { | |
| 1477 for (int i = 0; i < _packset.length(); i++) { | |
| 1478 Node_List* p = _packset.at(i); | |
| 1479 assert(p->size() == 2, "must be"); | |
| 1480 if (p->at(0) == s1 && p->at(p->size()-1) == s2) { | |
| 1481 return true; | |
| 1482 } | |
| 1483 } | |
| 1484 return false; | |
| 1485 } | |
| 1486 | |
| 1487 //------------------------------in_pack--------------------------- | |
| 1488 // Is s in pack p? | |
| 1489 Node_List* SuperWord::in_pack(Node* s, Node_List* p) { | |
| 1490 for (uint i = 0; i < p->size(); i++) { | |
| 1491 if (p->at(i) == s) { | |
| 1492 return p; | |
| 1493 } | |
| 1494 } | |
| 1495 return NULL; | |
| 1496 } | |
| 1497 | |
| 1498 //------------------------------remove_pack_at--------------------------- | |
| 1499 // Remove the pack at position pos in the packset | |
| 1500 void SuperWord::remove_pack_at(int pos) { | |
| 1501 Node_List* p = _packset.at(pos); | |
| 1502 for (uint i = 0; i < p->size(); i++) { | |
| 1503 Node* s = p->at(i); | |
| 1504 set_my_pack(s, NULL); | |
| 1505 } | |
| 1506 _packset.remove_at(pos); | |
| 1507 } | |
| 1508 | |
| 1509 //------------------------------executed_first--------------------------- | |
| 1510 // Return the node executed first in pack p. Uses the RPO block list | |
| 1511 // to determine order. | |
| 1512 Node* SuperWord::executed_first(Node_List* p) { | |
| 1513 Node* n = p->at(0); | |
| 1514 int n_rpo = bb_idx(n); | |
| 1515 for (uint i = 1; i < p->size(); i++) { | |
| 1516 Node* s = p->at(i); | |
| 1517 int s_rpo = bb_idx(s); | |
| 1518 if (s_rpo < n_rpo) { | |
| 1519 n = s; | |
| 1520 n_rpo = s_rpo; | |
| 1521 } | |
| 1522 } | |
| 1523 return n; | |
| 1524 } | |
| 1525 | |
| 1526 //------------------------------executed_last--------------------------- | |
| 1527 // Return the node executed last in pack p. | |
| 1528 Node* SuperWord::executed_last(Node_List* p) { | |
| 1529 Node* n = p->at(0); | |
| 1530 int n_rpo = bb_idx(n); | |
| 1531 for (uint i = 1; i < p->size(); i++) { | |
| 1532 Node* s = p->at(i); | |
| 1533 int s_rpo = bb_idx(s); | |
| 1534 if (s_rpo > n_rpo) { | |
| 1535 n = s; | |
| 1536 n_rpo = s_rpo; | |
| 1537 } | |
| 1538 } | |
| 1539 return n; | |
| 1540 } | |
| 1541 | |
| 1542 //----------------------------align_initial_loop_index--------------------------- | |
| 1543 // Adjust pre-loop limit so that in main loop, a load/store reference | |
| 1544 // to align_to_ref will be a position zero in the vector. | |
| 1545 // (iv + k) mod vector_align == 0 | |
| 1546 void SuperWord::align_initial_loop_index(MemNode* align_to_ref) { | |
| 1547 CountedLoopNode *main_head = lp()->as_CountedLoop(); | |
| 1548 assert(main_head->is_main_loop(), ""); | |
| 1549 CountedLoopEndNode* pre_end = get_pre_loop_end(main_head); | |
| 1550 assert(pre_end != NULL, ""); | |
| 1551 Node *pre_opaq1 = pre_end->limit(); | |
| 1552 assert(pre_opaq1->Opcode() == Op_Opaque1, ""); | |
| 1553 Opaque1Node *pre_opaq = (Opaque1Node*)pre_opaq1; | |
|
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1554 Node *lim0 = pre_opaq->in(1); |
| 0 | 1555 |
| 1556 // Where we put new limit calculations | |
| 1557 Node *pre_ctrl = pre_end->loopnode()->in(LoopNode::EntryControl); | |
| 1558 | |
| 1559 // Ensure the original loop limit is available from the | |
| 1560 // pre-loop Opaque1 node. | |
| 1561 Node *orig_limit = pre_opaq->original_loop_limit(); | |
| 1562 assert(orig_limit != NULL && _igvn.type(orig_limit) != Type::TOP, ""); | |
| 1563 | |
| 1564 SWPointer align_to_ref_p(align_to_ref, this); | |
| 1565 | |
|
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1566 // Given: |
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1567 // lim0 == original pre loop limit |
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1568 // V == v_align (power of 2) |
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1569 // invar == extra invariant piece of the address expression |
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1570 // e == k [ +/- invar ] |
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1571 // |
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1572 // When reassociating expressions involving '%' the basic rules are: |
|
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1573 // (a - b) % k == 0 => a % k == b % k |
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1574 // and: |
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1575 // (a + b) % k == 0 => a % k == (k - b) % k |
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1576 // |
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1577 // For stride > 0 && scale > 0, |
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1578 // Derive the new pre-loop limit "lim" such that the two constraints: |
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1579 // (1) lim = lim0 + N (where N is some positive integer < V) |
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1580 // (2) (e + lim) % V == 0 |
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1581 // are true. |
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1582 // |
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1583 // Substituting (1) into (2), |
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1584 // (e + lim0 + N) % V == 0 |
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1585 // solve for N: |
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1586 // N = (V - (e + lim0)) % V |
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1587 // substitute back into (1), so that new limit |
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1588 // lim = lim0 + (V - (e + lim0)) % V |
| 0 | 1589 // |
|
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1590 // For stride > 0 && scale < 0 |
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1591 // Constraints: |
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1592 // lim = lim0 + N |
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1593 // (e - lim) % V == 0 |
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1594 // Solving for lim: |
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1595 // (e - lim0 - N) % V == 0 |
|
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1596 // N = (e - lim0) % V |
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1597 // lim = lim0 + (e - lim0) % V |
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1598 // |
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1599 // For stride < 0 && scale > 0 |
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1600 // Constraints: |
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1601 // lim = lim0 - N |
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1602 // (e + lim) % V == 0 |
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1603 // Solving for lim: |
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1604 // (e + lim0 - N) % V == 0 |
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1605 // N = (e + lim0) % V |
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1606 // lim = lim0 - (e + lim0) % V |
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1607 // |
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1608 // For stride < 0 && scale < 0 |
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1609 // Constraints: |
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1610 // lim = lim0 - N |
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1611 // (e - lim) % V == 0 |
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1612 // Solving for lim: |
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1613 // (e - lim0 + N) % V == 0 |
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1614 // N = (V - (e - lim0)) % V |
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1615 // lim = lim0 - (V - (e - lim0)) % V |
| 0 | 1616 |
|
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1617 int stride = iv_stride(); |
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1618 int scale = align_to_ref_p.scale_in_bytes(); |
| 0 | 1619 int elt_size = align_to_ref_p.memory_size(); |
| 1620 int v_align = vector_width_in_bytes() / elt_size; | |
| 1621 int k = align_to_ref_p.offset_in_bytes() / elt_size; | |
| 1622 | |
| 1623 Node *kn = _igvn.intcon(k); | |
|
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1624 |
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1625 Node *e = kn; |
| 0 | 1626 if (align_to_ref_p.invar() != NULL) { |
|
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1627 // incorporate any extra invariant piece producing k +/- invar >>> log2(elt) |
| 0 | 1628 Node* log2_elt = _igvn.intcon(exact_log2(elt_size)); |
| 1629 Node* aref = new (_phase->C, 3) URShiftINode(align_to_ref_p.invar(), log2_elt); | |
| 1630 _phase->_igvn.register_new_node_with_optimizer(aref); | |
| 1631 _phase->set_ctrl(aref, pre_ctrl); | |
|
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1632 if (align_to_ref_p.negate_invar()) { |
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1633 e = new (_phase->C, 3) SubINode(e, aref); |
| 0 | 1634 } else { |
|
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1635 e = new (_phase->C, 3) AddINode(e, aref); |
| 0 | 1636 } |
|
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1637 _phase->_igvn.register_new_node_with_optimizer(e); |
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1638 _phase->set_ctrl(e, pre_ctrl); |
| 0 | 1639 } |
|
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1640 |
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1641 // compute e +/- lim0 |
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1642 if (scale < 0) { |
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1643 e = new (_phase->C, 3) SubINode(e, lim0); |
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1644 } else { |
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1645 e = new (_phase->C, 3) AddINode(e, lim0); |
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1646 } |
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1647 _phase->_igvn.register_new_node_with_optimizer(e); |
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1648 _phase->set_ctrl(e, pre_ctrl); |
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1649 |
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1650 if (stride * scale > 0) { |
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1651 // compute V - (e +/- lim0) |
| 0 | 1652 Node* va = _igvn.intcon(v_align); |
|
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1653 e = new (_phase->C, 3) SubINode(va, e); |
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1654 _phase->_igvn.register_new_node_with_optimizer(e); |
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1655 _phase->set_ctrl(e, pre_ctrl); |
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1656 } |
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1657 // compute N = (exp) % V |
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1658 Node* va_msk = _igvn.intcon(v_align - 1); |
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1659 Node* N = new (_phase->C, 3) AndINode(e, va_msk); |
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1660 _phase->_igvn.register_new_node_with_optimizer(N); |
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1661 _phase->set_ctrl(N, pre_ctrl); |
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1662 |
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1663 // substitute back into (1), so that new limit |
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1664 // lim = lim0 + N |
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1665 Node* lim; |
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1666 if (stride < 0) { |
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1667 lim = new (_phase->C, 3) SubINode(lim0, N); |
| 0 | 1668 } else { |
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72
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1669 lim = new (_phase->C, 3) AddINode(lim0, N); |
| 0 | 1670 } |
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1671 _phase->_igvn.register_new_node_with_optimizer(lim); |
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1672 _phase->set_ctrl(lim, pre_ctrl); |
| 0 | 1673 Node* constrained = |
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1674 (stride > 0) ? (Node*) new (_phase->C,3) MinINode(lim, orig_limit) |
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1675 : (Node*) new (_phase->C,3) MaxINode(lim, orig_limit); |
| 0 | 1676 _phase->_igvn.register_new_node_with_optimizer(constrained); |
| 1677 _phase->set_ctrl(constrained, pre_ctrl); | |
| 1678 _igvn.hash_delete(pre_opaq); | |
| 1679 pre_opaq->set_req(1, constrained); | |
| 1680 } | |
| 1681 | |
| 1682 //----------------------------get_pre_loop_end--------------------------- | |
| 1683 // Find pre loop end from main loop. Returns null if none. | |
| 1684 CountedLoopEndNode* SuperWord::get_pre_loop_end(CountedLoopNode *cl) { | |
| 1685 Node *ctrl = cl->in(LoopNode::EntryControl); | |
| 1686 if (!ctrl->is_IfTrue() && !ctrl->is_IfFalse()) return NULL; | |
| 1687 Node *iffm = ctrl->in(0); | |
| 1688 if (!iffm->is_If()) return NULL; | |
| 1689 Node *p_f = iffm->in(0); | |
| 1690 if (!p_f->is_IfFalse()) return NULL; | |
| 1691 if (!p_f->in(0)->is_CountedLoopEnd()) return NULL; | |
| 1692 CountedLoopEndNode *pre_end = p_f->in(0)->as_CountedLoopEnd(); | |
| 1693 if (!pre_end->loopnode()->is_pre_loop()) return NULL; | |
| 1694 return pre_end; | |
| 1695 } | |
| 1696 | |
| 1697 | |
| 1698 //------------------------------init--------------------------- | |
| 1699 void SuperWord::init() { | |
| 1700 _dg.init(); | |
| 1701 _packset.clear(); | |
| 1702 _disjoint_ptrs.clear(); | |
| 1703 _block.clear(); | |
| 1704 _data_entry.clear(); | |
| 1705 _mem_slice_head.clear(); | |
| 1706 _mem_slice_tail.clear(); | |
| 1707 _node_info.clear(); | |
| 1708 _align_to_ref = NULL; | |
| 1709 _lpt = NULL; | |
| 1710 _lp = NULL; | |
| 1711 _bb = NULL; | |
| 1712 _iv = NULL; | |
| 1713 } | |
| 1714 | |
| 1715 //------------------------------print_packset--------------------------- | |
| 1716 void SuperWord::print_packset() { | |
| 1717 #ifndef PRODUCT | |
| 1718 tty->print_cr("packset"); | |
| 1719 for (int i = 0; i < _packset.length(); i++) { | |
| 1720 tty->print_cr("Pack: %d", i); | |
| 1721 Node_List* p = _packset.at(i); | |
| 1722 print_pack(p); | |
| 1723 } | |
| 1724 #endif | |
| 1725 } | |
| 1726 | |
| 1727 //------------------------------print_pack--------------------------- | |
| 1728 void SuperWord::print_pack(Node_List* p) { | |
| 1729 for (uint i = 0; i < p->size(); i++) { | |
| 1730 print_stmt(p->at(i)); | |
| 1731 } | |
| 1732 } | |
| 1733 | |
| 1734 //------------------------------print_bb--------------------------- | |
| 1735 void SuperWord::print_bb() { | |
| 1736 #ifndef PRODUCT | |
| 1737 tty->print_cr("\nBlock"); | |
| 1738 for (int i = 0; i < _block.length(); i++) { | |
| 1739 Node* n = _block.at(i); | |
| 1740 tty->print("%d ", i); | |
| 1741 if (n) { | |
| 1742 n->dump(); | |
| 1743 } | |
| 1744 } | |
| 1745 #endif | |
| 1746 } | |
| 1747 | |
| 1748 //------------------------------print_stmt--------------------------- | |
| 1749 void SuperWord::print_stmt(Node* s) { | |
| 1750 #ifndef PRODUCT | |
| 1751 tty->print(" align: %d \t", alignment(s)); | |
| 1752 s->dump(); | |
| 1753 #endif | |
| 1754 } | |
| 1755 | |
| 1756 //------------------------------blank--------------------------- | |
| 1757 char* SuperWord::blank(uint depth) { | |
| 1758 static char blanks[101]; | |
| 1759 assert(depth < 101, "too deep"); | |
| 1760 for (uint i = 0; i < depth; i++) blanks[i] = ' '; | |
| 1761 blanks[depth] = '\0'; | |
| 1762 return blanks; | |
| 1763 } | |
| 1764 | |
| 1765 | |
| 1766 //==============================SWPointer=========================== | |
| 1767 | |
| 1768 //----------------------------SWPointer------------------------ | |
| 1769 SWPointer::SWPointer(MemNode* mem, SuperWord* slp) : | |
| 1770 _mem(mem), _slp(slp), _base(NULL), _adr(NULL), | |
| 1771 _scale(0), _offset(0), _invar(NULL), _negate_invar(false) { | |
| 1772 | |
| 1773 Node* adr = mem->in(MemNode::Address); | |
| 1774 if (!adr->is_AddP()) { | |
| 1775 assert(!valid(), "too complex"); | |
| 1776 return; | |
| 1777 } | |
| 1778 // Match AddP(base, AddP(ptr, k*iv [+ invariant]), constant) | |
| 1779 Node* base = adr->in(AddPNode::Base); | |
| 1780 for (int i = 0; i < 3; i++) { | |
| 1781 if (!scaled_iv_plus_offset(adr->in(AddPNode::Offset))) { | |
| 1782 assert(!valid(), "too complex"); | |
| 1783 return; | |
| 1784 } | |
| 1785 adr = adr->in(AddPNode::Address); | |
| 1786 if (base == adr || !adr->is_AddP()) { | |
| 1787 break; // stop looking at addp's | |
| 1788 } | |
| 1789 } | |
| 1790 _base = base; | |
| 1791 _adr = adr; | |
| 1792 assert(valid(), "Usable"); | |
| 1793 } | |
| 1794 | |
| 1795 // Following is used to create a temporary object during | |
| 1796 // the pattern match of an address expression. | |
| 1797 SWPointer::SWPointer(SWPointer* p) : | |
| 1798 _mem(p->_mem), _slp(p->_slp), _base(NULL), _adr(NULL), | |
| 1799 _scale(0), _offset(0), _invar(NULL), _negate_invar(false) {} | |
| 1800 | |
| 1801 //------------------------scaled_iv_plus_offset-------------------- | |
| 1802 // Match: k*iv + offset | |
| 1803 // where: k is a constant that maybe zero, and | |
| 1804 // offset is (k2 [+/- invariant]) where k2 maybe zero and invariant is optional | |
| 1805 bool SWPointer::scaled_iv_plus_offset(Node* n) { | |
| 1806 if (scaled_iv(n)) { | |
| 1807 return true; | |
| 1808 } | |
| 1809 if (offset_plus_k(n)) { | |
| 1810 return true; | |
| 1811 } | |
| 1812 int opc = n->Opcode(); | |
| 1813 if (opc == Op_AddI) { | |
| 1814 if (scaled_iv(n->in(1)) && offset_plus_k(n->in(2))) { | |
| 1815 return true; | |
| 1816 } | |
| 1817 if (scaled_iv(n->in(2)) && offset_plus_k(n->in(1))) { | |
| 1818 return true; | |
| 1819 } | |
| 1820 } else if (opc == Op_SubI) { | |
| 1821 if (scaled_iv(n->in(1)) && offset_plus_k(n->in(2), true)) { | |
| 1822 return true; | |
| 1823 } | |
| 1824 if (scaled_iv(n->in(2)) && offset_plus_k(n->in(1))) { | |
| 1825 _scale *= -1; | |
| 1826 return true; | |
| 1827 } | |
| 1828 } | |
| 1829 return false; | |
| 1830 } | |
| 1831 | |
| 1832 //----------------------------scaled_iv------------------------ | |
| 1833 // Match: k*iv where k is a constant that's not zero | |
| 1834 bool SWPointer::scaled_iv(Node* n) { | |
| 1835 if (_scale != 0) { | |
| 1836 return false; // already found a scale | |
| 1837 } | |
| 1838 if (n == iv()) { | |
| 1839 _scale = 1; | |
| 1840 return true; | |
| 1841 } | |
| 1842 int opc = n->Opcode(); | |
| 1843 if (opc == Op_MulI) { | |
| 1844 if (n->in(1) == iv() && n->in(2)->is_Con()) { | |
| 1845 _scale = n->in(2)->get_int(); | |
| 1846 return true; | |
| 1847 } else if (n->in(2) == iv() && n->in(1)->is_Con()) { | |
| 1848 _scale = n->in(1)->get_int(); | |
| 1849 return true; | |
| 1850 } | |
| 1851 } else if (opc == Op_LShiftI) { | |
| 1852 if (n->in(1) == iv() && n->in(2)->is_Con()) { | |
| 1853 _scale = 1 << n->in(2)->get_int(); | |
| 1854 return true; | |
| 1855 } | |
| 1856 } else if (opc == Op_ConvI2L) { | |
| 1857 if (scaled_iv_plus_offset(n->in(1))) { | |
| 1858 return true; | |
| 1859 } | |
| 1860 } else if (opc == Op_LShiftL) { | |
| 1861 if (!has_iv() && _invar == NULL) { | |
| 1862 // Need to preserve the current _offset value, so | |
| 1863 // create a temporary object for this expression subtree. | |
| 1864 // Hacky, so should re-engineer the address pattern match. | |
| 1865 SWPointer tmp(this); | |
| 1866 if (tmp.scaled_iv_plus_offset(n->in(1))) { | |
| 1867 if (tmp._invar == NULL) { | |
| 1868 int mult = 1 << n->in(2)->get_int(); | |
| 1869 _scale = tmp._scale * mult; | |
| 1870 _offset += tmp._offset * mult; | |
| 1871 return true; | |
| 1872 } | |
| 1873 } | |
| 1874 } | |
| 1875 } | |
| 1876 return false; | |
| 1877 } | |
| 1878 | |
| 1879 //----------------------------offset_plus_k------------------------ | |
| 1880 // Match: offset is (k [+/- invariant]) | |
| 1881 // where k maybe zero and invariant is optional, but not both. | |
| 1882 bool SWPointer::offset_plus_k(Node* n, bool negate) { | |
| 1883 int opc = n->Opcode(); | |
| 1884 if (opc == Op_ConI) { | |
| 1885 _offset += negate ? -(n->get_int()) : n->get_int(); | |
| 1886 return true; | |
| 1887 } else if (opc == Op_ConL) { | |
| 1888 // Okay if value fits into an int | |
| 1889 const TypeLong* t = n->find_long_type(); | |
| 1890 if (t->higher_equal(TypeLong::INT)) { | |
| 1891 jlong loff = n->get_long(); | |
| 1892 jint off = (jint)loff; | |
| 1893 _offset += negate ? -off : loff; | |
| 1894 return true; | |
| 1895 } | |
| 1896 return false; | |
| 1897 } | |
| 1898 if (_invar != NULL) return false; // already have an invariant | |
| 1899 if (opc == Op_AddI) { | |
| 1900 if (n->in(2)->is_Con() && invariant(n->in(1))) { | |
| 1901 _negate_invar = negate; | |
| 1902 _invar = n->in(1); | |
| 1903 _offset += negate ? -(n->in(2)->get_int()) : n->in(2)->get_int(); | |
| 1904 return true; | |
| 1905 } else if (n->in(1)->is_Con() && invariant(n->in(2))) { | |
| 1906 _offset += negate ? -(n->in(1)->get_int()) : n->in(1)->get_int(); | |
| 1907 _negate_invar = negate; | |
| 1908 _invar = n->in(2); | |
| 1909 return true; | |
| 1910 } | |
| 1911 } | |
| 1912 if (opc == Op_SubI) { | |
| 1913 if (n->in(2)->is_Con() && invariant(n->in(1))) { | |
| 1914 _negate_invar = negate; | |
| 1915 _invar = n->in(1); | |
| 1916 _offset += !negate ? -(n->in(2)->get_int()) : n->in(2)->get_int(); | |
| 1917 return true; | |
| 1918 } else if (n->in(1)->is_Con() && invariant(n->in(2))) { | |
| 1919 _offset += negate ? -(n->in(1)->get_int()) : n->in(1)->get_int(); | |
| 1920 _negate_invar = !negate; | |
| 1921 _invar = n->in(2); | |
| 1922 return true; | |
| 1923 } | |
| 1924 } | |
| 1925 if (invariant(n)) { | |
| 1926 _negate_invar = negate; | |
| 1927 _invar = n; | |
| 1928 return true; | |
| 1929 } | |
| 1930 return false; | |
| 1931 } | |
| 1932 | |
| 1933 //----------------------------print------------------------ | |
| 1934 void SWPointer::print() { | |
| 1935 #ifndef PRODUCT | |
| 1936 tty->print("base: %d adr: %d scale: %d offset: %d invar: %c%d\n", | |
| 1937 _base != NULL ? _base->_idx : 0, | |
| 1938 _adr != NULL ? _adr->_idx : 0, | |
| 1939 _scale, _offset, | |
| 1940 _negate_invar?'-':'+', | |
| 1941 _invar != NULL ? _invar->_idx : 0); | |
| 1942 #endif | |
| 1943 } | |
| 1944 | |
| 1945 // ========================= OrderedPair ===================== | |
| 1946 | |
| 1947 const OrderedPair OrderedPair::initial; | |
| 1948 | |
| 1949 // ========================= SWNodeInfo ===================== | |
| 1950 | |
| 1951 const SWNodeInfo SWNodeInfo::initial; | |
| 1952 | |
| 1953 | |
| 1954 // ============================ DepGraph =========================== | |
| 1955 | |
| 1956 //------------------------------make_node--------------------------- | |
| 1957 // Make a new dependence graph node for an ideal node. | |
| 1958 DepMem* DepGraph::make_node(Node* node) { | |
| 1959 DepMem* m = new (_arena) DepMem(node); | |
| 1960 if (node != NULL) { | |
| 1961 assert(_map.at_grow(node->_idx) == NULL, "one init only"); | |
| 1962 _map.at_put_grow(node->_idx, m); | |
| 1963 } | |
| 1964 return m; | |
| 1965 } | |
| 1966 | |
| 1967 //------------------------------make_edge--------------------------- | |
| 1968 // Make a new dependence graph edge from dpred -> dsucc | |
| 1969 DepEdge* DepGraph::make_edge(DepMem* dpred, DepMem* dsucc) { | |
| 1970 DepEdge* e = new (_arena) DepEdge(dpred, dsucc, dsucc->in_head(), dpred->out_head()); | |
| 1971 dpred->set_out_head(e); | |
| 1972 dsucc->set_in_head(e); | |
| 1973 return e; | |
| 1974 } | |
| 1975 | |
| 1976 // ========================== DepMem ======================== | |
| 1977 | |
| 1978 //------------------------------in_cnt--------------------------- | |
| 1979 int DepMem::in_cnt() { | |
| 1980 int ct = 0; | |
| 1981 for (DepEdge* e = _in_head; e != NULL; e = e->next_in()) ct++; | |
| 1982 return ct; | |
| 1983 } | |
| 1984 | |
| 1985 //------------------------------out_cnt--------------------------- | |
| 1986 int DepMem::out_cnt() { | |
| 1987 int ct = 0; | |
| 1988 for (DepEdge* e = _out_head; e != NULL; e = e->next_out()) ct++; | |
| 1989 return ct; | |
| 1990 } | |
| 1991 | |
| 1992 //------------------------------print----------------------------- | |
| 1993 void DepMem::print() { | |
| 1994 #ifndef PRODUCT | |
| 1995 tty->print(" DepNode %d (", _node->_idx); | |
| 1996 for (DepEdge* p = _in_head; p != NULL; p = p->next_in()) { | |
| 1997 Node* pred = p->pred()->node(); | |
| 1998 tty->print(" %d", pred != NULL ? pred->_idx : 0); | |
| 1999 } | |
| 2000 tty->print(") ["); | |
| 2001 for (DepEdge* s = _out_head; s != NULL; s = s->next_out()) { | |
| 2002 Node* succ = s->succ()->node(); | |
| 2003 tty->print(" %d", succ != NULL ? succ->_idx : 0); | |
| 2004 } | |
| 2005 tty->print_cr(" ]"); | |
| 2006 #endif | |
| 2007 } | |
| 2008 | |
| 2009 // =========================== DepEdge ========================= | |
| 2010 | |
| 2011 //------------------------------DepPreds--------------------------- | |
| 2012 void DepEdge::print() { | |
| 2013 #ifndef PRODUCT | |
| 2014 tty->print_cr("DepEdge: %d [ %d ]", _pred->node()->_idx, _succ->node()->_idx); | |
| 2015 #endif | |
| 2016 } | |
| 2017 | |
| 2018 // =========================== DepPreds ========================= | |
| 2019 // Iterator over predecessor edges in the dependence graph. | |
| 2020 | |
| 2021 //------------------------------DepPreds--------------------------- | |
| 2022 DepPreds::DepPreds(Node* n, DepGraph& dg) { | |
| 2023 _n = n; | |
| 2024 _done = false; | |
| 2025 if (_n->is_Store() || _n->is_Load()) { | |
| 2026 _next_idx = MemNode::Address; | |
| 2027 _end_idx = n->req(); | |
| 2028 _dep_next = dg.dep(_n)->in_head(); | |
| 2029 } else if (_n->is_Mem()) { | |
| 2030 _next_idx = 0; | |
| 2031 _end_idx = 0; | |
| 2032 _dep_next = dg.dep(_n)->in_head(); | |
| 2033 } else { | |
| 2034 _next_idx = 1; | |
| 2035 _end_idx = _n->req(); | |
| 2036 _dep_next = NULL; | |
| 2037 } | |
| 2038 next(); | |
| 2039 } | |
| 2040 | |
| 2041 //------------------------------next--------------------------- | |
| 2042 void DepPreds::next() { | |
| 2043 if (_dep_next != NULL) { | |
| 2044 _current = _dep_next->pred()->node(); | |
| 2045 _dep_next = _dep_next->next_in(); | |
| 2046 } else if (_next_idx < _end_idx) { | |
| 2047 _current = _n->in(_next_idx++); | |
| 2048 } else { | |
| 2049 _done = true; | |
| 2050 } | |
| 2051 } | |
| 2052 | |
| 2053 // =========================== DepSuccs ========================= | |
| 2054 // Iterator over successor edges in the dependence graph. | |
| 2055 | |
| 2056 //------------------------------DepSuccs--------------------------- | |
| 2057 DepSuccs::DepSuccs(Node* n, DepGraph& dg) { | |
| 2058 _n = n; | |
| 2059 _done = false; | |
| 2060 if (_n->is_Load()) { | |
| 2061 _next_idx = 0; | |
| 2062 _end_idx = _n->outcnt(); | |
| 2063 _dep_next = dg.dep(_n)->out_head(); | |
| 2064 } else if (_n->is_Mem() || _n->is_Phi() && _n->bottom_type() == Type::MEMORY) { | |
| 2065 _next_idx = 0; | |
| 2066 _end_idx = 0; | |
| 2067 _dep_next = dg.dep(_n)->out_head(); | |
| 2068 } else { | |
| 2069 _next_idx = 0; | |
| 2070 _end_idx = _n->outcnt(); | |
| 2071 _dep_next = NULL; | |
| 2072 } | |
| 2073 next(); | |
| 2074 } | |
| 2075 | |
| 2076 //-------------------------------next--------------------------- | |
| 2077 void DepSuccs::next() { | |
| 2078 if (_dep_next != NULL) { | |
| 2079 _current = _dep_next->succ()->node(); | |
| 2080 _dep_next = _dep_next->next_out(); | |
| 2081 } else if (_next_idx < _end_idx) { | |
| 2082 _current = _n->raw_out(_next_idx++); | |
| 2083 } else { | |
| 2084 _done = true; | |
| 2085 } | |
| 2086 } |