Mercurial > hg > truffle
annotate src/share/vm/oops/methodData.hpp @ 7154:5d0bb7d52783
changes to support Graal co-existing with the other HotSpot compiler(s) and being used for explicit compilation requests and code installation via the Graal API
| author | Doug Simon <doug.simon@oracle.com> |
|---|---|
| date | Wed, 12 Dec 2012 21:36:40 +0100 |
| parents | e522a00b91aa |
| children | 5fc51c1ecdeb |
| rev | line source |
|---|---|
| 0 | 1 /* |
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2 * Copyright (c) 2000, 2012, Oracle and/or its affiliates. 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 * | |
|
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
| 0 | 22 * |
| 23 */ | |
| 24 | |
| 1972 | 25 #ifndef SHARE_VM_OOPS_METHODDATAOOP_HPP |
| 26 #define SHARE_VM_OOPS_METHODDATAOOP_HPP | |
| 27 | |
| 28 #include "interpreter/bytecodes.hpp" | |
| 29 #include "memory/universe.hpp" | |
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30 #include "oops/method.hpp" |
| 1972 | 31 #include "oops/oop.hpp" |
| 32 #include "runtime/orderAccess.hpp" | |
| 33 | |
| 0 | 34 class BytecodeStream; |
| 35 | |
| 36 // The MethodData object collects counts and other profile information | |
| 37 // during zeroth-tier (interpretive) and first-tier execution. | |
| 38 // The profile is used later by compilation heuristics. Some heuristics | |
| 39 // enable use of aggressive (or "heroic") optimizations. An aggressive | |
| 40 // optimization often has a down-side, a corner case that it handles | |
| 41 // poorly, but which is thought to be rare. The profile provides | |
| 42 // evidence of this rarity for a given method or even BCI. It allows | |
| 43 // the compiler to back out of the optimization at places where it | |
| 44 // has historically been a poor choice. Other heuristics try to use | |
| 45 // specific information gathered about types observed at a given site. | |
| 46 // | |
| 47 // All data in the profile is approximate. It is expected to be accurate | |
| 48 // on the whole, but the system expects occasional inaccuraces, due to | |
| 49 // counter overflow, multiprocessor races during data collection, space | |
| 50 // limitations, missing MDO blocks, etc. Bad or missing data will degrade | |
| 51 // optimization quality but will not affect correctness. Also, each MDO | |
| 52 // is marked with its birth-date ("creation_mileage") which can be used | |
| 53 // to assess the quality ("maturity") of its data. | |
| 54 // | |
| 55 // Short (<32-bit) counters are designed to overflow to a known "saturated" | |
| 56 // state. Also, certain recorded per-BCI events are given one-bit counters | |
| 57 // which overflow to a saturated state which applied to all counters at | |
| 58 // that BCI. In other words, there is a small lattice which approximates | |
| 59 // the ideal of an infinite-precision counter for each event at each BCI, | |
| 60 // and the lattice quickly "bottoms out" in a state where all counters | |
| 61 // are taken to be indefinitely large. | |
| 62 // | |
| 63 // The reader will find many data races in profile gathering code, starting | |
| 64 // with invocation counter incrementation. None of these races harm correct | |
| 65 // execution of the compiled code. | |
| 66 | |
| 941 | 67 // forward decl |
| 68 class ProfileData; | |
| 69 | |
| 0 | 70 // DataLayout |
| 71 // | |
| 72 // Overlay for generic profiling data. | |
| 73 class DataLayout VALUE_OBJ_CLASS_SPEC { | |
| 74 private: | |
| 75 // Every data layout begins with a header. This header | |
| 76 // contains a tag, which is used to indicate the size/layout | |
| 77 // of the data, 4 bits of flags, which can be used in any way, | |
| 78 // 4 bits of trap history (none/one reason/many reasons), | |
| 79 // and a bci, which is used to tie this piece of data to a | |
| 80 // specific bci in the bytecodes. | |
| 81 union { | |
| 82 intptr_t _bits; | |
| 83 struct { | |
| 84 u1 _tag; | |
| 85 u1 _flags; | |
| 86 u2 _bci; | |
| 87 } _struct; | |
| 88 } _header; | |
| 89 | |
| 90 // The data layout has an arbitrary number of cells, each sized | |
| 91 // to accomodate a pointer or an integer. | |
| 92 intptr_t _cells[1]; | |
| 93 | |
| 94 // Some types of data layouts need a length field. | |
| 95 static bool needs_array_len(u1 tag); | |
| 96 | |
| 97 public: | |
| 98 enum { | |
| 99 counter_increment = 1 | |
| 100 }; | |
| 101 | |
| 102 enum { | |
| 103 cell_size = sizeof(intptr_t) | |
| 104 }; | |
| 105 | |
| 106 // Tag values | |
| 107 enum { | |
| 108 no_tag, | |
| 109 bit_data_tag, | |
| 110 counter_data_tag, | |
| 111 jump_data_tag, | |
| 112 receiver_type_data_tag, | |
| 113 virtual_call_data_tag, | |
| 114 ret_data_tag, | |
| 115 branch_data_tag, | |
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116 multi_branch_data_tag, |
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117 arg_info_data_tag |
| 0 | 118 }; |
| 119 | |
| 120 enum { | |
| 121 // The _struct._flags word is formatted as [trap_state:4 | flags:4]. | |
| 122 // The trap state breaks down further as [recompile:1 | reason:3]. | |
| 123 // This further breakdown is defined in deoptimization.cpp. | |
| 124 // See Deoptimization::trap_state_reason for an assert that | |
| 125 // trap_bits is big enough to hold reasons < Reason_RECORDED_LIMIT. | |
| 126 // | |
| 127 // The trap_state is collected only if ProfileTraps is true. | |
| 128 trap_bits = 1+3, // 3: enough to distinguish [0..Reason_RECORDED_LIMIT]. | |
| 129 trap_shift = BitsPerByte - trap_bits, | |
| 130 trap_mask = right_n_bits(trap_bits), | |
| 131 trap_mask_in_place = (trap_mask << trap_shift), | |
| 132 flag_limit = trap_shift, | |
| 133 flag_mask = right_n_bits(flag_limit), | |
| 134 first_flag = 0 | |
| 135 }; | |
| 136 | |
| 137 // Size computation | |
| 138 static int header_size_in_bytes() { | |
| 139 return cell_size; | |
| 140 } | |
| 141 static int header_size_in_cells() { | |
| 142 return 1; | |
| 143 } | |
| 144 | |
| 145 static int compute_size_in_bytes(int cell_count) { | |
| 146 return header_size_in_bytes() + cell_count * cell_size; | |
| 147 } | |
| 148 | |
| 149 // Initialization | |
| 150 void initialize(u1 tag, u2 bci, int cell_count); | |
| 151 | |
| 152 // Accessors | |
| 153 u1 tag() { | |
| 154 return _header._struct._tag; | |
| 155 } | |
| 156 | |
| 157 // Return a few bits of trap state. Range is [0..trap_mask]. | |
| 158 // The state tells if traps with zero, one, or many reasons have occurred. | |
| 159 // It also tells whether zero or many recompilations have occurred. | |
| 160 // The associated trap histogram in the MDO itself tells whether | |
| 161 // traps are common or not. If a BCI shows that a trap X has | |
| 162 // occurred, and the MDO shows N occurrences of X, we make the | |
| 163 // simplifying assumption that all N occurrences can be blamed | |
| 164 // on that BCI. | |
| 165 int trap_state() { | |
| 166 return ((_header._struct._flags >> trap_shift) & trap_mask); | |
| 167 } | |
| 168 | |
| 169 void set_trap_state(int new_state) { | |
| 170 assert(ProfileTraps, "used only under +ProfileTraps"); | |
| 171 uint old_flags = (_header._struct._flags & flag_mask); | |
| 172 _header._struct._flags = (new_state << trap_shift) | old_flags; | |
| 173 } | |
| 174 | |
| 175 u1 flags() { | |
| 176 return _header._struct._flags; | |
| 177 } | |
| 178 | |
| 179 u2 bci() { | |
| 180 return _header._struct._bci; | |
| 181 } | |
| 182 | |
| 183 void set_header(intptr_t value) { | |
| 184 _header._bits = value; | |
| 185 } | |
| 186 void release_set_header(intptr_t value) { | |
| 187 OrderAccess::release_store_ptr(&_header._bits, value); | |
| 188 } | |
| 189 intptr_t header() { | |
| 190 return _header._bits; | |
| 191 } | |
| 192 void set_cell_at(int index, intptr_t value) { | |
| 193 _cells[index] = value; | |
| 194 } | |
| 195 void release_set_cell_at(int index, intptr_t value) { | |
| 196 OrderAccess::release_store_ptr(&_cells[index], value); | |
| 197 } | |
| 198 intptr_t cell_at(int index) { | |
| 199 return _cells[index]; | |
| 200 } | |
| 201 | |
| 202 void set_flag_at(int flag_number) { | |
| 203 assert(flag_number < flag_limit, "oob"); | |
| 204 _header._struct._flags |= (0x1 << flag_number); | |
| 205 } | |
| 206 bool flag_at(int flag_number) { | |
| 207 assert(flag_number < flag_limit, "oob"); | |
| 208 return (_header._struct._flags & (0x1 << flag_number)) != 0; | |
| 209 } | |
| 210 | |
| 211 // Low-level support for code generation. | |
| 212 static ByteSize header_offset() { | |
| 213 return byte_offset_of(DataLayout, _header); | |
| 214 } | |
| 215 static ByteSize tag_offset() { | |
| 216 return byte_offset_of(DataLayout, _header._struct._tag); | |
| 217 } | |
| 218 static ByteSize flags_offset() { | |
| 219 return byte_offset_of(DataLayout, _header._struct._flags); | |
| 220 } | |
| 221 static ByteSize bci_offset() { | |
| 222 return byte_offset_of(DataLayout, _header._struct._bci); | |
| 223 } | |
| 224 static ByteSize cell_offset(int index) { | |
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225 return byte_offset_of(DataLayout, _cells) + in_ByteSize(index * cell_size); |
| 0 | 226 } |
| 227 // Return a value which, when or-ed as a byte into _flags, sets the flag. | |
| 228 static int flag_number_to_byte_constant(int flag_number) { | |
| 229 assert(0 <= flag_number && flag_number < flag_limit, "oob"); | |
| 230 DataLayout temp; temp.set_header(0); | |
| 231 temp.set_flag_at(flag_number); | |
| 232 return temp._header._struct._flags; | |
| 233 } | |
| 234 // Return a value which, when or-ed as a word into _header, sets the flag. | |
| 235 static intptr_t flag_mask_to_header_mask(int byte_constant) { | |
| 236 DataLayout temp; temp.set_header(0); | |
| 237 temp._header._struct._flags = byte_constant; | |
| 238 return temp._header._bits; | |
| 239 } | |
| 941 | 240 |
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241 ProfileData* data_in(); |
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242 |
| 941 | 243 // GC support |
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244 void clean_weak_klass_links(BoolObjectClosure* cl); |
| 0 | 245 }; |
| 246 | |
| 247 | |
| 248 // ProfileData class hierarchy | |
| 249 class ProfileData; | |
| 250 class BitData; | |
| 251 class CounterData; | |
| 252 class ReceiverTypeData; | |
| 253 class VirtualCallData; | |
| 254 class RetData; | |
| 255 class JumpData; | |
| 256 class BranchData; | |
| 257 class ArrayData; | |
| 258 class MultiBranchData; | |
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259 class ArgInfoData; |
| 0 | 260 |
| 261 | |
| 262 // ProfileData | |
| 263 // | |
| 264 // A ProfileData object is created to refer to a section of profiling | |
| 265 // data in a structured way. | |
| 266 class ProfileData : public ResourceObj { | |
| 267 private: | |
| 268 #ifndef PRODUCT | |
| 269 enum { | |
| 270 tab_width_one = 16, | |
| 271 tab_width_two = 36 | |
| 272 }; | |
| 273 #endif // !PRODUCT | |
| 274 | |
| 275 // This is a pointer to a section of profiling data. | |
| 276 DataLayout* _data; | |
| 277 | |
| 278 protected: | |
| 279 DataLayout* data() { return _data; } | |
| 280 | |
| 281 enum { | |
| 282 cell_size = DataLayout::cell_size | |
| 283 }; | |
| 284 | |
| 285 public: | |
| 286 // How many cells are in this? | |
| 287 virtual int cell_count() { | |
| 288 ShouldNotReachHere(); | |
| 289 return -1; | |
| 290 } | |
| 291 | |
| 292 // Return the size of this data. | |
| 293 int size_in_bytes() { | |
| 294 return DataLayout::compute_size_in_bytes(cell_count()); | |
| 295 } | |
| 296 | |
| 297 protected: | |
| 298 // Low-level accessors for underlying data | |
| 299 void set_intptr_at(int index, intptr_t value) { | |
| 300 assert(0 <= index && index < cell_count(), "oob"); | |
| 301 data()->set_cell_at(index, value); | |
| 302 } | |
| 303 void release_set_intptr_at(int index, intptr_t value) { | |
| 304 assert(0 <= index && index < cell_count(), "oob"); | |
| 305 data()->release_set_cell_at(index, value); | |
| 306 } | |
| 307 intptr_t intptr_at(int index) { | |
| 308 assert(0 <= index && index < cell_count(), "oob"); | |
| 309 return data()->cell_at(index); | |
| 310 } | |
| 311 void set_uint_at(int index, uint value) { | |
| 312 set_intptr_at(index, (intptr_t) value); | |
| 313 } | |
| 314 void release_set_uint_at(int index, uint value) { | |
| 315 release_set_intptr_at(index, (intptr_t) value); | |
| 316 } | |
| 317 uint uint_at(int index) { | |
| 318 return (uint)intptr_at(index); | |
| 319 } | |
| 320 void set_int_at(int index, int value) { | |
| 321 set_intptr_at(index, (intptr_t) value); | |
| 322 } | |
| 323 void release_set_int_at(int index, int value) { | |
| 324 release_set_intptr_at(index, (intptr_t) value); | |
| 325 } | |
| 326 int int_at(int index) { | |
| 327 return (int)intptr_at(index); | |
| 328 } | |
| 329 int int_at_unchecked(int index) { | |
| 330 return (int)data()->cell_at(index); | |
| 331 } | |
| 332 void set_oop_at(int index, oop value) { | |
| 333 set_intptr_at(index, (intptr_t) value); | |
| 334 } | |
| 335 oop oop_at(int index) { | |
| 336 return (oop)intptr_at(index); | |
| 337 } | |
| 338 | |
| 339 void set_flag_at(int flag_number) { | |
| 340 data()->set_flag_at(flag_number); | |
| 341 } | |
| 342 bool flag_at(int flag_number) { | |
| 343 return data()->flag_at(flag_number); | |
| 344 } | |
| 345 | |
| 346 // two convenient imports for use by subclasses: | |
| 347 static ByteSize cell_offset(int index) { | |
| 348 return DataLayout::cell_offset(index); | |
| 349 } | |
| 350 static int flag_number_to_byte_constant(int flag_number) { | |
| 351 return DataLayout::flag_number_to_byte_constant(flag_number); | |
| 352 } | |
| 353 | |
| 354 ProfileData(DataLayout* data) { | |
| 355 _data = data; | |
| 356 } | |
| 357 | |
| 358 public: | |
| 359 // Constructor for invalid ProfileData. | |
| 360 ProfileData(); | |
| 361 | |
| 362 u2 bci() { | |
| 363 return data()->bci(); | |
| 364 } | |
| 365 | |
| 366 address dp() { | |
| 367 return (address)_data; | |
| 368 } | |
| 369 | |
| 370 int trap_state() { | |
| 371 return data()->trap_state(); | |
| 372 } | |
| 373 void set_trap_state(int new_state) { | |
| 374 data()->set_trap_state(new_state); | |
| 375 } | |
| 376 | |
| 377 // Type checking | |
| 378 virtual bool is_BitData() { return false; } | |
| 379 virtual bool is_CounterData() { return false; } | |
| 380 virtual bool is_JumpData() { return false; } | |
| 381 virtual bool is_ReceiverTypeData(){ return false; } | |
| 382 virtual bool is_VirtualCallData() { return false; } | |
| 383 virtual bool is_RetData() { return false; } | |
| 384 virtual bool is_BranchData() { return false; } | |
| 385 virtual bool is_ArrayData() { return false; } | |
| 386 virtual bool is_MultiBranchData() { return false; } | |
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387 virtual bool is_ArgInfoData() { return false; } |
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388 |
| 0 | 389 |
| 390 BitData* as_BitData() { | |
| 391 assert(is_BitData(), "wrong type"); | |
| 392 return is_BitData() ? (BitData*) this : NULL; | |
| 393 } | |
| 394 CounterData* as_CounterData() { | |
| 395 assert(is_CounterData(), "wrong type"); | |
| 396 return is_CounterData() ? (CounterData*) this : NULL; | |
| 397 } | |
| 398 JumpData* as_JumpData() { | |
| 399 assert(is_JumpData(), "wrong type"); | |
| 400 return is_JumpData() ? (JumpData*) this : NULL; | |
| 401 } | |
| 402 ReceiverTypeData* as_ReceiverTypeData() { | |
| 403 assert(is_ReceiverTypeData(), "wrong type"); | |
| 404 return is_ReceiverTypeData() ? (ReceiverTypeData*)this : NULL; | |
| 405 } | |
| 406 VirtualCallData* as_VirtualCallData() { | |
| 407 assert(is_VirtualCallData(), "wrong type"); | |
| 408 return is_VirtualCallData() ? (VirtualCallData*)this : NULL; | |
| 409 } | |
| 410 RetData* as_RetData() { | |
| 411 assert(is_RetData(), "wrong type"); | |
| 412 return is_RetData() ? (RetData*) this : NULL; | |
| 413 } | |
| 414 BranchData* as_BranchData() { | |
| 415 assert(is_BranchData(), "wrong type"); | |
| 416 return is_BranchData() ? (BranchData*) this : NULL; | |
| 417 } | |
| 418 ArrayData* as_ArrayData() { | |
| 419 assert(is_ArrayData(), "wrong type"); | |
| 420 return is_ArrayData() ? (ArrayData*) this : NULL; | |
| 421 } | |
| 422 MultiBranchData* as_MultiBranchData() { | |
| 423 assert(is_MultiBranchData(), "wrong type"); | |
| 424 return is_MultiBranchData() ? (MultiBranchData*)this : NULL; | |
| 425 } | |
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426 ArgInfoData* as_ArgInfoData() { |
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427 assert(is_ArgInfoData(), "wrong type"); |
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428 return is_ArgInfoData() ? (ArgInfoData*)this : NULL; |
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429 } |
| 0 | 430 |
| 431 | |
| 432 // Subclass specific initialization | |
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433 virtual void post_initialize(BytecodeStream* stream, MethodData* mdo) {} |
| 0 | 434 |
| 435 // GC support | |
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436 virtual void clean_weak_klass_links(BoolObjectClosure* is_alive_closure) {} |
| 0 | 437 |
| 438 // CI translation: ProfileData can represent both MethodDataOop data | |
| 439 // as well as CIMethodData data. This function is provided for translating | |
| 440 // an oop in a ProfileData to the ci equivalent. Generally speaking, | |
| 441 // most ProfileData don't require any translation, so we provide the null | |
| 442 // translation here, and the required translators are in the ci subclasses. | |
| 443 virtual void translate_from(ProfileData* data) {} | |
| 444 | |
| 445 virtual void print_data_on(outputStream* st) { | |
| 446 ShouldNotReachHere(); | |
| 447 } | |
| 448 | |
| 449 #ifndef PRODUCT | |
| 450 void print_shared(outputStream* st, const char* name); | |
| 451 void tab(outputStream* st); | |
| 452 #endif | |
| 453 }; | |
| 454 | |
| 455 // BitData | |
| 456 // | |
| 457 // A BitData holds a flag or two in its header. | |
| 458 class BitData : public ProfileData { | |
| 459 protected: | |
| 460 enum { | |
| 461 // null_seen: | |
| 462 // saw a null operand (cast/aastore/instanceof) | |
| 463 null_seen_flag = DataLayout::first_flag + 0 | |
| 464 }; | |
| 465 enum { bit_cell_count = 0 }; // no additional data fields needed. | |
| 466 public: | |
| 467 BitData(DataLayout* layout) : ProfileData(layout) { | |
| 468 } | |
| 469 | |
| 470 virtual bool is_BitData() { return true; } | |
| 471 | |
| 472 static int static_cell_count() { | |
| 473 return bit_cell_count; | |
| 474 } | |
| 475 | |
| 476 virtual int cell_count() { | |
| 477 return static_cell_count(); | |
| 478 } | |
| 479 | |
| 480 // Accessor | |
| 481 | |
| 482 // The null_seen flag bit is specially known to the interpreter. | |
| 483 // Consulting it allows the compiler to avoid setting up null_check traps. | |
| 484 bool null_seen() { return flag_at(null_seen_flag); } | |
| 485 void set_null_seen() { set_flag_at(null_seen_flag); } | |
| 486 | |
| 487 | |
| 488 // Code generation support | |
| 489 static int null_seen_byte_constant() { | |
| 490 return flag_number_to_byte_constant(null_seen_flag); | |
| 491 } | |
| 492 | |
| 493 static ByteSize bit_data_size() { | |
| 494 return cell_offset(bit_cell_count); | |
| 495 } | |
| 496 | |
| 497 #ifndef PRODUCT | |
| 498 void print_data_on(outputStream* st); | |
| 499 #endif | |
| 500 }; | |
| 501 | |
| 502 // CounterData | |
| 503 // | |
| 504 // A CounterData corresponds to a simple counter. | |
| 505 class CounterData : public BitData { | |
| 506 protected: | |
| 507 enum { | |
| 508 count_off, | |
| 509 counter_cell_count | |
| 510 }; | |
| 511 public: | |
| 512 CounterData(DataLayout* layout) : BitData(layout) {} | |
| 513 | |
| 514 virtual bool is_CounterData() { return true; } | |
| 515 | |
| 516 static int static_cell_count() { | |
| 517 return counter_cell_count; | |
| 518 } | |
| 519 | |
| 520 virtual int cell_count() { | |
| 521 return static_cell_count(); | |
| 522 } | |
| 523 | |
| 524 // Direct accessor | |
| 525 uint count() { | |
| 526 return uint_at(count_off); | |
| 527 } | |
| 528 | |
| 529 // Code generation support | |
| 530 static ByteSize count_offset() { | |
| 531 return cell_offset(count_off); | |
| 532 } | |
| 533 static ByteSize counter_data_size() { | |
| 534 return cell_offset(counter_cell_count); | |
| 535 } | |
| 536 | |
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537 void set_count(uint count) { |
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538 set_uint_at(count_off, count); |
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539 } |
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540 |
| 0 | 541 #ifndef PRODUCT |
| 542 void print_data_on(outputStream* st); | |
| 543 #endif | |
| 544 }; | |
| 545 | |
| 546 // JumpData | |
| 547 // | |
| 548 // A JumpData is used to access profiling information for a direct | |
| 549 // branch. It is a counter, used for counting the number of branches, | |
| 550 // plus a data displacement, used for realigning the data pointer to | |
| 551 // the corresponding target bci. | |
| 552 class JumpData : public ProfileData { | |
| 553 protected: | |
| 554 enum { | |
| 555 taken_off_set, | |
| 556 displacement_off_set, | |
| 557 jump_cell_count | |
| 558 }; | |
| 559 | |
| 560 void set_displacement(int displacement) { | |
| 561 set_int_at(displacement_off_set, displacement); | |
| 562 } | |
| 563 | |
| 564 public: | |
| 565 JumpData(DataLayout* layout) : ProfileData(layout) { | |
| 566 assert(layout->tag() == DataLayout::jump_data_tag || | |
| 567 layout->tag() == DataLayout::branch_data_tag, "wrong type"); | |
| 568 } | |
| 569 | |
| 570 virtual bool is_JumpData() { return true; } | |
| 571 | |
| 572 static int static_cell_count() { | |
| 573 return jump_cell_count; | |
| 574 } | |
| 575 | |
| 576 virtual int cell_count() { | |
| 577 return static_cell_count(); | |
| 578 } | |
| 579 | |
| 580 // Direct accessor | |
| 581 uint taken() { | |
| 582 return uint_at(taken_off_set); | |
| 583 } | |
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584 |
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585 void set_taken(uint cnt) { |
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586 set_uint_at(taken_off_set, cnt); |
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587 } |
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588 |
| 0 | 589 // Saturating counter |
| 590 uint inc_taken() { | |
| 591 uint cnt = taken() + 1; | |
| 592 // Did we wrap? Will compiler screw us?? | |
| 593 if (cnt == 0) cnt--; | |
| 594 set_uint_at(taken_off_set, cnt); | |
| 595 return cnt; | |
| 596 } | |
| 597 | |
| 598 int displacement() { | |
| 599 return int_at(displacement_off_set); | |
| 600 } | |
| 601 | |
| 602 // Code generation support | |
| 603 static ByteSize taken_offset() { | |
| 604 return cell_offset(taken_off_set); | |
| 605 } | |
| 606 | |
| 607 static ByteSize displacement_offset() { | |
| 608 return cell_offset(displacement_off_set); | |
| 609 } | |
| 610 | |
| 611 // Specific initialization. | |
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612 void post_initialize(BytecodeStream* stream, MethodData* mdo); |
| 0 | 613 |
| 614 #ifndef PRODUCT | |
| 615 void print_data_on(outputStream* st); | |
| 616 #endif | |
| 617 }; | |
| 618 | |
| 619 // ReceiverTypeData | |
| 620 // | |
| 621 // A ReceiverTypeData is used to access profiling information about a | |
| 622 // dynamic type check. It consists of a counter which counts the total times | |
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623 // that the check is reached, and a series of (Klass*, count) pairs |
| 0 | 624 // which are used to store a type profile for the receiver of the check. |
| 625 class ReceiverTypeData : public CounterData { | |
| 626 protected: | |
| 627 enum { | |
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628 #ifdef GRAAL |
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629 // Graal is interested in knowing the percentage of type checks |
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630 // involving a type not explicitly in the profile |
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631 nonprofiled_receiver_count_off_set = counter_cell_count, |
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632 receiver0_offset, |
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633 #else |
| 0 | 634 receiver0_offset = counter_cell_count, |
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635 #endif |
| 0 | 636 count0_offset, |
| 637 receiver_type_row_cell_count = (count0_offset + 1) - receiver0_offset | |
| 638 }; | |
| 639 | |
| 640 public: | |
| 641 ReceiverTypeData(DataLayout* layout) : CounterData(layout) { | |
| 642 assert(layout->tag() == DataLayout::receiver_type_data_tag || | |
| 643 layout->tag() == DataLayout::virtual_call_data_tag, "wrong type"); | |
| 644 } | |
| 645 | |
| 646 virtual bool is_ReceiverTypeData() { return true; } | |
| 647 | |
| 648 static int static_cell_count() { | |
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649 return counter_cell_count + (uint) TypeProfileWidth * receiver_type_row_cell_count GRAAL_ONLY(+ 1); |
| 0 | 650 } |
| 651 | |
| 652 virtual int cell_count() { | |
| 653 return static_cell_count(); | |
| 654 } | |
| 655 | |
| 656 // Direct accessors | |
| 657 static uint row_limit() { | |
| 658 return TypeProfileWidth; | |
| 659 } | |
| 660 static int receiver_cell_index(uint row) { | |
| 661 return receiver0_offset + row * receiver_type_row_cell_count; | |
| 662 } | |
| 663 static int receiver_count_cell_index(uint row) { | |
| 664 return count0_offset + row * receiver_type_row_cell_count; | |
| 665 } | |
| 666 | |
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667 Klass* receiver(uint row) { |
| 0 | 668 assert(row < row_limit(), "oob"); |
| 669 | |
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670 Klass* recv = (Klass*)intptr_at(receiver_cell_index(row)); |
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671 assert(recv == NULL || recv->is_klass(), "wrong type"); |
| 0 | 672 return recv; |
| 673 } | |
| 674 | |
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675 void set_receiver(uint row, Klass* k) { |
| 941 | 676 assert((uint)row < row_limit(), "oob"); |
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677 set_intptr_at(receiver_cell_index(row), (uintptr_t)k); |
| 941 | 678 } |
| 679 | |
| 0 | 680 uint receiver_count(uint row) { |
| 681 assert(row < row_limit(), "oob"); | |
| 682 return uint_at(receiver_count_cell_index(row)); | |
| 683 } | |
| 684 | |
| 941 | 685 void set_receiver_count(uint row, uint count) { |
| 686 assert(row < row_limit(), "oob"); | |
| 687 set_uint_at(receiver_count_cell_index(row), count); | |
| 688 } | |
| 689 | |
| 690 void clear_row(uint row) { | |
| 691 assert(row < row_limit(), "oob"); | |
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692 // Clear total count - indicator of polymorphic call site. |
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693 // The site may look like as monomorphic after that but |
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694 // it allow to have more accurate profiling information because |
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695 // there was execution phase change since klasses were unloaded. |
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696 // If the site is still polymorphic then MDO will be updated |
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697 // to reflect it. But it could be the case that the site becomes |
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698 // only bimorphic. Then keeping total count not 0 will be wrong. |
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699 // Even if we use monomorphic (when it is not) for compilation |
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700 // we will only have trap, deoptimization and recompile again |
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701 // with updated MDO after executing method in Interpreter. |
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702 // An additional receiver will be recorded in the cleaned row |
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703 // during next call execution. |
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704 // |
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705 // Note: our profiling logic works with empty rows in any slot. |
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706 // We do sorting a profiling info (ciCallProfile) for compilation. |
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707 // |
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708 set_count(0); |
| 941 | 709 set_receiver(row, NULL); |
| 710 set_receiver_count(row, 0); | |
| 711 } | |
| 712 | |
| 0 | 713 // Code generation support |
| 714 static ByteSize receiver_offset(uint row) { | |
| 715 return cell_offset(receiver_cell_index(row)); | |
| 716 } | |
| 717 static ByteSize receiver_count_offset(uint row) { | |
| 718 return cell_offset(receiver_count_cell_index(row)); | |
| 719 } | |
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720 #ifdef GRAAL |
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721 static ByteSize nonprofiled_receiver_count_offset() { |
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722 return cell_offset(nonprofiled_receiver_count_off_set); |
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723 } |
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724 #endif |
| 0 | 725 static ByteSize receiver_type_data_size() { |
| 726 return cell_offset(static_cell_count()); | |
| 727 } | |
| 728 | |
| 729 // GC support | |
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730 virtual void clean_weak_klass_links(BoolObjectClosure* is_alive_closure); |
| 0 | 731 |
| 732 #ifndef PRODUCT | |
| 733 void print_receiver_data_on(outputStream* st); | |
| 734 void print_data_on(outputStream* st); | |
| 735 #endif | |
| 736 }; | |
| 737 | |
| 738 // VirtualCallData | |
| 739 // | |
| 740 // A VirtualCallData is used to access profiling information about a | |
| 741 // virtual call. For now, it has nothing more than a ReceiverTypeData. | |
| 742 class VirtualCallData : public ReceiverTypeData { | |
| 743 public: | |
| 744 VirtualCallData(DataLayout* layout) : ReceiverTypeData(layout) { | |
| 745 assert(layout->tag() == DataLayout::virtual_call_data_tag, "wrong type"); | |
| 746 } | |
| 747 | |
| 748 virtual bool is_VirtualCallData() { return true; } | |
| 749 | |
| 750 static int static_cell_count() { | |
| 751 // At this point we could add more profile state, e.g., for arguments. | |
| 752 // But for now it's the same size as the base record type. | |
| 753 return ReceiverTypeData::static_cell_count(); | |
| 754 } | |
| 755 | |
| 756 virtual int cell_count() { | |
| 757 return static_cell_count(); | |
| 758 } | |
| 759 | |
| 760 // Direct accessors | |
| 761 static ByteSize virtual_call_data_size() { | |
| 762 return cell_offset(static_cell_count()); | |
| 763 } | |
| 764 | |
| 765 #ifndef PRODUCT | |
| 766 void print_data_on(outputStream* st); | |
| 767 #endif | |
| 768 }; | |
| 769 | |
| 770 // RetData | |
| 771 // | |
| 772 // A RetData is used to access profiling information for a ret bytecode. | |
| 773 // It is composed of a count of the number of times that the ret has | |
| 774 // been executed, followed by a series of triples of the form | |
| 775 // (bci, count, di) which count the number of times that some bci was the | |
| 776 // target of the ret and cache a corresponding data displacement. | |
| 777 class RetData : public CounterData { | |
| 778 protected: | |
| 779 enum { | |
| 780 bci0_offset = counter_cell_count, | |
| 781 count0_offset, | |
| 782 displacement0_offset, | |
| 783 ret_row_cell_count = (displacement0_offset + 1) - bci0_offset | |
| 784 }; | |
| 785 | |
| 786 void set_bci(uint row, int bci) { | |
| 787 assert((uint)row < row_limit(), "oob"); | |
| 788 set_int_at(bci0_offset + row * ret_row_cell_count, bci); | |
| 789 } | |
| 790 void release_set_bci(uint row, int bci) { | |
| 791 assert((uint)row < row_limit(), "oob"); | |
| 792 // 'release' when setting the bci acts as a valid flag for other | |
| 793 // threads wrt bci_count and bci_displacement. | |
| 794 release_set_int_at(bci0_offset + row * ret_row_cell_count, bci); | |
| 795 } | |
| 796 void set_bci_count(uint row, uint count) { | |
| 797 assert((uint)row < row_limit(), "oob"); | |
| 798 set_uint_at(count0_offset + row * ret_row_cell_count, count); | |
| 799 } | |
| 800 void set_bci_displacement(uint row, int disp) { | |
| 801 set_int_at(displacement0_offset + row * ret_row_cell_count, disp); | |
| 802 } | |
| 803 | |
| 804 public: | |
| 805 RetData(DataLayout* layout) : CounterData(layout) { | |
| 806 assert(layout->tag() == DataLayout::ret_data_tag, "wrong type"); | |
| 807 } | |
| 808 | |
| 809 virtual bool is_RetData() { return true; } | |
| 810 | |
| 811 enum { | |
| 812 no_bci = -1 // value of bci when bci1/2 are not in use. | |
| 813 }; | |
| 814 | |
| 815 static int static_cell_count() { | |
| 816 return counter_cell_count + (uint) BciProfileWidth * ret_row_cell_count; | |
| 817 } | |
| 818 | |
| 819 virtual int cell_count() { | |
| 820 return static_cell_count(); | |
| 821 } | |
| 822 | |
| 823 static uint row_limit() { | |
| 824 return BciProfileWidth; | |
| 825 } | |
| 826 static int bci_cell_index(uint row) { | |
| 827 return bci0_offset + row * ret_row_cell_count; | |
| 828 } | |
| 829 static int bci_count_cell_index(uint row) { | |
| 830 return count0_offset + row * ret_row_cell_count; | |
| 831 } | |
| 832 static int bci_displacement_cell_index(uint row) { | |
| 833 return displacement0_offset + row * ret_row_cell_count; | |
| 834 } | |
| 835 | |
| 836 // Direct accessors | |
| 837 int bci(uint row) { | |
| 838 return int_at(bci_cell_index(row)); | |
| 839 } | |
| 840 uint bci_count(uint row) { | |
| 841 return uint_at(bci_count_cell_index(row)); | |
| 842 } | |
| 843 int bci_displacement(uint row) { | |
| 844 return int_at(bci_displacement_cell_index(row)); | |
| 845 } | |
| 846 | |
| 847 // Interpreter Runtime support | |
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848 address fixup_ret(int return_bci, MethodData* mdo); |
| 0 | 849 |
| 850 // Code generation support | |
| 851 static ByteSize bci_offset(uint row) { | |
| 852 return cell_offset(bci_cell_index(row)); | |
| 853 } | |
| 854 static ByteSize bci_count_offset(uint row) { | |
| 855 return cell_offset(bci_count_cell_index(row)); | |
| 856 } | |
| 857 static ByteSize bci_displacement_offset(uint row) { | |
| 858 return cell_offset(bci_displacement_cell_index(row)); | |
| 859 } | |
| 860 | |
| 861 // Specific initialization. | |
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862 void post_initialize(BytecodeStream* stream, MethodData* mdo); |
| 0 | 863 |
| 864 #ifndef PRODUCT | |
| 865 void print_data_on(outputStream* st); | |
| 866 #endif | |
| 867 }; | |
| 868 | |
| 869 // BranchData | |
| 870 // | |
| 871 // A BranchData is used to access profiling data for a two-way branch. | |
| 872 // It consists of taken and not_taken counts as well as a data displacement | |
| 873 // for the taken case. | |
| 874 class BranchData : public JumpData { | |
| 875 protected: | |
| 876 enum { | |
| 877 not_taken_off_set = jump_cell_count, | |
| 878 branch_cell_count | |
| 879 }; | |
| 880 | |
| 881 void set_displacement(int displacement) { | |
| 882 set_int_at(displacement_off_set, displacement); | |
| 883 } | |
| 884 | |
| 885 public: | |
| 886 BranchData(DataLayout* layout) : JumpData(layout) { | |
| 887 assert(layout->tag() == DataLayout::branch_data_tag, "wrong type"); | |
| 888 } | |
| 889 | |
| 890 virtual bool is_BranchData() { return true; } | |
| 891 | |
| 892 static int static_cell_count() { | |
| 893 return branch_cell_count; | |
| 894 } | |
| 895 | |
| 896 virtual int cell_count() { | |
| 897 return static_cell_count(); | |
| 898 } | |
| 899 | |
| 900 // Direct accessor | |
| 901 uint not_taken() { | |
| 902 return uint_at(not_taken_off_set); | |
| 903 } | |
| 904 | |
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905 void set_not_taken(uint cnt) { |
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906 set_uint_at(not_taken_off_set, cnt); |
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907 } |
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908 |
| 0 | 909 uint inc_not_taken() { |
| 910 uint cnt = not_taken() + 1; | |
| 911 // Did we wrap? Will compiler screw us?? | |
| 912 if (cnt == 0) cnt--; | |
| 913 set_uint_at(not_taken_off_set, cnt); | |
| 914 return cnt; | |
| 915 } | |
| 916 | |
| 917 // Code generation support | |
| 918 static ByteSize not_taken_offset() { | |
| 919 return cell_offset(not_taken_off_set); | |
| 920 } | |
| 921 static ByteSize branch_data_size() { | |
| 922 return cell_offset(branch_cell_count); | |
| 923 } | |
| 924 | |
| 925 // Specific initialization. | |
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926 void post_initialize(BytecodeStream* stream, MethodData* mdo); |
| 0 | 927 |
| 928 #ifndef PRODUCT | |
| 929 void print_data_on(outputStream* st); | |
| 930 #endif | |
| 931 }; | |
| 932 | |
| 933 // ArrayData | |
| 934 // | |
| 935 // A ArrayData is a base class for accessing profiling data which does | |
| 936 // not have a statically known size. It consists of an array length | |
| 937 // and an array start. | |
| 938 class ArrayData : public ProfileData { | |
| 939 protected: | |
| 940 friend class DataLayout; | |
| 941 | |
| 942 enum { | |
| 943 array_len_off_set, | |
| 944 array_start_off_set | |
| 945 }; | |
| 946 | |
| 947 uint array_uint_at(int index) { | |
| 948 int aindex = index + array_start_off_set; | |
| 949 return uint_at(aindex); | |
| 950 } | |
| 951 int array_int_at(int index) { | |
| 952 int aindex = index + array_start_off_set; | |
| 953 return int_at(aindex); | |
| 954 } | |
| 955 oop array_oop_at(int index) { | |
| 956 int aindex = index + array_start_off_set; | |
| 957 return oop_at(aindex); | |
| 958 } | |
| 959 void array_set_int_at(int index, int value) { | |
| 960 int aindex = index + array_start_off_set; | |
| 961 set_int_at(aindex, value); | |
| 962 } | |
| 963 | |
| 964 // Code generation support for subclasses. | |
| 965 static ByteSize array_element_offset(int index) { | |
| 966 return cell_offset(array_start_off_set + index); | |
| 967 } | |
| 968 | |
| 969 public: | |
| 970 ArrayData(DataLayout* layout) : ProfileData(layout) {} | |
| 971 | |
| 972 virtual bool is_ArrayData() { return true; } | |
| 973 | |
| 974 static int static_cell_count() { | |
| 975 return -1; | |
| 976 } | |
| 977 | |
| 978 int array_len() { | |
| 979 return int_at_unchecked(array_len_off_set); | |
| 980 } | |
| 981 | |
| 982 virtual int cell_count() { | |
| 983 return array_len() + 1; | |
| 984 } | |
| 985 | |
| 986 // Code generation support | |
| 987 static ByteSize array_len_offset() { | |
| 988 return cell_offset(array_len_off_set); | |
| 989 } | |
| 990 static ByteSize array_start_offset() { | |
| 991 return cell_offset(array_start_off_set); | |
| 992 } | |
| 993 }; | |
| 994 | |
| 995 // MultiBranchData | |
| 996 // | |
| 997 // A MultiBranchData is used to access profiling information for | |
| 998 // a multi-way branch (*switch bytecodes). It consists of a series | |
| 999 // of (count, displacement) pairs, which count the number of times each | |
| 1000 // case was taken and specify the data displacment for each branch target. | |
| 1001 class MultiBranchData : public ArrayData { | |
| 1002 protected: | |
| 1003 enum { | |
| 1004 default_count_off_set, | |
| 1005 default_disaplacement_off_set, | |
| 1006 case_array_start | |
| 1007 }; | |
| 1008 enum { | |
| 1009 relative_count_off_set, | |
| 1010 relative_displacement_off_set, | |
| 1011 per_case_cell_count | |
| 1012 }; | |
| 1013 | |
| 1014 void set_default_displacement(int displacement) { | |
| 1015 array_set_int_at(default_disaplacement_off_set, displacement); | |
| 1016 } | |
| 1017 void set_displacement_at(int index, int displacement) { | |
| 1018 array_set_int_at(case_array_start + | |
| 1019 index * per_case_cell_count + | |
| 1020 relative_displacement_off_set, | |
| 1021 displacement); | |
| 1022 } | |
| 1023 | |
| 1024 public: | |
| 1025 MultiBranchData(DataLayout* layout) : ArrayData(layout) { | |
| 1026 assert(layout->tag() == DataLayout::multi_branch_data_tag, "wrong type"); | |
| 1027 } | |
| 1028 | |
| 1029 virtual bool is_MultiBranchData() { return true; } | |
| 1030 | |
| 1031 static int compute_cell_count(BytecodeStream* stream); | |
| 1032 | |
| 1033 int number_of_cases() { | |
| 1034 int alen = array_len() - 2; // get rid of default case here. | |
| 1035 assert(alen % per_case_cell_count == 0, "must be even"); | |
| 1036 return (alen / per_case_cell_count); | |
| 1037 } | |
| 1038 | |
| 1039 uint default_count() { | |
| 1040 return array_uint_at(default_count_off_set); | |
| 1041 } | |
| 1042 int default_displacement() { | |
| 1043 return array_int_at(default_disaplacement_off_set); | |
| 1044 } | |
| 1045 | |
| 1046 uint count_at(int index) { | |
| 1047 return array_uint_at(case_array_start + | |
| 1048 index * per_case_cell_count + | |
| 1049 relative_count_off_set); | |
| 1050 } | |
| 1051 int displacement_at(int index) { | |
| 1052 return array_int_at(case_array_start + | |
| 1053 index * per_case_cell_count + | |
| 1054 relative_displacement_off_set); | |
| 1055 } | |
| 1056 | |
| 1057 // Code generation support | |
| 1058 static ByteSize default_count_offset() { | |
| 1059 return array_element_offset(default_count_off_set); | |
| 1060 } | |
| 1061 static ByteSize default_displacement_offset() { | |
| 1062 return array_element_offset(default_disaplacement_off_set); | |
| 1063 } | |
| 1064 static ByteSize case_count_offset(int index) { | |
| 1065 return case_array_offset() + | |
| 1066 (per_case_size() * index) + | |
| 1067 relative_count_offset(); | |
| 1068 } | |
| 1069 static ByteSize case_array_offset() { | |
| 1070 return array_element_offset(case_array_start); | |
| 1071 } | |
| 1072 static ByteSize per_case_size() { | |
| 1073 return in_ByteSize(per_case_cell_count) * cell_size; | |
| 1074 } | |
| 1075 static ByteSize relative_count_offset() { | |
| 1076 return in_ByteSize(relative_count_off_set) * cell_size; | |
| 1077 } | |
| 1078 static ByteSize relative_displacement_offset() { | |
| 1079 return in_ByteSize(relative_displacement_off_set) * cell_size; | |
| 1080 } | |
| 1081 | |
| 1082 // Specific initialization. | |
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1083 void post_initialize(BytecodeStream* stream, MethodData* mdo); |
| 0 | 1084 |
| 1085 #ifndef PRODUCT | |
| 1086 void print_data_on(outputStream* st); | |
| 1087 #endif | |
| 1088 }; | |
| 1089 | |
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1090 class ArgInfoData : public ArrayData { |
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1091 |
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1092 public: |
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1093 ArgInfoData(DataLayout* layout) : ArrayData(layout) { |
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1094 assert(layout->tag() == DataLayout::arg_info_data_tag, "wrong type"); |
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1095 } |
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1096 |
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1097 virtual bool is_ArgInfoData() { return true; } |
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1098 |
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1099 |
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1100 int number_of_args() { |
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1101 return array_len(); |
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1102 } |
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1103 |
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1104 uint arg_modified(int arg) { |
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1105 return array_uint_at(arg); |
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1106 } |
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1107 |
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1108 void set_arg_modified(int arg, uint val) { |
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1109 array_set_int_at(arg, val); |
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1110 } |
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1111 |
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1112 #ifndef PRODUCT |
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1113 void print_data_on(outputStream* st); |
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1114 #endif |
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1115 }; |
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1116 |
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1117 // MethodData* |
| 0 | 1118 // |
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1119 // A MethodData* holds information which has been collected about |
| 0 | 1120 // a method. Its layout looks like this: |
| 1121 // | |
| 1122 // ----------------------------- | |
| 1123 // | header | | |
| 1124 // | klass | | |
| 1125 // ----------------------------- | |
| 1126 // | method | | |
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1127 // | size of the MethodData* | |
| 0 | 1128 // ----------------------------- |
| 1129 // | Data entries... | | |
| 1130 // | (variable size) | | |
| 1131 // | | | |
| 1132 // . . | |
| 1133 // . . | |
| 1134 // . . | |
| 1135 // | | | |
| 1136 // ----------------------------- | |
| 1137 // | |
| 1138 // The data entry area is a heterogeneous array of DataLayouts. Each | |
| 1139 // DataLayout in the array corresponds to a specific bytecode in the | |
| 1140 // method. The entries in the array are sorted by the corresponding | |
| 1141 // bytecode. Access to the data is via resource-allocated ProfileData, | |
| 1142 // which point to the underlying blocks of DataLayout structures. | |
| 1143 // | |
| 1144 // During interpretation, if profiling in enabled, the interpreter | |
| 1145 // maintains a method data pointer (mdp), which points at the entry | |
| 1146 // in the array corresponding to the current bci. In the course of | |
| 1147 // intepretation, when a bytecode is encountered that has profile data | |
| 1148 // associated with it, the entry pointed to by mdp is updated, then the | |
| 1149 // mdp is adjusted to point to the next appropriate DataLayout. If mdp | |
| 1150 // is NULL to begin with, the interpreter assumes that the current method | |
| 1151 // is not (yet) being profiled. | |
| 1152 // | |
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1153 // In MethodData* parlance, "dp" is a "data pointer", the actual address |
| 0 | 1154 // of a DataLayout element. A "di" is a "data index", the offset in bytes |
| 1155 // from the base of the data entry array. A "displacement" is the byte offset | |
| 1156 // in certain ProfileData objects that indicate the amount the mdp must be | |
| 1157 // adjusted in the event of a change in control flow. | |
| 1158 // | |
| 1159 | |
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1160 class MethodData : public Metadata { |
| 0 | 1161 friend class VMStructs; |
| 1162 private: | |
| 1163 friend class ProfileData; | |
| 1164 | |
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1165 // Back pointer to the Method* |
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1166 Method* _method; |
| 0 | 1167 |
| 1168 // Size of this oop in bytes | |
| 1169 int _size; | |
| 1170 | |
| 1171 // Cached hint for bci_to_dp and bci_to_data | |
| 1172 int _hint_di; | |
| 1173 | |
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1174 MethodData(methodHandle method, int size, TRAPS); |
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1175 public: |
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1176 static MethodData* allocate(ClassLoaderData* loader_data, methodHandle method, TRAPS); |
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1177 MethodData() {}; // For ciMethodData |
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1178 |
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1179 bool is_methodData() const volatile { return true; } |
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1180 |
| 0 | 1181 // Whole-method sticky bits and flags |
| 1182 enum { | |
| 3345 | 1183 _trap_hist_limit = 17, // decoupled from Deoptimization::Reason_LIMIT |
| 0 | 1184 _trap_hist_mask = max_jubyte, |
| 1185 _extra_data_count = 4 // extra DataLayout headers, for trap history | |
| 1186 }; // Public flag values | |
| 1187 private: | |
| 1188 uint _nof_decompiles; // count of all nmethod removals | |
| 1189 uint _nof_overflow_recompiles; // recompile count, excluding recomp. bits | |
| 1190 uint _nof_overflow_traps; // trap count, excluding _trap_hist | |
| 1191 union { | |
| 1192 intptr_t _align; | |
| 1193 u1 _array[_trap_hist_limit]; | |
| 1194 } _trap_hist; | |
| 1195 | |
| 1196 // Support for interprocedural escape analysis, from Thomas Kotzmann. | |
| 1197 intx _eflags; // flags on escape information | |
| 1198 intx _arg_local; // bit set of non-escaping arguments | |
| 1199 intx _arg_stack; // bit set of stack-allocatable arguments | |
| 1200 intx _arg_returned; // bit set of returned arguments | |
| 1201 | |
| 1783 | 1202 int _creation_mileage; // method mileage at MDO creation |
| 1203 | |
| 1204 // How many invocations has this MDO seen? | |
| 1205 // These counters are used to determine the exact age of MDO. | |
| 1206 // We need those because in tiered a method can be concurrently | |
| 1207 // executed at different levels. | |
| 1208 InvocationCounter _invocation_counter; | |
| 1209 // Same for backedges. | |
| 1210 InvocationCounter _backedge_counter; | |
| 2252 | 1211 // Counter values at the time profiling started. |
| 1212 int _invocation_counter_start; | |
| 1213 int _backedge_counter_start; | |
| 1783 | 1214 // Number of loops and blocks is computed when compiling the first |
| 1215 // time with C1. It is used to determine if method is trivial. | |
| 1216 short _num_loops; | |
| 1217 short _num_blocks; | |
| 1218 // Highest compile level this method has ever seen. | |
| 1219 u1 _highest_comp_level; | |
| 1220 // Same for OSR level | |
| 1221 u1 _highest_osr_comp_level; | |
| 1222 // Does this method contain anything worth profiling? | |
| 1223 bool _would_profile; | |
| 0 | 1224 |
| 1225 // Size of _data array in bytes. (Excludes header and extra_data fields.) | |
| 1226 int _data_size; | |
| 1227 | |
| 1228 // Beginning of the data entries | |
| 1229 intptr_t _data[1]; | |
| 1230 | |
| 1231 // Helper for size computation | |
| 1232 static int compute_data_size(BytecodeStream* stream); | |
| 1233 static int bytecode_cell_count(Bytecodes::Code code); | |
| 1234 enum { no_profile_data = -1, variable_cell_count = -2 }; | |
| 1235 | |
| 1236 // Helper for initialization | |
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1237 DataLayout* data_layout_at(int data_index) const { |
| 0 | 1238 assert(data_index % sizeof(intptr_t) == 0, "unaligned"); |
| 1239 return (DataLayout*) (((address)_data) + data_index); | |
| 1240 } | |
| 1241 | |
| 1242 // Initialize an individual data segment. Returns the size of | |
| 1243 // the segment in bytes. | |
| 1244 int initialize_data(BytecodeStream* stream, int data_index); | |
| 1245 | |
| 1246 // Helper for data_at | |
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1247 DataLayout* limit_data_position() const { |
| 0 | 1248 return (DataLayout*)((address)data_base() + _data_size); |
| 1249 } | |
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1250 bool out_of_bounds(int data_index) const { |
| 0 | 1251 return data_index >= data_size(); |
| 1252 } | |
| 1253 | |
| 1254 // Give each of the data entries a chance to perform specific | |
| 1255 // data initialization. | |
| 1256 void post_initialize(BytecodeStream* stream); | |
| 1257 | |
| 1258 // hint accessors | |
| 1259 int hint_di() const { return _hint_di; } | |
| 1260 void set_hint_di(int di) { | |
| 1261 assert(!out_of_bounds(di), "hint_di out of bounds"); | |
| 1262 _hint_di = di; | |
| 1263 } | |
| 1264 ProfileData* data_before(int bci) { | |
| 1265 // avoid SEGV on this edge case | |
| 1266 if (data_size() == 0) | |
| 1267 return NULL; | |
| 1268 int hint = hint_di(); | |
| 1269 if (data_layout_at(hint)->bci() <= bci) | |
| 1270 return data_at(hint); | |
| 1271 return first_data(); | |
| 1272 } | |
| 1273 | |
| 1274 // What is the index of the first data entry? | |
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1275 int first_di() const { return 0; } |
| 0 | 1276 |
| 1277 // Find or create an extra ProfileData: | |
| 1278 ProfileData* bci_to_extra_data(int bci, bool create_if_missing); | |
| 1279 | |
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1280 // return the argument info cell |
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1281 ArgInfoData *arg_info(); |
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1282 |
| 0 | 1283 public: |
| 1284 static int header_size() { | |
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1285 return sizeof(MethodData)/wordSize; |
| 0 | 1286 } |
| 1287 | |
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1288 // Compute the size of a MethodData* before it is created. |
| 0 | 1289 static int compute_allocation_size_in_bytes(methodHandle method); |
| 1290 static int compute_allocation_size_in_words(methodHandle method); | |
| 1291 static int compute_extra_data_count(int data_size, int empty_bc_count); | |
| 1292 | |
| 1293 // Determine if a given bytecode can have profile information. | |
| 1294 static bool bytecode_has_profile(Bytecodes::Code code) { | |
| 1295 return bytecode_cell_count(code) != no_profile_data; | |
| 1296 } | |
| 1297 | |
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1298 // Perform initialization of a new MethodData* |
| 0 | 1299 void initialize(methodHandle method); |
| 1300 | |
| 1301 // My size | |
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1302 int size_in_bytes() const { return _size; } |
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1303 int size() const { return align_object_size(align_size_up(_size, BytesPerWord)/BytesPerWord); } |
| 0 | 1304 |
| 1305 int creation_mileage() const { return _creation_mileage; } | |
| 1306 void set_creation_mileage(int x) { _creation_mileage = x; } | |
| 1783 | 1307 |
| 1308 int invocation_count() { | |
| 1309 if (invocation_counter()->carry()) { | |
| 1310 return InvocationCounter::count_limit; | |
| 1311 } | |
| 1312 return invocation_counter()->count(); | |
| 1313 } | |
| 1314 int backedge_count() { | |
| 1315 if (backedge_counter()->carry()) { | |
| 1316 return InvocationCounter::count_limit; | |
| 1317 } | |
| 1318 return backedge_counter()->count(); | |
| 1319 } | |
| 1320 | |
| 2252 | 1321 int invocation_count_start() { |
| 1322 if (invocation_counter()->carry()) { | |
| 1323 return 0; | |
| 1324 } | |
| 1325 return _invocation_counter_start; | |
| 1326 } | |
| 1327 | |
| 1328 int backedge_count_start() { | |
| 1329 if (backedge_counter()->carry()) { | |
| 1330 return 0; | |
| 1331 } | |
| 1332 return _backedge_counter_start; | |
| 1333 } | |
| 1334 | |
| 1335 int invocation_count_delta() { return invocation_count() - invocation_count_start(); } | |
| 1336 int backedge_count_delta() { return backedge_count() - backedge_count_start(); } | |
| 1337 | |
| 1338 void reset_start_counters() { | |
| 1339 _invocation_counter_start = invocation_count(); | |
| 1340 _backedge_counter_start = backedge_count(); | |
| 1341 } | |
| 1342 | |
| 1783 | 1343 InvocationCounter* invocation_counter() { return &_invocation_counter; } |
| 1344 InvocationCounter* backedge_counter() { return &_backedge_counter; } | |
| 1345 | |
| 1346 void set_would_profile(bool p) { _would_profile = p; } | |
| 1347 bool would_profile() const { return _would_profile; } | |
| 1348 | |
| 1349 int highest_comp_level() { return _highest_comp_level; } | |
| 1350 void set_highest_comp_level(int level) { _highest_comp_level = level; } | |
| 1351 int highest_osr_comp_level() { return _highest_osr_comp_level; } | |
| 1352 void set_highest_osr_comp_level(int level) { _highest_osr_comp_level = level; } | |
| 1353 | |
| 1354 int num_loops() const { return _num_loops; } | |
| 1355 void set_num_loops(int n) { _num_loops = n; } | |
| 1356 int num_blocks() const { return _num_blocks; } | |
| 1357 void set_num_blocks(int n) { _num_blocks = n; } | |
| 1358 | |
| 0 | 1359 bool is_mature() const; // consult mileage and ProfileMaturityPercentage |
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1360 static int mileage_of(Method* m); |
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1361 static bool is_empty_data(int size, Bytecodes::Code code); |
| 0 | 1362 |
| 1363 // Support for interprocedural escape analysis, from Thomas Kotzmann. | |
| 1364 enum EscapeFlag { | |
| 1365 estimated = 1 << 0, | |
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1366 return_local = 1 << 1, |
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1367 return_allocated = 1 << 2, |
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1368 allocated_escapes = 1 << 3, |
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1369 unknown_modified = 1 << 4 |
| 0 | 1370 }; |
| 1371 | |
| 1372 intx eflags() { return _eflags; } | |
| 1373 intx arg_local() { return _arg_local; } | |
| 1374 intx arg_stack() { return _arg_stack; } | |
| 1375 intx arg_returned() { return _arg_returned; } | |
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1376 uint arg_modified(int a) { ArgInfoData *aid = arg_info(); |
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1377 assert(a >= 0 && a < aid->number_of_args(), "valid argument number"); |
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1378 return aid->arg_modified(a); } |
| 0 | 1379 |
| 1380 void set_eflags(intx v) { _eflags = v; } | |
| 1381 void set_arg_local(intx v) { _arg_local = v; } | |
| 1382 void set_arg_stack(intx v) { _arg_stack = v; } | |
| 1383 void set_arg_returned(intx v) { _arg_returned = v; } | |
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1384 void set_arg_modified(int a, uint v) { ArgInfoData *aid = arg_info(); |
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1385 assert(a >= 0 && a < aid->number_of_args(), "valid argument number"); |
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1386 |
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1387 aid->set_arg_modified(a, v); } |
| 0 | 1388 |
| 1389 void clear_escape_info() { _eflags = _arg_local = _arg_stack = _arg_returned = 0; } | |
| 1390 | |
| 1391 // Location and size of data area | |
| 1392 address data_base() const { | |
| 1393 return (address) _data; | |
| 1394 } | |
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1395 int data_size() const { |
| 0 | 1396 return _data_size; |
| 1397 } | |
| 1398 | |
| 1399 // Accessors | |
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1400 Method* method() const { return _method; } |
| 0 | 1401 |
| 1402 // Get the data at an arbitrary (sort of) data index. | |
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1403 ProfileData* data_at(int data_index) const; |
| 0 | 1404 |
| 1405 // Walk through the data in order. | |
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1406 ProfileData* first_data() const { return data_at(first_di()); } |
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1407 ProfileData* next_data(ProfileData* current) const; |
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1408 bool is_valid(ProfileData* current) const { return current != NULL; } |
| 0 | 1409 |
| 1410 // Convert a dp (data pointer) to a di (data index). | |
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1411 int dp_to_di(address dp) const { |
| 0 | 1412 return dp - ((address)_data); |
| 1413 } | |
| 1414 | |
| 1415 address di_to_dp(int di) { | |
| 1416 return (address)data_layout_at(di); | |
| 1417 } | |
| 1418 | |
| 1419 // bci to di/dp conversion. | |
| 1420 address bci_to_dp(int bci); | |
| 1421 int bci_to_di(int bci) { | |
| 1422 return dp_to_di(bci_to_dp(bci)); | |
| 1423 } | |
| 1424 | |
| 1425 // Get the data at an arbitrary bci, or NULL if there is none. | |
| 1426 ProfileData* bci_to_data(int bci); | |
| 1427 | |
| 1428 // Same, but try to create an extra_data record if one is needed: | |
| 1429 ProfileData* allocate_bci_to_data(int bci) { | |
| 1430 ProfileData* data = bci_to_data(bci); | |
| 1431 return (data != NULL) ? data : bci_to_extra_data(bci, true); | |
| 1432 } | |
| 1433 | |
| 1434 // Add a handful of extra data records, for trap tracking. | |
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1435 DataLayout* extra_data_base() const { return limit_data_position(); } |
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1436 DataLayout* extra_data_limit() const { return (DataLayout*)((address)this + size_in_bytes()); } |
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1437 int extra_data_size() const { return (address)extra_data_limit() |
| 0 | 1438 - (address)extra_data_base(); } |
| 1439 static DataLayout* next_extra(DataLayout* dp) { return (DataLayout*)((address)dp + in_bytes(DataLayout::cell_offset(0))); } | |
| 1440 | |
| 1441 // Return (uint)-1 for overflow. | |
| 1442 uint trap_count(int reason) const { | |
| 1443 assert((uint)reason < _trap_hist_limit, "oob"); | |
| 1444 return (int)((_trap_hist._array[reason]+1) & _trap_hist_mask) - 1; | |
| 1445 } | |
| 1446 // For loops: | |
| 1447 static uint trap_reason_limit() { return _trap_hist_limit; } | |
| 1448 static uint trap_count_limit() { return _trap_hist_mask; } | |
| 1449 uint inc_trap_count(int reason) { | |
| 1450 // Count another trap, anywhere in this method. | |
| 1451 assert(reason >= 0, "must be single trap"); | |
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1452 assert((uint)reason < _trap_hist_limit, "oob"); |
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1453 uint cnt1 = 1 + _trap_hist._array[reason]; |
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1454 if ((cnt1 & _trap_hist_mask) != 0) { // if no counter overflow... |
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1455 _trap_hist._array[reason] = cnt1; |
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1456 return cnt1; |
| 0 | 1457 } else { |
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1458 return _trap_hist_mask + (++_nof_overflow_traps); |
| 0 | 1459 } |
| 1460 } | |
| 1461 | |
| 1462 uint overflow_trap_count() const { | |
| 1463 return _nof_overflow_traps; | |
| 1464 } | |
| 1465 uint overflow_recompile_count() const { | |
| 1466 return _nof_overflow_recompiles; | |
| 1467 } | |
| 1468 void inc_overflow_recompile_count() { | |
| 1469 _nof_overflow_recompiles += 1; | |
| 1470 } | |
| 1471 uint decompile_count() const { | |
| 1472 return _nof_decompiles; | |
| 1473 } | |
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1474 void inc_decompile_count(); |
| 0 | 1475 |
| 1476 // Support for code generation | |
| 1477 static ByteSize data_offset() { | |
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1478 return byte_offset_of(MethodData, _data[0]); |
| 0 | 1479 } |
| 1480 | |
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1481 static ByteSize trap_history_offset() { |
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1482 return byte_offset_of(MethodData, _trap_hist._array); |
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1483 } |
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1484 |
| 1783 | 1485 static ByteSize invocation_counter_offset() { |
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1486 return byte_offset_of(MethodData, _invocation_counter); |
| 1783 | 1487 } |
| 1488 static ByteSize backedge_counter_offset() { | |
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1489 return byte_offset_of(MethodData, _backedge_counter); |
| 1783 | 1490 } |
| 1491 | |
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1492 // Deallocation support - no pointer fields to deallocate |
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1493 void deallocate_contents(ClassLoaderData* loader_data) {} |
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1494 |
| 0 | 1495 // GC support |
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1496 void set_size(int object_size_in_bytes) { _size = object_size_in_bytes; } |
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1497 |
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1498 // Printing |
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1499 #ifndef PRODUCT |
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1500 void print_on (outputStream* st) const; |
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1501 #endif |
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1502 void print_value_on(outputStream* st) const; |
| 0 | 1503 |
| 1504 #ifndef PRODUCT | |
| 1505 // printing support for method data | |
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1506 void print_data_on(outputStream* st) const; |
| 0 | 1507 #endif |
| 1508 | |
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1509 const char* internal_name() const { return "{method data}"; } |
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1510 |
| 0 | 1511 // verification |
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1512 void verify_on(outputStream* st); |
| 0 | 1513 void verify_data_on(outputStream* st); |
| 1514 }; | |
| 1972 | 1515 |
| 1516 #endif // SHARE_VM_OOPS_METHODDATAOOP_HPP |