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src/share/vm/ci/ciMethodData.hpp@eef07cd490d4 (annotated)

src/share/vm/ci/ciMethodData.hpp

Wed, 03 Jul 2019 20:42:37 +0800

author
aoqi
date
Wed, 03 Jul 2019 20:42:37 +0800
changeset 9637
eef07cd490d4
parent 7535
7ae4e26cb1e0
permissions
-rw-r--r--

Merge

aoqi@0 1 /*
aoqi@0 2 * Copyright (c) 2001, 2013, Oracle and/or its affiliates. All rights reserved.
aoqi@0 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
aoqi@0 4 *
aoqi@0 5 * This code is free software; you can redistribute it and/or modify it
aoqi@0 6 * under the terms of the GNU General Public License version 2 only, as
aoqi@0 7 * published by the Free Software Foundation.
aoqi@0 8 *
aoqi@0 9 * This code is distributed in the hope that it will be useful, but WITHOUT
aoqi@0 10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
aoqi@0 11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
aoqi@0 12 * version 2 for more details (a copy is included in the LICENSE file that
aoqi@0 13 * accompanied this code).
aoqi@0 14 *
aoqi@0 15 * You should have received a copy of the GNU General Public License version
aoqi@0 16 * 2 along with this work; if not, write to the Free Software Foundation,
aoqi@0 17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
aoqi@0 18 *
aoqi@0 19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
aoqi@0 20 * or visit www.oracle.com if you need additional information or have any
aoqi@0 21 * questions.
aoqi@0 22 *
aoqi@0 23 */
aoqi@0 24
aoqi@0 25 #ifndef SHARE_VM_CI_CIMETHODDATA_HPP
aoqi@0 26 #define SHARE_VM_CI_CIMETHODDATA_HPP
aoqi@0 27
aoqi@0 28 #include "ci/ciClassList.hpp"
aoqi@0 29 #include "ci/ciKlass.hpp"
aoqi@0 30 #include "ci/ciObject.hpp"
aoqi@0 31 #include "ci/ciUtilities.hpp"
aoqi@0 32 #include "oops/methodData.hpp"
aoqi@0 33 #include "oops/oop.inline.hpp"
aoqi@0 34 #include "runtime/deoptimization.hpp"
aoqi@0 35
aoqi@0 36 class ciBitData;
aoqi@0 37 class ciCounterData;
aoqi@0 38 class ciJumpData;
aoqi@0 39 class ciReceiverTypeData;
aoqi@0 40 class ciRetData;
aoqi@0 41 class ciBranchData;
aoqi@0 42 class ciArrayData;
aoqi@0 43 class ciMultiBranchData;
aoqi@0 44 class ciArgInfoData;
aoqi@0 45 class ciCallTypeData;
aoqi@0 46 class ciVirtualCallTypeData;
aoqi@0 47 class ciParametersTypeData;
aoqi@0 48 class ciSpeculativeTrapData;;
aoqi@0 49
aoqi@0 50 typedef ProfileData ciProfileData;
aoqi@0 51
aoqi@0 52 class ciBitData : public BitData {
aoqi@0 53 public:
aoqi@0 54 ciBitData(DataLayout* layout) : BitData(layout) {};
aoqi@0 55 };
aoqi@0 56
aoqi@0 57 class ciCounterData : public CounterData {
aoqi@0 58 public:
aoqi@0 59 ciCounterData(DataLayout* layout) : CounterData(layout) {};
aoqi@0 60 };
aoqi@0 61
aoqi@0 62 class ciJumpData : public JumpData {
aoqi@0 63 public:
aoqi@0 64 ciJumpData(DataLayout* layout) : JumpData(layout) {};
aoqi@0 65 };
aoqi@0 66
aoqi@0 67 class ciTypeEntries {
aoqi@0 68 protected:
aoqi@0 69 static intptr_t translate_klass(intptr_t k) {
aoqi@0 70 Klass* v = TypeEntries::valid_klass(k);
aoqi@0 71 if (v != NULL) {
aoqi@0 72 ciKlass* klass = CURRENT_ENV->get_klass(v);
stefank@6992 73 CURRENT_ENV->ensure_metadata_alive(klass);
aoqi@0 74 return with_status(klass, k);
aoqi@0 75 }
aoqi@0 76 return with_status(NULL, k);
aoqi@0 77 }
aoqi@0 78
aoqi@0 79 public:
aoqi@0 80 static ciKlass* valid_ciklass(intptr_t k) {
aoqi@0 81 if (!TypeEntries::is_type_none(k) &&
aoqi@0 82 !TypeEntries::is_type_unknown(k)) {
aoqi@0 83 ciKlass* res = (ciKlass*)TypeEntries::klass_part(k);
aoqi@0 84 assert(res != NULL, "invalid");
aoqi@0 85 return res;
aoqi@0 86 } else {
aoqi@0 87 return NULL;
aoqi@0 88 }
aoqi@0 89 }
aoqi@0 90
aoqi@0 91 static intptr_t with_status(ciKlass* k, intptr_t in) {
aoqi@0 92 return TypeEntries::with_status((intptr_t)k, in);
aoqi@0 93 }
aoqi@0 94
aoqi@0 95 #ifndef PRODUCT
aoqi@0 96 static void print_ciklass(outputStream* st, intptr_t k);
aoqi@0 97 #endif
aoqi@0 98 };
aoqi@0 99
aoqi@0 100 class ciTypeStackSlotEntries : public TypeStackSlotEntries, ciTypeEntries {
aoqi@0 101 public:
aoqi@0 102 void translate_type_data_from(const TypeStackSlotEntries* args);
aoqi@0 103
aoqi@0 104 ciKlass* valid_type(int i) const {
aoqi@0 105 return valid_ciklass(type(i));
aoqi@0 106 }
aoqi@0 107
aoqi@0 108 bool maybe_null(int i) const {
aoqi@0 109 return was_null_seen(type(i));
aoqi@0 110 }
aoqi@0 111
aoqi@0 112 #ifndef PRODUCT
aoqi@0 113 void print_data_on(outputStream* st) const;
aoqi@0 114 #endif
aoqi@0 115 };
aoqi@0 116
aoqi@0 117 class ciReturnTypeEntry : public ReturnTypeEntry, ciTypeEntries {
aoqi@0 118 public:
aoqi@0 119 void translate_type_data_from(const ReturnTypeEntry* ret);
aoqi@0 120
aoqi@0 121 ciKlass* valid_type() const {
aoqi@0 122 return valid_ciklass(type());
aoqi@0 123 }
aoqi@0 124
aoqi@0 125 bool maybe_null() const {
aoqi@0 126 return was_null_seen(type());
aoqi@0 127 }
aoqi@0 128
aoqi@0 129 #ifndef PRODUCT
aoqi@0 130 void print_data_on(outputStream* st) const;
aoqi@0 131 #endif
aoqi@0 132 };
aoqi@0 133
aoqi@0 134 class ciCallTypeData : public CallTypeData {
aoqi@0 135 public:
aoqi@0 136 ciCallTypeData(DataLayout* layout) : CallTypeData(layout) {}
aoqi@0 137
aoqi@0 138 ciTypeStackSlotEntries* args() const { return (ciTypeStackSlotEntries*)CallTypeData::args(); }
aoqi@0 139 ciReturnTypeEntry* ret() const { return (ciReturnTypeEntry*)CallTypeData::ret(); }
aoqi@0 140
aoqi@0 141 void translate_from(const ProfileData* data) {
aoqi@0 142 if (has_arguments()) {
aoqi@0 143 args()->translate_type_data_from(data->as_CallTypeData()->args());
aoqi@0 144 }
aoqi@0 145 if (has_return()) {
aoqi@0 146 ret()->translate_type_data_from(data->as_CallTypeData()->ret());
aoqi@0 147 }
aoqi@0 148 }
aoqi@0 149
aoqi@0 150 intptr_t argument_type(int i) const {
aoqi@0 151 assert(has_arguments(), "no arg type profiling data");
aoqi@0 152 return args()->type(i);
aoqi@0 153 }
aoqi@0 154
aoqi@0 155 ciKlass* valid_argument_type(int i) const {
aoqi@0 156 assert(has_arguments(), "no arg type profiling data");
aoqi@0 157 return args()->valid_type(i);
aoqi@0 158 }
aoqi@0 159
aoqi@0 160 intptr_t return_type() const {
aoqi@0 161 assert(has_return(), "no ret type profiling data");
aoqi@0 162 return ret()->type();
aoqi@0 163 }
aoqi@0 164
aoqi@0 165 ciKlass* valid_return_type() const {
aoqi@0 166 assert(has_return(), "no ret type profiling data");
aoqi@0 167 return ret()->valid_type();
aoqi@0 168 }
aoqi@0 169
aoqi@0 170 bool argument_maybe_null(int i) const {
aoqi@0 171 return args()->maybe_null(i);
aoqi@0 172 }
aoqi@0 173
aoqi@0 174 bool return_maybe_null() const {
aoqi@0 175 return ret()->maybe_null();
aoqi@0 176 }
aoqi@0 177
aoqi@0 178 #ifndef PRODUCT
aoqi@0 179 void print_data_on(outputStream* st, const char* extra) const;
aoqi@0 180 #endif
aoqi@0 181 };
aoqi@0 182
aoqi@0 183 class ciReceiverTypeData : public ReceiverTypeData {
aoqi@0 184 public:
aoqi@0 185 ciReceiverTypeData(DataLayout* layout) : ReceiverTypeData(layout) {};
aoqi@0 186
aoqi@0 187 void set_receiver(uint row, ciKlass* recv) {
aoqi@0 188 assert((uint)row < row_limit(), "oob");
aoqi@0 189 set_intptr_at(receiver0_offset + row * receiver_type_row_cell_count,
aoqi@0 190 (intptr_t) recv);
aoqi@0 191 }
aoqi@0 192
aoqi@0 193 ciKlass* receiver(uint row) const {
aoqi@0 194 assert((uint)row < row_limit(), "oob");
aoqi@0 195 ciKlass* recv = (ciKlass*)intptr_at(receiver0_offset + row * receiver_type_row_cell_count);
aoqi@0 196 assert(recv == NULL || recv->is_klass(), "wrong type");
aoqi@0 197 return recv;
aoqi@0 198 }
aoqi@0 199
aoqi@0 200 // Copy & translate from oop based ReceiverTypeData
aoqi@0 201 virtual void translate_from(const ProfileData* data) {
aoqi@0 202 translate_receiver_data_from(data);
aoqi@0 203 }
aoqi@0 204 void translate_receiver_data_from(const ProfileData* data);
aoqi@0 205 #ifndef PRODUCT
aoqi@0 206 void print_data_on(outputStream* st, const char* extra) const;
aoqi@0 207 void print_receiver_data_on(outputStream* st) const;
aoqi@0 208 #endif
aoqi@0 209 };
aoqi@0 210
aoqi@0 211 class ciVirtualCallData : public VirtualCallData {
aoqi@0 212 // Fake multiple inheritance... It's a ciReceiverTypeData also.
aoqi@0 213 ciReceiverTypeData* rtd_super() const { return (ciReceiverTypeData*) this; }
aoqi@0 214
aoqi@0 215 public:
aoqi@0 216 ciVirtualCallData(DataLayout* layout) : VirtualCallData(layout) {};
aoqi@0 217
aoqi@0 218 void set_receiver(uint row, ciKlass* recv) {
aoqi@0 219 rtd_super()->set_receiver(row, recv);
aoqi@0 220 }
aoqi@0 221
aoqi@0 222 ciKlass* receiver(uint row) {
aoqi@0 223 return rtd_super()->receiver(row);
aoqi@0 224 }
aoqi@0 225
aoqi@0 226 // Copy & translate from oop based VirtualCallData
aoqi@0 227 virtual void translate_from(const ProfileData* data) {
aoqi@0 228 rtd_super()->translate_receiver_data_from(data);
aoqi@0 229 }
aoqi@0 230 #ifndef PRODUCT
aoqi@0 231 void print_data_on(outputStream* st, const char* extra) const;
aoqi@0 232 #endif
aoqi@0 233 };
aoqi@0 234
aoqi@0 235 class ciVirtualCallTypeData : public VirtualCallTypeData {
aoqi@0 236 private:
aoqi@0 237 // Fake multiple inheritance... It's a ciReceiverTypeData also.
aoqi@0 238 ciReceiverTypeData* rtd_super() const { return (ciReceiverTypeData*) this; }
aoqi@0 239 public:
aoqi@0 240 ciVirtualCallTypeData(DataLayout* layout) : VirtualCallTypeData(layout) {}
aoqi@0 241
aoqi@0 242 void set_receiver(uint row, ciKlass* recv) {
aoqi@0 243 rtd_super()->set_receiver(row, recv);
aoqi@0 244 }
aoqi@0 245
aoqi@0 246 ciKlass* receiver(uint row) const {
aoqi@0 247 return rtd_super()->receiver(row);
aoqi@0 248 }
aoqi@0 249
aoqi@0 250 ciTypeStackSlotEntries* args() const { return (ciTypeStackSlotEntries*)VirtualCallTypeData::args(); }
aoqi@0 251 ciReturnTypeEntry* ret() const { return (ciReturnTypeEntry*)VirtualCallTypeData::ret(); }
aoqi@0 252
aoqi@0 253 // Copy & translate from oop based VirtualCallData
aoqi@0 254 virtual void translate_from(const ProfileData* data) {
aoqi@0 255 rtd_super()->translate_receiver_data_from(data);
aoqi@0 256 if (has_arguments()) {
aoqi@0 257 args()->translate_type_data_from(data->as_VirtualCallTypeData()->args());
aoqi@0 258 }
aoqi@0 259 if (has_return()) {
aoqi@0 260 ret()->translate_type_data_from(data->as_VirtualCallTypeData()->ret());
aoqi@0 261 }
aoqi@0 262 }
aoqi@0 263
aoqi@0 264 intptr_t argument_type(int i) const {
aoqi@0 265 assert(has_arguments(), "no arg type profiling data");
aoqi@0 266 return args()->type(i);
aoqi@0 267 }
aoqi@0 268
aoqi@0 269 ciKlass* valid_argument_type(int i) const {
aoqi@0 270 assert(has_arguments(), "no arg type profiling data");
aoqi@0 271 return args()->valid_type(i);
aoqi@0 272 }
aoqi@0 273
aoqi@0 274 intptr_t return_type() const {
aoqi@0 275 assert(has_return(), "no ret type profiling data");
aoqi@0 276 return ret()->type();
aoqi@0 277 }
aoqi@0 278
aoqi@0 279 ciKlass* valid_return_type() const {
aoqi@0 280 assert(has_return(), "no ret type profiling data");
aoqi@0 281 return ret()->valid_type();
aoqi@0 282 }
aoqi@0 283
aoqi@0 284 bool argument_maybe_null(int i) const {
aoqi@0 285 return args()->maybe_null(i);
aoqi@0 286 }
aoqi@0 287
aoqi@0 288 bool return_maybe_null() const {
aoqi@0 289 return ret()->maybe_null();
aoqi@0 290 }
aoqi@0 291
aoqi@0 292 #ifndef PRODUCT
aoqi@0 293 void print_data_on(outputStream* st, const char* extra) const;
aoqi@0 294 #endif
aoqi@0 295 };
aoqi@0 296
aoqi@0 297
aoqi@0 298 class ciRetData : public RetData {
aoqi@0 299 public:
aoqi@0 300 ciRetData(DataLayout* layout) : RetData(layout) {};
aoqi@0 301 };
aoqi@0 302
aoqi@0 303 class ciBranchData : public BranchData {
aoqi@0 304 public:
aoqi@0 305 ciBranchData(DataLayout* layout) : BranchData(layout) {};
aoqi@0 306 };
aoqi@0 307
aoqi@0 308 class ciArrayData : public ArrayData {
aoqi@0 309 public:
aoqi@0 310 ciArrayData(DataLayout* layout) : ArrayData(layout) {};
aoqi@0 311 };
aoqi@0 312
aoqi@0 313 class ciMultiBranchData : public MultiBranchData {
aoqi@0 314 public:
aoqi@0 315 ciMultiBranchData(DataLayout* layout) : MultiBranchData(layout) {};
aoqi@0 316 };
aoqi@0 317
aoqi@0 318 class ciArgInfoData : public ArgInfoData {
aoqi@0 319 public:
aoqi@0 320 ciArgInfoData(DataLayout* layout) : ArgInfoData(layout) {};
aoqi@0 321 };
aoqi@0 322
aoqi@0 323 class ciParametersTypeData : public ParametersTypeData {
aoqi@0 324 public:
aoqi@0 325 ciParametersTypeData(DataLayout* layout) : ParametersTypeData(layout) {}
aoqi@0 326
aoqi@0 327 virtual void translate_from(const ProfileData* data) {
aoqi@0 328 parameters()->translate_type_data_from(data->as_ParametersTypeData()->parameters());
aoqi@0 329 }
aoqi@0 330
aoqi@0 331 ciTypeStackSlotEntries* parameters() const { return (ciTypeStackSlotEntries*)ParametersTypeData::parameters(); }
aoqi@0 332
aoqi@0 333 ciKlass* valid_parameter_type(int i) const {
aoqi@0 334 return parameters()->valid_type(i);
aoqi@0 335 }
aoqi@0 336
aoqi@0 337 bool parameter_maybe_null(int i) const {
aoqi@0 338 return parameters()->maybe_null(i);
aoqi@0 339 }
aoqi@0 340
aoqi@0 341 #ifndef PRODUCT
aoqi@0 342 void print_data_on(outputStream* st, const char* extra) const;
aoqi@0 343 #endif
aoqi@0 344 };
aoqi@0 345
aoqi@0 346 class ciSpeculativeTrapData : public SpeculativeTrapData {
aoqi@0 347 public:
aoqi@0 348 ciSpeculativeTrapData(DataLayout* layout) : SpeculativeTrapData(layout) {}
aoqi@0 349
aoqi@0 350 virtual void translate_from(const ProfileData* data);
aoqi@0 351
aoqi@0 352 ciMethod* method() const {
aoqi@0 353 return (ciMethod*)intptr_at(method_offset);
aoqi@0 354 }
aoqi@0 355
aoqi@0 356 void set_method(ciMethod* m) {
aoqi@0 357 set_intptr_at(method_offset, (intptr_t)m);
aoqi@0 358 }
aoqi@0 359
aoqi@0 360 #ifndef PRODUCT
aoqi@0 361 void print_data_on(outputStream* st, const char* extra) const;
aoqi@0 362 #endif
aoqi@0 363 };
aoqi@0 364
aoqi@0 365 // ciMethodData
aoqi@0 366 //
aoqi@0 367 // This class represents a MethodData* in the HotSpot virtual
aoqi@0 368 // machine.
aoqi@0 369
aoqi@0 370 class ciMethodData : public ciMetadata {
aoqi@0 371 CI_PACKAGE_ACCESS
aoqi@0 372 friend class ciReplay;
aoqi@0 373
aoqi@0 374 private:
aoqi@0 375 // Size in bytes
aoqi@0 376 int _data_size;
aoqi@0 377 int _extra_data_size;
aoqi@0 378
aoqi@0 379 // Data entries
aoqi@0 380 intptr_t* _data;
aoqi@0 381
aoqi@0 382 // Cached hint for data_before()
aoqi@0 383 int _hint_di;
aoqi@0 384
aoqi@0 385 // Is data attached? And is it mature?
aoqi@0 386 enum { empty_state, immature_state, mature_state };
aoqi@0 387 u_char _state;
aoqi@0 388
aoqi@0 389 // Set this true if empty extra_data slots are ever witnessed.
aoqi@0 390 u_char _saw_free_extra_data;
aoqi@0 391
aoqi@0 392 // Support for interprocedural escape analysis
aoqi@0 393 intx _eflags; // flags on escape information
aoqi@0 394 intx _arg_local; // bit set of non-escaping arguments
aoqi@0 395 intx _arg_stack; // bit set of stack-allocatable arguments
aoqi@0 396 intx _arg_returned; // bit set of returned arguments
aoqi@0 397
aoqi@0 398 // Maturity of the oop when the snapshot is taken.
aoqi@0 399 int _current_mileage;
aoqi@0 400
aoqi@0 401 // These counters hold the age of MDO in tiered. In tiered we can have the same method
aoqi@0 402 // running at different compilation levels concurrently. So, in order to precisely measure
aoqi@0 403 // its maturity we need separate counters.
aoqi@0 404 int _invocation_counter;
aoqi@0 405 int _backedge_counter;
aoqi@0 406
aoqi@0 407 // Coherent snapshot of original header.
aoqi@0 408 MethodData _orig;
aoqi@0 409
aoqi@0 410 // Dedicated area dedicated to parameters. Null if no parameter
aoqi@0 411 // profiling for this method.
aoqi@0 412 DataLayout* _parameters;
aoqi@0 413
aoqi@0 414 ciMethodData(MethodData* md);
aoqi@0 415 ciMethodData();
aoqi@0 416
aoqi@0 417 // Accessors
aoqi@0 418 int data_size() const { return _data_size; }
aoqi@0 419 int extra_data_size() const { return _extra_data_size; }
aoqi@0 420 intptr_t * data() const { return _data; }
aoqi@0 421
aoqi@0 422 MethodData* get_MethodData() const {
aoqi@0 423 return (MethodData*)_metadata;
aoqi@0 424 }
aoqi@0 425
aoqi@0 426 const char* type_string() { return "ciMethodData"; }
aoqi@0 427
aoqi@0 428 void print_impl(outputStream* st);
aoqi@0 429
aoqi@0 430 DataLayout* data_layout_at(int data_index) const {
aoqi@0 431 assert(data_index % sizeof(intptr_t) == 0, "unaligned");
aoqi@0 432 return (DataLayout*) (((address)_data) + data_index);
aoqi@0 433 }
aoqi@0 434
aoqi@0 435 bool out_of_bounds(int data_index) {
aoqi@0 436 return data_index >= data_size();
aoqi@0 437 }
aoqi@0 438
aoqi@0 439 // hint accessors
aoqi@0 440 int hint_di() const { return _hint_di; }
aoqi@0 441 void set_hint_di(int di) {
aoqi@0 442 assert(!out_of_bounds(di), "hint_di out of bounds");
aoqi@0 443 _hint_di = di;
aoqi@0 444 }
aoqi@0 445 ciProfileData* data_before(int bci) {
aoqi@0 446 // avoid SEGV on this edge case
aoqi@0 447 if (data_size() == 0)
aoqi@0 448 return NULL;
aoqi@0 449 int hint = hint_di();
aoqi@0 450 if (data_layout_at(hint)->bci() <= bci)
aoqi@0 451 return data_at(hint);
aoqi@0 452 return first_data();
aoqi@0 453 }
aoqi@0 454
aoqi@0 455
aoqi@0 456 // What is the index of the first data entry?
aoqi@0 457 int first_di() { return 0; }
aoqi@0 458
aoqi@0 459 ciArgInfoData *arg_info() const;
aoqi@0 460
aoqi@0 461 address data_base() const {
aoqi@0 462 return (address) _data;
aoqi@0 463 }
aoqi@0 464 DataLayout* limit_data_position() const {
aoqi@0 465 return (DataLayout*)((address)data_base() + _data_size);
aoqi@0 466 }
aoqi@0 467
aoqi@0 468 void load_extra_data();
aoqi@0 469 ciProfileData* bci_to_extra_data(int bci, ciMethod* m, bool& two_free_slots);
aoqi@0 470
aoqi@0 471 public:
aoqi@0 472 bool is_method_data() const { return true; }
aoqi@0 473
aoqi@0 474 bool is_empty() { return _state == empty_state; }
aoqi@0 475 bool is_mature() { return _state == mature_state; }
aoqi@0 476
aoqi@0 477 int creation_mileage() { return _orig.creation_mileage(); }
aoqi@0 478 int current_mileage() { return _current_mileage; }
aoqi@0 479
aoqi@0 480 int invocation_count() { return _invocation_counter; }
aoqi@0 481 int backedge_count() { return _backedge_counter; }
aoqi@0 482
aoqi@0 483 #if INCLUDE_RTM_OPT
aoqi@0 484 // return cached value
aoqi@0 485 int rtm_state() {
aoqi@0 486 if (is_empty()) {
aoqi@0 487 return NoRTM;
aoqi@0 488 } else {
aoqi@0 489 return get_MethodData()->rtm_state();
aoqi@0 490 }
aoqi@0 491 }
aoqi@0 492 #endif
aoqi@0 493
aoqi@0 494 // Transfer information about the method to MethodData*.
aoqi@0 495 // would_profile means we would like to profile this method,
aoqi@0 496 // meaning it's not trivial.
aoqi@0 497 void set_would_profile(bool p);
aoqi@0 498 // Also set the numer of loops and blocks in the method.
aoqi@0 499 // Again, this is used to determine if a method is trivial.
aoqi@0 500 void set_compilation_stats(short loops, short blocks);
aoqi@0 501 // If the compiler finds a profiled type that is known statically
aoqi@0 502 // for sure, set it in the MethodData
aoqi@0 503 void set_argument_type(int bci, int i, ciKlass* k);
aoqi@0 504 void set_parameter_type(int i, ciKlass* k);
aoqi@0 505 void set_return_type(int bci, ciKlass* k);
aoqi@0 506
aoqi@0 507 void load_data();
aoqi@0 508
aoqi@0 509 // Convert a dp (data pointer) to a di (data index).
aoqi@0 510 int dp_to_di(address dp) {
aoqi@0 511 return dp - ((address)_data);
aoqi@0 512 }
aoqi@0 513
aoqi@0 514 // Get the data at an arbitrary (sort of) data index.
aoqi@0 515 ciProfileData* data_at(int data_index);
aoqi@0 516
aoqi@0 517 // Walk through the data in order.
aoqi@0 518 ciProfileData* first_data() { return data_at(first_di()); }
aoqi@0 519 ciProfileData* next_data(ciProfileData* current);
aoqi@0 520 bool is_valid(ciProfileData* current) { return current != NULL; }
aoqi@0 521
aoqi@0 522 DataLayout* extra_data_base() const { return limit_data_position(); }
aoqi@0 523
aoqi@0 524 // Get the data at an arbitrary bci, or NULL if there is none. If m
aoqi@0 525 // is not NULL look for a SpeculativeTrapData if any first.
aoqi@0 526 ciProfileData* bci_to_data(int bci, ciMethod* m = NULL);
aoqi@0 527
aoqi@0 528 uint overflow_trap_count() const {
aoqi@0 529 return _orig.overflow_trap_count();
aoqi@0 530 }
aoqi@0 531 uint overflow_recompile_count() const {
aoqi@0 532 return _orig.overflow_recompile_count();
aoqi@0 533 }
aoqi@0 534 uint decompile_count() const {
aoqi@0 535 return _orig.decompile_count();
aoqi@0 536 }
aoqi@0 537 uint trap_count(int reason) const {
aoqi@0 538 return _orig.trap_count(reason);
aoqi@0 539 }
aoqi@0 540 uint trap_reason_limit() const { return _orig.trap_reason_limit(); }
aoqi@0 541 uint trap_count_limit() const { return _orig.trap_count_limit(); }
aoqi@0 542
aoqi@0 543 // Helpful query functions that decode trap_state.
aoqi@0 544 int has_trap_at(ciProfileData* data, int reason);
aoqi@0 545 int has_trap_at(int bci, ciMethod* m, int reason) {
aoqi@0 546 assert((m != NULL) == Deoptimization::reason_is_speculate(reason), "inconsistent method/reason");
aoqi@0 547 return has_trap_at(bci_to_data(bci, m), reason);
aoqi@0 548 }
aoqi@0 549 int trap_recompiled_at(ciProfileData* data);
aoqi@0 550 int trap_recompiled_at(int bci, ciMethod* m) {
aoqi@0 551 return trap_recompiled_at(bci_to_data(bci, m));
aoqi@0 552 }
aoqi@0 553
aoqi@0 554 void clear_escape_info();
aoqi@0 555 bool has_escape_info();
aoqi@0 556 void update_escape_info();
aoqi@0 557
aoqi@0 558 void set_eflag(MethodData::EscapeFlag f);
aoqi@0 559 void clear_eflag(MethodData::EscapeFlag f);
aoqi@0 560 bool eflag_set(MethodData::EscapeFlag f) const;
aoqi@0 561
aoqi@0 562 void set_arg_local(int i);
aoqi@0 563 void set_arg_stack(int i);
aoqi@0 564 void set_arg_returned(int i);
aoqi@0 565 void set_arg_modified(int arg, uint val);
aoqi@0 566
aoqi@0 567 bool is_arg_local(int i) const;
aoqi@0 568 bool is_arg_stack(int i) const;
aoqi@0 569 bool is_arg_returned(int i) const;
aoqi@0 570 uint arg_modified(int arg) const;
aoqi@0 571
aoqi@0 572 ciParametersTypeData* parameters_type_data() const {
aoqi@0 573 return _parameters != NULL ? new ciParametersTypeData(_parameters) : NULL;
aoqi@0 574 }
aoqi@0 575
aoqi@0 576 // Code generation helper
aoqi@0 577 ByteSize offset_of_slot(ciProfileData* data, ByteSize slot_offset_in_data);
aoqi@0 578 int byte_offset_of_slot(ciProfileData* data, ByteSize slot_offset_in_data) { return in_bytes(offset_of_slot(data, slot_offset_in_data)); }
aoqi@0 579
aoqi@0 580 #ifndef PRODUCT
aoqi@0 581 // printing support for method data
aoqi@0 582 void print();
aoqi@0 583 void print_data_on(outputStream* st);
aoqi@0 584 #endif
aoqi@0 585 void dump_replay_data(outputStream* out);
aoqi@0 586 };
aoqi@0 587
aoqi@0 588 #endif // SHARE_VM_CI_CIMETHODDATA_HPP

Mercurial Repository: jdk8-mips64-public/hotspot

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