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Issue 2132833002: Make core snapshot word-size portable again. (Closed) Base URL: git@github.com:dart-lang/sdk.git@master
Patch Set: constants Created 4 years, 5 months ago
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1 // Copyright (c) 2016, the Dart project authors. Please see the AUTHORS file 1 // Copyright (c) 2016, the Dart project authors. Please see the AUTHORS file
2 // for details. All rights reserved. Use of this source code is governed by a 2 // for details. All rights reserved. Use of this source code is governed by a
3 // BSD-style license that can be found in the LICENSE file. 3 // BSD-style license that can be found in the LICENSE file.
4 4
5 #include "vm/clustered_snapshot.h" 5 #include "vm/clustered_snapshot.h"
6 6
7 #include "platform/assert.h" 7 #include "platform/assert.h"
8 #include "vm/bootstrap.h" 8 #include "vm/bootstrap.h"
9 #include "vm/class_finalizer.h" 9 #include "vm/class_finalizer.h"
10 #include "vm/dart.h" 10 #include "vm/dart.h"
(...skipping 60 matching lines...) Expand 10 before | Expand all | Expand 10 after
71 RawObject** from = cls->from(); 71 RawObject** from = cls->from();
72 RawObject** to = cls->to_snapshot(s->kind()); 72 RawObject** to = cls->to_snapshot(s->kind());
73 for (RawObject** p = from; p <= to; p++) { 73 for (RawObject** p = from; p <= to; p++) {
74 s->Push(*p); 74 s->Push(*p);
75 } 75 }
76 } 76 }
77 77
78 void WriteAlloc(Serializer* s) { 78 void WriteAlloc(Serializer* s) {
79 s->WriteCid(kClassCid); 79 s->WriteCid(kClassCid);
80 intptr_t count = predefined_.length(); 80 intptr_t count = predefined_.length();
81 s->Write<intptr_t>(count); 81 s->Write<int32_t>(count);
82 for (intptr_t i = 0; i < count; i++) { 82 for (intptr_t i = 0; i < count; i++) {
83 RawClass* cls = predefined_[i]; 83 RawClass* cls = predefined_[i];
84 intptr_t class_id = cls->ptr()->id_; 84 intptr_t class_id = cls->ptr()->id_;
85 s->Write<intptr_t>(class_id); 85 s->WriteCid(class_id);
86 s->AssignRef(cls); 86 s->AssignRef(cls);
87 } 87 }
88 count = objects_.length(); 88 count = objects_.length();
89 s->Write<intptr_t>(count); 89 s->Write<int32_t>(count);
90 for (intptr_t i = 0; i < count; i++) { 90 for (intptr_t i = 0; i < count; i++) {
91 RawClass* cls = objects_[i]; 91 RawClass* cls = objects_[i];
92 s->AssignRef(cls); 92 s->AssignRef(cls);
93 } 93 }
94 } 94 }
95 95
96 void WriteFill(Serializer* s) { 96 void WriteFill(Serializer* s) {
97 intptr_t count = predefined_.length(); 97 intptr_t count = predefined_.length();
98 for (intptr_t i = 0; i < count; i++) { 98 for (intptr_t i = 0; i < count; i++) {
99 WriteClass(s, predefined_[i]); 99 WriteClass(s, predefined_[i]);
(...skipping 30 matching lines...) Expand all
130 130
131 131
132 class ClassDeserializationCluster : public DeserializationCluster { 132 class ClassDeserializationCluster : public DeserializationCluster {
133 public: 133 public:
134 ClassDeserializationCluster() { } 134 ClassDeserializationCluster() { }
135 virtual ~ClassDeserializationCluster() { } 135 virtual ~ClassDeserializationCluster() { }
136 136
137 void ReadAlloc(Deserializer* d) { 137 void ReadAlloc(Deserializer* d) {
138 predefined_start_index_ = d->next_index(); 138 predefined_start_index_ = d->next_index();
139 PageSpace* old_space = d->heap()->old_space(); 139 PageSpace* old_space = d->heap()->old_space();
140 intptr_t count = d->Read<intptr_t>(); 140 intptr_t count = d->Read<int32_t>();
141 ClassTable* table = d->isolate()->class_table(); 141 ClassTable* table = d->isolate()->class_table();
142 for (intptr_t i = 0; i < count; i++) { 142 for (intptr_t i = 0; i < count; i++) {
143 intptr_t class_id = d->Read<intptr_t>(); 143 intptr_t class_id = d->ReadCid();
144 ASSERT(table->HasValidClassAt(class_id)); 144 ASSERT(table->HasValidClassAt(class_id));
145 RawClass* cls = table->At(class_id); 145 RawClass* cls = table->At(class_id);
146 ASSERT(cls != NULL); 146 ASSERT(cls != NULL);
147 d->AssignRef(cls); 147 d->AssignRef(cls);
148 } 148 }
149 predefined_stop_index_ = d->next_index(); 149 predefined_stop_index_ = d->next_index();
150 150
151 start_index_ = d->next_index(); 151 start_index_ = d->next_index();
152 count = d->Read<intptr_t>(); 152 count = d->Read<int32_t>();
153 for (intptr_t i = 0; i < count; i++) { 153 for (intptr_t i = 0; i < count; i++) {
154 d->AssignRef(AllocateUninitialized(old_space, 154 d->AssignRef(AllocateUninitialized(old_space,
155 Class::InstanceSize())); 155 Class::InstanceSize()));
156 } 156 }
157 stop_index_ = d->next_index(); 157 stop_index_ = d->next_index();
158 } 158 }
159 159
160 void ReadFill(Deserializer* d) { 160 void ReadFill(Deserializer* d) {
161 Snapshot::Kind kind = d->kind(); 161 Snapshot::Kind kind = d->kind();
162 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 162 bool is_vm_object = d->isolate() == Dart::vm_isolate();
163 ClassTable* table = d->isolate()->class_table(); 163 ClassTable* table = d->isolate()->class_table();
164 164
165 for (intptr_t id = predefined_start_index_; 165 for (intptr_t id = predefined_start_index_;
166 id < predefined_stop_index_; 166 id < predefined_stop_index_;
167 id++) { 167 id++) {
168 RawClass* cls = reinterpret_cast<RawClass*>(d->Ref(id)); 168 RawClass* cls = reinterpret_cast<RawClass*>(d->Ref(id));
169 RawObject** from = cls->from(); 169 RawObject** from = cls->from();
170 RawObject** to_snapshot = cls->to_snapshot(kind); 170 RawObject** to_snapshot = cls->to_snapshot(kind);
171 for (RawObject** p = from; p <= to_snapshot; p++) { 171 for (RawObject** p = from; p <= to_snapshot; p++) {
172 *p = d->ReadRef(); 172 *p = d->ReadRef();
173 } 173 }
174 174
175 intptr_t class_id = d->ReadCid(); 175 intptr_t class_id = d->ReadCid();
176 cls->ptr()->id_ = class_id; 176 cls->ptr()->id_ = class_id;
177 cls->ptr()->instance_size_in_words_ = d->Read<int32_t>(); 177 if (!RawObject::IsInternalVMdefinedClassId(class_id)) {
178 cls->ptr()->next_field_offset_in_words_ = d->Read<int32_t>(); 178 cls->ptr()->instance_size_in_words_ = d->Read<int32_t>();
179 cls->ptr()->next_field_offset_in_words_ = d->Read<int32_t>();
180 } else {
181 d->Read<int32_t>(); // Skip.
182 d->Read<int32_t>(); // Skip.
183 }
179 cls->ptr()->type_arguments_field_offset_in_words_ = d->Read<int32_t>(); 184 cls->ptr()->type_arguments_field_offset_in_words_ = d->Read<int32_t>();
180 cls->ptr()->num_type_arguments_ = d->Read<uint16_t>(); 185 cls->ptr()->num_type_arguments_ = d->Read<uint16_t>();
181 cls->ptr()->num_own_type_arguments_ = d->Read<uint16_t>(); 186 cls->ptr()->num_own_type_arguments_ = d->Read<uint16_t>();
182 cls->ptr()->num_native_fields_ = d->Read<uint16_t>(); 187 cls->ptr()->num_native_fields_ = d->Read<uint16_t>();
183 cls->ptr()->token_pos_ = d->ReadTokenPosition(); 188 cls->ptr()->token_pos_ = d->ReadTokenPosition();
184 cls->ptr()->state_bits_ = d->Read<uint16_t>(); 189 cls->ptr()->state_bits_ = d->Read<uint16_t>();
185 } 190 }
186 191
187 for (intptr_t id = start_index_; id < stop_index_; id++) { 192 for (intptr_t id = start_index_; id < stop_index_; id++) {
188 RawClass* cls = reinterpret_cast<RawClass*>(d->Ref(id)); 193 RawClass* cls = reinterpret_cast<RawClass*>(d->Ref(id));
(...skipping 65 matching lines...) Expand 10 before | Expand all | Expand 10 after
254 RawObject** from = cls->from(); 259 RawObject** from = cls->from();
255 RawObject** to = cls->to(); 260 RawObject** to = cls->to();
256 for (RawObject** p = from; p <= to; p++) { 261 for (RawObject** p = from; p <= to; p++) {
257 s->Push(*p); 262 s->Push(*p);
258 } 263 }
259 } 264 }
260 265
261 void WriteAlloc(Serializer* s) { 266 void WriteAlloc(Serializer* s) {
262 s->WriteCid(kUnresolvedClassCid); 267 s->WriteCid(kUnresolvedClassCid);
263 intptr_t count = objects_.length(); 268 intptr_t count = objects_.length();
264 s->Write<intptr_t>(count); 269 s->Write<int32_t>(count);
265 for (intptr_t i = 0; i < count; i++) { 270 for (intptr_t i = 0; i < count; i++) {
266 RawUnresolvedClass* cls = objects_[i]; 271 RawUnresolvedClass* cls = objects_[i];
267 s->AssignRef(cls); 272 s->AssignRef(cls);
268 } 273 }
269 } 274 }
270 275
271 void WriteFill(Serializer* s) { 276 void WriteFill(Serializer* s) {
272 intptr_t count = objects_.length(); 277 intptr_t count = objects_.length();
273 s->Write<intptr_t>(count); 278 s->Write<int32_t>(count);
274 for (intptr_t i = 0; i < count; i++) { 279 for (intptr_t i = 0; i < count; i++) {
275 RawUnresolvedClass* cls = objects_[i]; 280 RawUnresolvedClass* cls = objects_[i];
276 RawObject** from = cls->from(); 281 RawObject** from = cls->from();
277 RawObject** to = cls->to(); 282 RawObject** to = cls->to();
278 for (RawObject** p = from; p <= to; p++) { 283 for (RawObject** p = from; p <= to; p++) {
279 s->WriteRef(*p); 284 s->WriteRef(*p);
280 } 285 }
281 s->WriteTokenPosition(cls->ptr()->token_pos_); 286 s->WriteTokenPosition(cls->ptr()->token_pos_);
282 } 287 }
283 } 288 }
284 289
285 private: 290 private:
286 GrowableArray<RawUnresolvedClass*> objects_; 291 GrowableArray<RawUnresolvedClass*> objects_;
287 }; 292 };
288 293
289 294
290 class UnresolvedClassDeserializationCluster : public DeserializationCluster { 295 class UnresolvedClassDeserializationCluster : public DeserializationCluster {
291 public: 296 public:
292 UnresolvedClassDeserializationCluster() { } 297 UnresolvedClassDeserializationCluster() { }
293 virtual ~UnresolvedClassDeserializationCluster() { } 298 virtual ~UnresolvedClassDeserializationCluster() { }
294 299
295 void ReadAlloc(Deserializer* d) { 300 void ReadAlloc(Deserializer* d) {
296 start_index_ = d->next_index(); 301 start_index_ = d->next_index();
297 PageSpace* old_space = d->heap()->old_space(); 302 PageSpace* old_space = d->heap()->old_space();
298 intptr_t count = d->Read<intptr_t>(); 303 intptr_t count = d->Read<int32_t>();
299 for (intptr_t i = 0; i < count; i++) { 304 for (intptr_t i = 0; i < count; i++) {
300 d->AssignRef(AllocateUninitialized(old_space, 305 d->AssignRef(AllocateUninitialized(old_space,
301 UnresolvedClass::InstanceSize())); 306 UnresolvedClass::InstanceSize()));
302 } 307 }
303 stop_index_ = d->next_index(); 308 stop_index_ = d->next_index();
304 } 309 }
305 310
306 void ReadFill(Deserializer* d) { 311 void ReadFill(Deserializer* d) {
307 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 312 bool is_vm_object = d->isolate() == Dart::vm_isolate();
308 313
(...skipping 26 matching lines...) Expand all
335 s->Push(type_args->ptr()->instantiations_); 340 s->Push(type_args->ptr()->instantiations_);
336 intptr_t length = Smi::Value(type_args->ptr()->length_); 341 intptr_t length = Smi::Value(type_args->ptr()->length_);
337 for (intptr_t i = 0; i < length; i++) { 342 for (intptr_t i = 0; i < length; i++) {
338 s->Push(type_args->ptr()->types()[i]); 343 s->Push(type_args->ptr()->types()[i]);
339 } 344 }
340 } 345 }
341 346
342 void WriteAlloc(Serializer* s) { 347 void WriteAlloc(Serializer* s) {
343 s->WriteCid(kTypeArgumentsCid); 348 s->WriteCid(kTypeArgumentsCid);
344 intptr_t count = objects_.length(); 349 intptr_t count = objects_.length();
345 s->Write<intptr_t>(count); 350 s->Write<int32_t>(count);
siva 2016/07/08 16:25:20 How do you ensure that the count of objects being
rmacnak 2016/07/08 18:08:58 Added check in Serializer::Serialize()
346 for (intptr_t i = 0; i < count; i++) { 351 for (intptr_t i = 0; i < count; i++) {
347 RawTypeArguments* type_args = objects_[i]; 352 RawTypeArguments* type_args = objects_[i];
348 intptr_t length = Smi::Value(type_args->ptr()->length_); 353 intptr_t length = Smi::Value(type_args->ptr()->length_);
349 s->Write<intptr_t>(length); 354 s->Write<int32_t>(length);
350 s->AssignRef(type_args); 355 s->AssignRef(type_args);
351 } 356 }
352 } 357 }
353 358
354 void WriteFill(Serializer* s) { 359 void WriteFill(Serializer* s) {
355 intptr_t count = objects_.length(); 360 intptr_t count = objects_.length();
356 for (intptr_t i = 0; i < count; i++) { 361 for (intptr_t i = 0; i < count; i++) {
357 RawTypeArguments* type_args = objects_[i]; 362 RawTypeArguments* type_args = objects_[i];
358 intptr_t length = Smi::Value(type_args->ptr()->length_); 363 intptr_t length = Smi::Value(type_args->ptr()->length_);
359 s->Write<intptr_t>(length); 364 s->Write<int32_t>(length);
360 s->Write<bool>(type_args->IsCanonical()); 365 s->Write<bool>(type_args->IsCanonical());
361 intptr_t hash = Smi::Value(type_args->ptr()->hash_); 366 intptr_t hash = Smi::Value(type_args->ptr()->hash_);
362 s->Write<int32_t>(hash); 367 s->Write<int32_t>(hash);
363 s->WriteRef(type_args->ptr()->instantiations_); 368 s->WriteRef(type_args->ptr()->instantiations_);
364 for (intptr_t j = 0; j < length; j++) { 369 for (intptr_t j = 0; j < length; j++) {
365 s->WriteRef(type_args->ptr()->types()[j]); 370 s->WriteRef(type_args->ptr()->types()[j]);
366 } 371 }
367 } 372 }
368 } 373 }
369 374
370 private: 375 private:
371 GrowableArray<RawTypeArguments*> objects_; 376 GrowableArray<RawTypeArguments*> objects_;
372 }; 377 };
373 378
374 379
375 class TypeArgumentsDeserializationCluster : public DeserializationCluster { 380 class TypeArgumentsDeserializationCluster : public DeserializationCluster {
376 public: 381 public:
377 TypeArgumentsDeserializationCluster() { } 382 TypeArgumentsDeserializationCluster() { }
378 virtual ~TypeArgumentsDeserializationCluster() { } 383 virtual ~TypeArgumentsDeserializationCluster() { }
379 384
380 void ReadAlloc(Deserializer* d) { 385 void ReadAlloc(Deserializer* d) {
381 start_index_ = d->next_index(); 386 start_index_ = d->next_index();
382 PageSpace* old_space = d->heap()->old_space(); 387 PageSpace* old_space = d->heap()->old_space();
383 intptr_t count = d->Read<intptr_t>(); 388 intptr_t count = d->Read<int32_t>();
384 for (intptr_t i = 0; i < count; i++) { 389 for (intptr_t i = 0; i < count; i++) {
385 intptr_t length = d->Read<intptr_t>(); 390 intptr_t length = d->Read<int32_t>();
386 d->AssignRef(AllocateUninitialized(old_space, 391 d->AssignRef(AllocateUninitialized(old_space,
387 TypeArguments::InstanceSize(length))); 392 TypeArguments::InstanceSize(length)));
388 } 393 }
389 stop_index_ = d->next_index(); 394 stop_index_ = d->next_index();
390 } 395 }
391 396
392 void ReadFill(Deserializer* d) { 397 void ReadFill(Deserializer* d) {
393 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 398 bool is_vm_object = d->isolate() == Dart::vm_isolate();
394 399
395 for (intptr_t id = start_index_; id < stop_index_; id++) { 400 for (intptr_t id = start_index_; id < stop_index_; id++) {
396 RawTypeArguments* type_args = 401 RawTypeArguments* type_args =
397 reinterpret_cast<RawTypeArguments*>(d->Ref(id)); 402 reinterpret_cast<RawTypeArguments*>(d->Ref(id));
398 intptr_t length = d->Read<intptr_t>(); 403 intptr_t length = d->Read<int32_t>();
399 bool is_canonical = d->Read<bool>(); 404 bool is_canonical = d->Read<bool>();
400 Deserializer::InitializeHeader(type_args, kTypeArgumentsCid, 405 Deserializer::InitializeHeader(type_args, kTypeArgumentsCid,
401 TypeArguments::InstanceSize(length), 406 TypeArguments::InstanceSize(length),
402 is_vm_object, is_canonical); 407 is_vm_object, is_canonical);
403 type_args->ptr()->length_ = Smi::New(length); 408 type_args->ptr()->length_ = Smi::New(length);
404 type_args->ptr()->hash_ = Smi::New(d->Read<int32_t>()); 409 type_args->ptr()->hash_ = Smi::New(d->Read<int32_t>());
405 type_args->ptr()->instantiations_ = 410 type_args->ptr()->instantiations_ =
406 reinterpret_cast<RawArray*>(d->ReadRef()); 411 reinterpret_cast<RawArray*>(d->ReadRef());
407 for (intptr_t j = 0; j < length; j++) { 412 for (intptr_t j = 0; j < length; j++) {
408 type_args->ptr()->types()[j] = 413 type_args->ptr()->types()[j] =
(...skipping 16 matching lines...) Expand all
425 RawObject** from = cls->from(); 430 RawObject** from = cls->from();
426 RawObject** to = cls->to(); 431 RawObject** to = cls->to();
427 for (RawObject** p = from; p <= to; p++) { 432 for (RawObject** p = from; p <= to; p++) {
428 s->Push(*p); 433 s->Push(*p);
429 } 434 }
430 } 435 }
431 436
432 void WriteAlloc(Serializer* s) { 437 void WriteAlloc(Serializer* s) {
433 s->WriteCid(kPatchClassCid); 438 s->WriteCid(kPatchClassCid);
434 intptr_t count = objects_.length(); 439 intptr_t count = objects_.length();
435 s->Write<intptr_t>(count); 440 s->Write<int32_t>(count);
436 for (intptr_t i = 0; i < count; i++) { 441 for (intptr_t i = 0; i < count; i++) {
437 RawPatchClass* cls = objects_[i]; 442 RawPatchClass* cls = objects_[i];
438 s->AssignRef(cls); 443 s->AssignRef(cls);
439 } 444 }
440 } 445 }
441 446
442 void WriteFill(Serializer* s) { 447 void WriteFill(Serializer* s) {
443 intptr_t count = objects_.length(); 448 intptr_t count = objects_.length();
444 for (intptr_t i = 0; i < count; i++) { 449 for (intptr_t i = 0; i < count; i++) {
445 RawPatchClass* cls = objects_[i]; 450 RawPatchClass* cls = objects_[i];
(...skipping 11 matching lines...) Expand all
457 462
458 463
459 class PatchClassDeserializationCluster : public DeserializationCluster { 464 class PatchClassDeserializationCluster : public DeserializationCluster {
460 public: 465 public:
461 PatchClassDeserializationCluster() { } 466 PatchClassDeserializationCluster() { }
462 virtual ~PatchClassDeserializationCluster() { } 467 virtual ~PatchClassDeserializationCluster() { }
463 468
464 void ReadAlloc(Deserializer* d) { 469 void ReadAlloc(Deserializer* d) {
465 start_index_ = d->next_index(); 470 start_index_ = d->next_index();
466 PageSpace* old_space = d->heap()->old_space(); 471 PageSpace* old_space = d->heap()->old_space();
467 intptr_t count = d->Read<intptr_t>(); 472 intptr_t count = d->Read<int32_t>();
468 for (intptr_t i = 0; i < count; i++) { 473 for (intptr_t i = 0; i < count; i++) {
469 d->AssignRef(AllocateUninitialized(old_space, 474 d->AssignRef(AllocateUninitialized(old_space,
470 PatchClass::InstanceSize())); 475 PatchClass::InstanceSize()));
471 } 476 }
472 stop_index_ = d->next_index(); 477 stop_index_ = d->next_index();
473 } 478 }
474 479
475 void ReadFill(Deserializer* d) { 480 void ReadFill(Deserializer* d) {
476 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 481 bool is_vm_object = d->isolate() == Dart::vm_isolate();
477 482
(...skipping 29 matching lines...) Expand all
507 s->Push(func->ptr()->code_); 512 s->Push(func->ptr()->code_);
508 } else if (s->kind() == Snapshot::kAppWithJIT) { 513 } else if (s->kind() == Snapshot::kAppWithJIT) {
509 s->Push(func->ptr()->unoptimized_code_); 514 s->Push(func->ptr()->unoptimized_code_);
510 s->Push(func->ptr()->ic_data_array_); 515 s->Push(func->ptr()->ic_data_array_);
511 } 516 }
512 } 517 }
513 518
514 void WriteAlloc(Serializer* s) { 519 void WriteAlloc(Serializer* s) {
515 s->WriteCid(kFunctionCid); 520 s->WriteCid(kFunctionCid);
516 intptr_t count = objects_.length(); 521 intptr_t count = objects_.length();
517 s->Write<intptr_t>(count); 522 s->Write<int32_t>(count);
518 for (intptr_t i = 0; i < count; i++) { 523 for (intptr_t i = 0; i < count; i++) {
519 RawFunction* func = objects_[i]; 524 RawFunction* func = objects_[i];
520 s->AssignRef(func); 525 s->AssignRef(func);
521 } 526 }
522 } 527 }
523 528
524 void WriteFill(Serializer* s) { 529 void WriteFill(Serializer* s) {
525 Snapshot::Kind kind = s->kind(); 530 Snapshot::Kind kind = s->kind();
526 intptr_t count = objects_.length(); 531 intptr_t count = objects_.length();
527 for (intptr_t i = 0; i < count; i++) { 532 for (intptr_t i = 0; i < count; i++) {
(...skipping 37 matching lines...) Expand 10 before | Expand all | Expand 10 after
565 570
566 571
567 class FunctionDeserializationCluster : public DeserializationCluster { 572 class FunctionDeserializationCluster : public DeserializationCluster {
568 public: 573 public:
569 FunctionDeserializationCluster() { } 574 FunctionDeserializationCluster() { }
570 virtual ~FunctionDeserializationCluster() { } 575 virtual ~FunctionDeserializationCluster() { }
571 576
572 void ReadAlloc(Deserializer* d) { 577 void ReadAlloc(Deserializer* d) {
573 start_index_ = d->next_index(); 578 start_index_ = d->next_index();
574 PageSpace* old_space = d->heap()->old_space(); 579 PageSpace* old_space = d->heap()->old_space();
575 intptr_t count = d->Read<intptr_t>(); 580 intptr_t count = d->Read<int32_t>();
576 for (intptr_t i = 0; i < count; i++) { 581 for (intptr_t i = 0; i < count; i++) {
577 d->AssignRef(AllocateUninitialized(old_space, 582 d->AssignRef(AllocateUninitialized(old_space,
578 Function::InstanceSize())); 583 Function::InstanceSize()));
579 } 584 }
580 stop_index_ = d->next_index(); 585 stop_index_ = d->next_index();
581 } 586 }
582 587
583 void ReadFill(Deserializer* d) { 588 void ReadFill(Deserializer* d) {
584 Snapshot::Kind kind = d->kind(); 589 Snapshot::Kind kind = d->kind();
585 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 590 bool is_vm_object = d->isolate() == Dart::vm_isolate();
(...skipping 91 matching lines...) Expand 10 before | Expand all | Expand 10 after
677 RawObject** from = data->from(); 682 RawObject** from = data->from();
678 RawObject** to = data->to(); 683 RawObject** to = data->to();
679 for (RawObject** p = from; p <= to; p++) { 684 for (RawObject** p = from; p <= to; p++) {
680 s->Push(*p); 685 s->Push(*p);
681 } 686 }
682 } 687 }
683 688
684 void WriteAlloc(Serializer* s) { 689 void WriteAlloc(Serializer* s) {
685 s->WriteCid(kClosureDataCid); 690 s->WriteCid(kClosureDataCid);
686 intptr_t count = objects_.length(); 691 intptr_t count = objects_.length();
687 s->Write<intptr_t>(count); 692 s->Write<int32_t>(count);
688 for (intptr_t i = 0; i < count; i++) { 693 for (intptr_t i = 0; i < count; i++) {
689 RawClosureData* data = objects_[i]; 694 RawClosureData* data = objects_[i];
690 s->AssignRef(data); 695 s->AssignRef(data);
691 } 696 }
692 } 697 }
693 698
694 void WriteFill(Serializer* s) { 699 void WriteFill(Serializer* s) {
695 intptr_t count = objects_.length(); 700 intptr_t count = objects_.length();
696 for (intptr_t i = 0; i < count; i++) { 701 for (intptr_t i = 0; i < count; i++) {
697 RawClosureData* data = objects_[i]; 702 RawClosureData* data = objects_[i];
(...skipping 11 matching lines...) Expand all
709 714
710 715
711 class ClosureDataDeserializationCluster : public DeserializationCluster { 716 class ClosureDataDeserializationCluster : public DeserializationCluster {
712 public: 717 public:
713 ClosureDataDeserializationCluster() { } 718 ClosureDataDeserializationCluster() { }
714 virtual ~ClosureDataDeserializationCluster() { } 719 virtual ~ClosureDataDeserializationCluster() { }
715 720
716 void ReadAlloc(Deserializer* d) { 721 void ReadAlloc(Deserializer* d) {
717 start_index_ = d->next_index(); 722 start_index_ = d->next_index();
718 PageSpace* old_space = d->heap()->old_space(); 723 PageSpace* old_space = d->heap()->old_space();
719 intptr_t count = d->Read<intptr_t>(); 724 intptr_t count = d->Read<int32_t>();
720 for (intptr_t i = 0; i < count; i++) { 725 for (intptr_t i = 0; i < count; i++) {
721 d->AssignRef(AllocateUninitialized(old_space, 726 d->AssignRef(AllocateUninitialized(old_space,
722 ClosureData::InstanceSize())); 727 ClosureData::InstanceSize()));
723 } 728 }
724 stop_index_ = d->next_index(); 729 stop_index_ = d->next_index();
725 } 730 }
726 731
727 void ReadFill(Deserializer* d) { 732 void ReadFill(Deserializer* d) {
728 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 733 bool is_vm_object = d->isolate() == Dart::vm_isolate();
729 734
(...skipping 23 matching lines...) Expand all
753 RawObject** from = data->from(); 758 RawObject** from = data->from();
754 RawObject** to = data->to(); 759 RawObject** to = data->to();
755 for (RawObject** p = from; p <= to; p++) { 760 for (RawObject** p = from; p <= to; p++) {
756 s->Push(*p); 761 s->Push(*p);
757 } 762 }
758 } 763 }
759 764
760 void WriteAlloc(Serializer* s) { 765 void WriteAlloc(Serializer* s) {
761 s->WriteCid(kRedirectionDataCid); 766 s->WriteCid(kRedirectionDataCid);
762 intptr_t count = objects_.length(); 767 intptr_t count = objects_.length();
763 s->Write<intptr_t>(count); 768 s->Write<int32_t>(count);
764 for (intptr_t i = 0; i < count; i++) { 769 for (intptr_t i = 0; i < count; i++) {
765 RawRedirectionData* data = objects_[i]; 770 RawRedirectionData* data = objects_[i];
766 s->AssignRef(data); 771 s->AssignRef(data);
767 } 772 }
768 } 773 }
769 774
770 void WriteFill(Serializer* s) { 775 void WriteFill(Serializer* s) {
771 intptr_t count = objects_.length(); 776 intptr_t count = objects_.length();
772 for (intptr_t i = 0; i < count; i++) { 777 for (intptr_t i = 0; i < count; i++) {
773 RawRedirectionData* data = objects_[i]; 778 RawRedirectionData* data = objects_[i];
(...skipping 11 matching lines...) Expand all
785 790
786 791
787 class RedirectionDataDeserializationCluster : public DeserializationCluster { 792 class RedirectionDataDeserializationCluster : public DeserializationCluster {
788 public: 793 public:
789 RedirectionDataDeserializationCluster() { } 794 RedirectionDataDeserializationCluster() { }
790 virtual ~RedirectionDataDeserializationCluster() { } 795 virtual ~RedirectionDataDeserializationCluster() { }
791 796
792 void ReadAlloc(Deserializer* d) { 797 void ReadAlloc(Deserializer* d) {
793 start_index_ = d->next_index(); 798 start_index_ = d->next_index();
794 PageSpace* old_space = d->heap()->old_space(); 799 PageSpace* old_space = d->heap()->old_space();
795 intptr_t count = d->Read<intptr_t>(); 800 intptr_t count = d->Read<int32_t>();
796 for (intptr_t i = 0; i < count; i++) { 801 for (intptr_t i = 0; i < count; i++) {
797 d->AssignRef(AllocateUninitialized(old_space, 802 d->AssignRef(AllocateUninitialized(old_space,
798 RedirectionData::InstanceSize())); 803 RedirectionData::InstanceSize()));
799 } 804 }
800 stop_index_ = d->next_index(); 805 stop_index_ = d->next_index();
801 } 806 }
802 807
803 void ReadFill(Deserializer* d) { 808 void ReadFill(Deserializer* d) {
804 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 809 bool is_vm_object = d->isolate() == Dart::vm_isolate();
805 810
(...skipping 51 matching lines...) Expand 10 before | Expand all | Expand 10 after
857 } 862 }
858 if (kind != Snapshot::kAppNoJIT) { 863 if (kind != Snapshot::kAppNoJIT) {
859 // Write out the guarded list length. 864 // Write out the guarded list length.
860 s->Push(field->ptr()->guarded_list_length_); 865 s->Push(field->ptr()->guarded_list_length_);
861 } 866 }
862 } 867 }
863 868
864 void WriteAlloc(Serializer* s) { 869 void WriteAlloc(Serializer* s) {
865 s->WriteCid(kFieldCid); 870 s->WriteCid(kFieldCid);
866 intptr_t count = objects_.length(); 871 intptr_t count = objects_.length();
867 s->Write<intptr_t>(count); 872 s->Write<int32_t>(count);
868 for (intptr_t i = 0; i < count; i++) { 873 for (intptr_t i = 0; i < count; i++) {
869 RawField* field = objects_[i]; 874 RawField* field = objects_[i];
870 s->AssignRef(field); 875 s->AssignRef(field);
871 } 876 }
872 } 877 }
873 878
874 void WriteFill(Serializer* s) { 879 void WriteFill(Serializer* s) {
875 Snapshot::Kind kind = s->kind(); 880 Snapshot::Kind kind = s->kind();
876 intptr_t count = objects_.length(); 881 intptr_t count = objects_.length();
877 for (intptr_t i = 0; i < count; i++) { 882 for (intptr_t i = 0; i < count; i++) {
(...skipping 44 matching lines...) Expand 10 before | Expand all | Expand 10 after
922 927
923 928
924 class FieldDeserializationCluster : public DeserializationCluster { 929 class FieldDeserializationCluster : public DeserializationCluster {
925 public: 930 public:
926 FieldDeserializationCluster() { } 931 FieldDeserializationCluster() { }
927 virtual ~FieldDeserializationCluster() { } 932 virtual ~FieldDeserializationCluster() { }
928 933
929 void ReadAlloc(Deserializer* d) { 934 void ReadAlloc(Deserializer* d) {
930 start_index_ = d->next_index(); 935 start_index_ = d->next_index();
931 PageSpace* old_space = d->heap()->old_space(); 936 PageSpace* old_space = d->heap()->old_space();
932 intptr_t count = d->Read<intptr_t>(); 937 intptr_t count = d->Read<int32_t>();
933 for (intptr_t i = 0; i < count; i++) { 938 for (intptr_t i = 0; i < count; i++) {
934 d->AssignRef(AllocateUninitialized(old_space, Field::InstanceSize())); 939 d->AssignRef(AllocateUninitialized(old_space, Field::InstanceSize()));
935 } 940 }
936 stop_index_ = d->next_index(); 941 stop_index_ = d->next_index();
937 } 942 }
938 943
939 void ReadFill(Deserializer* d) { 944 void ReadFill(Deserializer* d) {
940 Snapshot::Kind kind = d->kind(); 945 Snapshot::Kind kind = d->kind();
941 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 946 bool is_vm_object = d->isolate() == Dart::vm_isolate();
942 947
(...skipping 56 matching lines...) Expand 10 before | Expand all | Expand 10 after
999 RawObject** from = token->from(); 1004 RawObject** from = token->from();
1000 RawObject** to = token->to(); 1005 RawObject** to = token->to();
1001 for (RawObject** p = from; p <= to; p++) { 1006 for (RawObject** p = from; p <= to; p++) {
1002 s->Push(*p); 1007 s->Push(*p);
1003 } 1008 }
1004 } 1009 }
1005 1010
1006 void WriteAlloc(Serializer* s) { 1011 void WriteAlloc(Serializer* s) {
1007 s->WriteCid(kLiteralTokenCid); 1012 s->WriteCid(kLiteralTokenCid);
1008 intptr_t count = objects_.length(); 1013 intptr_t count = objects_.length();
1009 s->Write<intptr_t>(count); 1014 s->Write<int32_t>(count);
1010 for (intptr_t i = 0; i < count; i++) { 1015 for (intptr_t i = 0; i < count; i++) {
1011 RawLiteralToken* token = objects_[i]; 1016 RawLiteralToken* token = objects_[i];
1012 s->AssignRef(token); 1017 s->AssignRef(token);
1013 } 1018 }
1014 } 1019 }
1015 1020
1016 void WriteFill(Serializer* s) { 1021 void WriteFill(Serializer* s) {
1017 intptr_t count = objects_.length(); 1022 intptr_t count = objects_.length();
1018 for (intptr_t i = 0; i < count; i++) { 1023 for (intptr_t i = 0; i < count; i++) {
1019 RawLiteralToken* token = objects_[i]; 1024 RawLiteralToken* token = objects_[i];
(...skipping 12 matching lines...) Expand all
1032 1037
1033 1038
1034 class LiteralTokenDeserializationCluster : public DeserializationCluster { 1039 class LiteralTokenDeserializationCluster : public DeserializationCluster {
1035 public: 1040 public:
1036 LiteralTokenDeserializationCluster() { } 1041 LiteralTokenDeserializationCluster() { }
1037 virtual ~LiteralTokenDeserializationCluster() { } 1042 virtual ~LiteralTokenDeserializationCluster() { }
1038 1043
1039 void ReadAlloc(Deserializer* d) { 1044 void ReadAlloc(Deserializer* d) {
1040 start_index_ = d->next_index(); 1045 start_index_ = d->next_index();
1041 PageSpace* old_space = d->heap()->old_space(); 1046 PageSpace* old_space = d->heap()->old_space();
1042 intptr_t count = d->Read<intptr_t>(); 1047 intptr_t count = d->Read<int32_t>();
1043 for (intptr_t i = 0; i < count; i++) { 1048 for (intptr_t i = 0; i < count; i++) {
1044 d->AssignRef(AllocateUninitialized(old_space, 1049 d->AssignRef(AllocateUninitialized(old_space,
1045 LiteralToken::InstanceSize())); 1050 LiteralToken::InstanceSize()));
1046 } 1051 }
1047 stop_index_ = d->next_index(); 1052 stop_index_ = d->next_index();
1048 } 1053 }
1049 1054
1050 void ReadFill(Deserializer* d) { 1055 void ReadFill(Deserializer* d) {
1051 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 1056 bool is_vm_object = d->isolate() == Dart::vm_isolate();
1052 1057
(...skipping 25 matching lines...) Expand all
1078 RawObject** from = stream->from(); 1083 RawObject** from = stream->from();
1079 RawObject** to = stream->to(); 1084 RawObject** to = stream->to();
1080 for (RawObject** p = from; p <= to; p++) { 1085 for (RawObject** p = from; p <= to; p++) {
1081 s->Push(*p); 1086 s->Push(*p);
1082 } 1087 }
1083 } 1088 }
1084 1089
1085 void WriteAlloc(Serializer* s) { 1090 void WriteAlloc(Serializer* s) {
1086 s->WriteCid(kTokenStreamCid); 1091 s->WriteCid(kTokenStreamCid);
1087 intptr_t count = objects_.length(); 1092 intptr_t count = objects_.length();
1088 s->Write<intptr_t>(count); 1093 s->Write<int32_t>(count);
1089 for (intptr_t i = 0; i < count; i++) { 1094 for (intptr_t i = 0; i < count; i++) {
1090 RawTokenStream* stream = objects_[i]; 1095 RawTokenStream* stream = objects_[i];
1091 s->AssignRef(stream); 1096 s->AssignRef(stream);
1092 } 1097 }
1093 } 1098 }
1094 1099
1095 void WriteFill(Serializer* s) { 1100 void WriteFill(Serializer* s) {
1096 intptr_t count = objects_.length(); 1101 intptr_t count = objects_.length();
1097 for (intptr_t i = 0; i < count; i++) { 1102 for (intptr_t i = 0; i < count; i++) {
1098 RawTokenStream* stream = objects_[i]; 1103 RawTokenStream* stream = objects_[i];
(...skipping 11 matching lines...) Expand all
1110 1115
1111 1116
1112 class TokenStreamDeserializationCluster : public DeserializationCluster { 1117 class TokenStreamDeserializationCluster : public DeserializationCluster {
1113 public: 1118 public:
1114 TokenStreamDeserializationCluster() { } 1119 TokenStreamDeserializationCluster() { }
1115 virtual ~TokenStreamDeserializationCluster() { } 1120 virtual ~TokenStreamDeserializationCluster() { }
1116 1121
1117 void ReadAlloc(Deserializer* d) { 1122 void ReadAlloc(Deserializer* d) {
1118 start_index_ = d->next_index(); 1123 start_index_ = d->next_index();
1119 PageSpace* old_space = d->heap()->old_space(); 1124 PageSpace* old_space = d->heap()->old_space();
1120 intptr_t count = d->Read<intptr_t>(); 1125 intptr_t count = d->Read<int32_t>();
1121 for (intptr_t i = 0; i < count; i++) { 1126 for (intptr_t i = 0; i < count; i++) {
1122 d->AssignRef(AllocateUninitialized(old_space, 1127 d->AssignRef(AllocateUninitialized(old_space,
1123 TokenStream::InstanceSize())); 1128 TokenStream::InstanceSize()));
1124 } 1129 }
1125 stop_index_ = d->next_index(); 1130 stop_index_ = d->next_index();
1126 } 1131 }
1127 1132
1128 void ReadFill(Deserializer* d) { 1133 void ReadFill(Deserializer* d) {
1129 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 1134 bool is_vm_object = d->isolate() == Dart::vm_isolate();
1130 1135
(...skipping 23 matching lines...) Expand all
1154 RawObject** from = script->from(); 1159 RawObject** from = script->from();
1155 RawObject** to = script->to_snapshot(s->kind()); 1160 RawObject** to = script->to_snapshot(s->kind());
1156 for (RawObject** p = from; p <= to; p++) { 1161 for (RawObject** p = from; p <= to; p++) {
1157 s->Push(*p); 1162 s->Push(*p);
1158 } 1163 }
1159 } 1164 }
1160 1165
1161 void WriteAlloc(Serializer* s) { 1166 void WriteAlloc(Serializer* s) {
1162 s->WriteCid(kScriptCid); 1167 s->WriteCid(kScriptCid);
1163 intptr_t count = objects_.length(); 1168 intptr_t count = objects_.length();
1164 s->Write<intptr_t>(count); 1169 s->Write<int32_t>(count);
1165 for (intptr_t i = 0; i < count; i++) { 1170 for (intptr_t i = 0; i < count; i++) {
1166 RawScript* script = objects_[i]; 1171 RawScript* script = objects_[i];
1167 s->AssignRef(script); 1172 s->AssignRef(script);
1168 } 1173 }
1169 } 1174 }
1170 1175
1171 void WriteFill(Serializer* s) { 1176 void WriteFill(Serializer* s) {
1172 Snapshot::Kind kind = s->kind(); 1177 Snapshot::Kind kind = s->kind();
1173 intptr_t count = objects_.length(); 1178 intptr_t count = objects_.length();
1174 for (intptr_t i = 0; i < count; i++) { 1179 for (intptr_t i = 0; i < count; i++) {
(...skipping 16 matching lines...) Expand all
1191 1196
1192 1197
1193 class ScriptDeserializationCluster : public DeserializationCluster { 1198 class ScriptDeserializationCluster : public DeserializationCluster {
1194 public: 1199 public:
1195 ScriptDeserializationCluster() { } 1200 ScriptDeserializationCluster() { }
1196 virtual ~ScriptDeserializationCluster() { } 1201 virtual ~ScriptDeserializationCluster() { }
1197 1202
1198 void ReadAlloc(Deserializer* d) { 1203 void ReadAlloc(Deserializer* d) {
1199 start_index_ = d->next_index(); 1204 start_index_ = d->next_index();
1200 PageSpace* old_space = d->heap()->old_space(); 1205 PageSpace* old_space = d->heap()->old_space();
1201 intptr_t count = d->Read<intptr_t>(); 1206 intptr_t count = d->Read<int32_t>();
1202 for (intptr_t i = 0; i < count; i++) { 1207 for (intptr_t i = 0; i < count; i++) {
1203 d->AssignRef(AllocateUninitialized(old_space, Script::InstanceSize())); 1208 d->AssignRef(AllocateUninitialized(old_space, Script::InstanceSize()));
1204 } 1209 }
1205 stop_index_ = d->next_index(); 1210 stop_index_ = d->next_index();
1206 } 1211 }
1207 1212
1208 void ReadFill(Deserializer* d) { 1213 void ReadFill(Deserializer* d) {
1209 Snapshot::Kind kind = d->kind(); 1214 Snapshot::Kind kind = d->kind();
1210 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 1215 bool is_vm_object = d->isolate() == Dart::vm_isolate();
1211 1216
(...skipping 32 matching lines...) Expand 10 before | Expand all | Expand 10 after
1244 RawObject** from = lib->from(); 1249 RawObject** from = lib->from();
1245 RawObject** to = lib->to_snapshot(); 1250 RawObject** to = lib->to_snapshot();
1246 for (RawObject** p = from; p <= to; p++) { 1251 for (RawObject** p = from; p <= to; p++) {
1247 s->Push(*p); 1252 s->Push(*p);
1248 } 1253 }
1249 } 1254 }
1250 1255
1251 void WriteAlloc(Serializer* s) { 1256 void WriteAlloc(Serializer* s) {
1252 s->WriteCid(kLibraryCid); 1257 s->WriteCid(kLibraryCid);
1253 intptr_t count = objects_.length(); 1258 intptr_t count = objects_.length();
1254 s->Write<intptr_t>(count); 1259 s->Write<int32_t>(count);
1255 for (intptr_t i = 0; i < count; i++) { 1260 for (intptr_t i = 0; i < count; i++) {
1256 RawLibrary* lib = objects_[i]; 1261 RawLibrary* lib = objects_[i];
1257 s->AssignRef(lib); 1262 s->AssignRef(lib);
1258 } 1263 }
1259 } 1264 }
1260 1265
1261 void WriteFill(Serializer* s) { 1266 void WriteFill(Serializer* s) {
1262 intptr_t count = objects_.length(); 1267 intptr_t count = objects_.length();
1263 for (intptr_t i = 0; i < count; i++) { 1268 for (intptr_t i = 0; i < count; i++) {
1264 RawLibrary* lib = objects_[i]; 1269 RawLibrary* lib = objects_[i];
(...skipping 17 matching lines...) Expand all
1282 }; 1287 };
1283 1288
1284 class LibraryDeserializationCluster : public DeserializationCluster { 1289 class LibraryDeserializationCluster : public DeserializationCluster {
1285 public: 1290 public:
1286 LibraryDeserializationCluster() { } 1291 LibraryDeserializationCluster() { }
1287 virtual ~LibraryDeserializationCluster() { } 1292 virtual ~LibraryDeserializationCluster() { }
1288 1293
1289 void ReadAlloc(Deserializer* d) { 1294 void ReadAlloc(Deserializer* d) {
1290 start_index_ = d->next_index(); 1295 start_index_ = d->next_index();
1291 PageSpace* old_space = d->heap()->old_space(); 1296 PageSpace* old_space = d->heap()->old_space();
1292 intptr_t count = d->Read<intptr_t>(); 1297 intptr_t count = d->Read<int32_t>();
1293 for (intptr_t i = 0; i < count; i++) { 1298 for (intptr_t i = 0; i < count; i++) {
1294 d->AssignRef(AllocateUninitialized(old_space, Library::InstanceSize())); 1299 d->AssignRef(AllocateUninitialized(old_space, Library::InstanceSize()));
1295 } 1300 }
1296 stop_index_ = d->next_index(); 1301 stop_index_ = d->next_index();
1297 } 1302 }
1298 1303
1299 void ReadFill(Deserializer* d) { 1304 void ReadFill(Deserializer* d) {
1300 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 1305 bool is_vm_object = d->isolate() == Dart::vm_isolate();
1301 1306
1302 for (intptr_t id = start_index_; id < stop_index_; id++) { 1307 for (intptr_t id = start_index_; id < stop_index_; id++) {
(...skipping 51 matching lines...) Expand 10 before | Expand all | Expand 10 after
1354 RawObject** from = ns->from(); 1359 RawObject** from = ns->from();
1355 RawObject** to = ns->to(); 1360 RawObject** to = ns->to();
1356 for (RawObject** p = from; p <= to; p++) { 1361 for (RawObject** p = from; p <= to; p++) {
1357 s->Push(*p); 1362 s->Push(*p);
1358 } 1363 }
1359 } 1364 }
1360 1365
1361 void WriteAlloc(Serializer* s) { 1366 void WriteAlloc(Serializer* s) {
1362 s->WriteCid(kNamespaceCid); 1367 s->WriteCid(kNamespaceCid);
1363 intptr_t count = objects_.length(); 1368 intptr_t count = objects_.length();
1364 s->Write<intptr_t>(count); 1369 s->Write<int32_t>(count);
1365 for (intptr_t i = 0; i < count; i++) { 1370 for (intptr_t i = 0; i < count; i++) {
1366 RawNamespace* ns = objects_[i]; 1371 RawNamespace* ns = objects_[i];
1367 s->AssignRef(ns); 1372 s->AssignRef(ns);
1368 } 1373 }
1369 } 1374 }
1370 1375
1371 void WriteFill(Serializer* s) { 1376 void WriteFill(Serializer* s) {
1372 intptr_t count = objects_.length(); 1377 intptr_t count = objects_.length();
1373 for (intptr_t i = 0; i < count; i++) { 1378 for (intptr_t i = 0; i < count; i++) {
1374 RawNamespace* ns = objects_[i]; 1379 RawNamespace* ns = objects_[i];
(...skipping 11 matching lines...) Expand all
1386 1391
1387 1392
1388 class NamespaceDeserializationCluster : public DeserializationCluster { 1393 class NamespaceDeserializationCluster : public DeserializationCluster {
1389 public: 1394 public:
1390 NamespaceDeserializationCluster() { } 1395 NamespaceDeserializationCluster() { }
1391 virtual ~NamespaceDeserializationCluster() { } 1396 virtual ~NamespaceDeserializationCluster() { }
1392 1397
1393 void ReadAlloc(Deserializer* d) { 1398 void ReadAlloc(Deserializer* d) {
1394 start_index_ = d->next_index(); 1399 start_index_ = d->next_index();
1395 PageSpace* old_space = d->heap()->old_space(); 1400 PageSpace* old_space = d->heap()->old_space();
1396 intptr_t count = d->Read<intptr_t>(); 1401 intptr_t count = d->Read<int32_t>();
1397 for (intptr_t i = 0; i < count; i++) { 1402 for (intptr_t i = 0; i < count; i++) {
1398 d->AssignRef(AllocateUninitialized(old_space, Namespace::InstanceSize())); 1403 d->AssignRef(AllocateUninitialized(old_space, Namespace::InstanceSize()));
1399 } 1404 }
1400 stop_index_ = d->next_index(); 1405 stop_index_ = d->next_index();
1401 } 1406 }
1402 1407
1403 void ReadFill(Deserializer* d) { 1408 void ReadFill(Deserializer* d) {
1404 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 1409 bool is_vm_object = d->isolate() == Dart::vm_isolate();
1405 1410
1406 for (intptr_t id = start_index_; id < stop_index_; id++) { 1411 for (intptr_t id = start_index_; id < stop_index_; id++) {
(...skipping 22 matching lines...) Expand all
1429 s->Push(code->ptr()->object_pool_); 1434 s->Push(code->ptr()->object_pool_);
1430 s->Push(code->ptr()->owner_); 1435 s->Push(code->ptr()->owner_);
1431 s->Push(code->ptr()->exception_handlers_); 1436 s->Push(code->ptr()->exception_handlers_);
1432 s->Push(code->ptr()->pc_descriptors_); 1437 s->Push(code->ptr()->pc_descriptors_);
1433 s->Push(code->ptr()->stackmaps_); 1438 s->Push(code->ptr()->stackmaps_);
1434 } 1439 }
1435 1440
1436 void WriteAlloc(Serializer* s) { 1441 void WriteAlloc(Serializer* s) {
1437 s->WriteCid(kCodeCid); 1442 s->WriteCid(kCodeCid);
1438 intptr_t count = objects_.length(); 1443 intptr_t count = objects_.length();
1439 s->Write<intptr_t>(count); 1444 s->Write<int32_t>(count);
1440 for (intptr_t i = 0; i < count; i++) { 1445 for (intptr_t i = 0; i < count; i++) {
1441 RawCode* code = objects_[i]; 1446 RawCode* code = objects_[i];
1442 s->AssignRef(code); 1447 s->AssignRef(code);
1443 } 1448 }
1444 } 1449 }
1445 1450
1446 void WriteFill(Serializer* s) { 1451 void WriteFill(Serializer* s) {
1447 Snapshot::Kind kind = s->kind(); 1452 Snapshot::Kind kind = s->kind();
1448 intptr_t count = objects_.length(); 1453 intptr_t count = objects_.length();
1449 for (intptr_t i = 0; i < count; i++) { 1454 for (intptr_t i = 0; i < count; i++) {
(...skipping 39 matching lines...) Expand 10 before | Expand all | Expand 10 after
1489 1494
1490 1495
1491 class CodeDeserializationCluster : public DeserializationCluster { 1496 class CodeDeserializationCluster : public DeserializationCluster {
1492 public: 1497 public:
1493 CodeDeserializationCluster() { } 1498 CodeDeserializationCluster() { }
1494 virtual ~CodeDeserializationCluster() { } 1499 virtual ~CodeDeserializationCluster() { }
1495 1500
1496 void ReadAlloc(Deserializer* d) { 1501 void ReadAlloc(Deserializer* d) {
1497 start_index_ = d->next_index(); 1502 start_index_ = d->next_index();
1498 PageSpace* old_space = d->heap()->old_space(); 1503 PageSpace* old_space = d->heap()->old_space();
1499 intptr_t count = d->Read<intptr_t>(); 1504 intptr_t count = d->Read<int32_t>();
1500 for (intptr_t i = 0; i < count; i++) { 1505 for (intptr_t i = 0; i < count; i++) {
1501 d->AssignRef(AllocateUninitialized(old_space, Code::InstanceSize(0))); 1506 d->AssignRef(AllocateUninitialized(old_space, Code::InstanceSize(0)));
1502 } 1507 }
1503 stop_index_ = d->next_index(); 1508 stop_index_ = d->next_index();
1504 } 1509 }
1505 1510
1506 void ReadFill(Deserializer* d) { 1511 void ReadFill(Deserializer* d) {
1507 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 1512 bool is_vm_object = d->isolate() == Dart::vm_isolate();
1508 1513
1509 for (intptr_t id = start_index_; id < stop_index_; id++) { 1514 for (intptr_t id = start_index_; id < stop_index_; id++) {
(...skipping 54 matching lines...) Expand 10 before | Expand all | Expand 10 after
1564 s->Push(pool->ptr()->data()[i].raw_obj_); 1569 s->Push(pool->ptr()->data()[i].raw_obj_);
1565 } 1570 }
1566 } 1571 }
1567 1572
1568 // TODO(rmacnak): Allocate the object pool and its info array together. 1573 // TODO(rmacnak): Allocate the object pool and its info array together.
1569 } 1574 }
1570 1575
1571 void WriteAlloc(Serializer* s) { 1576 void WriteAlloc(Serializer* s) {
1572 s->WriteCid(kObjectPoolCid); 1577 s->WriteCid(kObjectPoolCid);
1573 intptr_t count = objects_.length(); 1578 intptr_t count = objects_.length();
1574 s->Write<intptr_t>(count); 1579 s->Write<int32_t>(count);
1575 for (intptr_t i = 0; i < count; i++) { 1580 for (intptr_t i = 0; i < count; i++) {
1576 RawObjectPool* pool = objects_[i]; 1581 RawObjectPool* pool = objects_[i];
1577 intptr_t length = pool->ptr()->length_; 1582 intptr_t length = pool->ptr()->length_;
1578 s->Write<intptr_t>(length); 1583 s->Write<int32_t>(length);
1579 s->AssignRef(pool); 1584 s->AssignRef(pool);
1580 } 1585 }
1581 } 1586 }
1582 1587
1583 void WriteFill(Serializer* s) { 1588 void WriteFill(Serializer* s) {
1584 intptr_t count = objects_.length(); 1589 intptr_t count = objects_.length();
1585 for (intptr_t i = 0; i < count; i++) { 1590 for (intptr_t i = 0; i < count; i++) {
1586 RawObjectPool* pool = objects_[i]; 1591 RawObjectPool* pool = objects_[i];
1587 RawTypedData* info_array = pool->ptr()->info_array_; 1592 RawTypedData* info_array = pool->ptr()->info_array_;
1588 intptr_t length = pool->ptr()->length_; 1593 intptr_t length = pool->ptr()->length_;
1589 s->Write<intptr_t>(length); 1594 s->Write<int32_t>(length);
1590 for (intptr_t j = 0; j < length; j++) { 1595 for (intptr_t j = 0; j < length; j++) {
1591 ObjectPool::EntryType entry_type = 1596 ObjectPool::EntryType entry_type =
1592 static_cast<ObjectPool::EntryType>(info_array->ptr()->data()[j]); 1597 static_cast<ObjectPool::EntryType>(info_array->ptr()->data()[j]);
1593 s->Write<int8_t>(entry_type); 1598 s->Write<int8_t>(entry_type);
1594 RawObjectPool::Entry& entry = pool->ptr()->data()[j]; 1599 RawObjectPool::Entry& entry = pool->ptr()->data()[j];
1595 switch (entry_type) { 1600 switch (entry_type) {
1596 case ObjectPool::kTaggedObject: { 1601 case ObjectPool::kTaggedObject: {
1597 #if !defined(TARGET_ARCH_DBC) 1602 #if !defined(TARGET_ARCH_DBC)
1598 if (entry.raw_obj_ == 1603 if (entry.raw_obj_ ==
1599 StubCode::CallNativeCFunction_entry()->code()) { 1604 StubCode::CallNativeCFunction_entry()->code()) {
1600 // Natives can run while precompiling, becoming linked and 1605 // Natives can run while precompiling, becoming linked and
1601 // switching their stub. Reset to the initial stub used for 1606 // switching their stub. Reset to the initial stub used for
1602 // lazy-linking. 1607 // lazy-linking.
1603 s->WriteRef(StubCode::CallBootstrapCFunction_entry()->code()); 1608 s->WriteRef(StubCode::CallBootstrapCFunction_entry()->code());
1604 break; 1609 break;
1605 } 1610 }
1606 #endif 1611 #endif
1607 s->WriteRef(entry.raw_obj_); 1612 s->WriteRef(entry.raw_obj_);
1608 break; 1613 break;
1609 } 1614 }
1610 case ObjectPool::kImmediate: { 1615 case ObjectPool::kImmediate: {
1611 s->Write<intptr_t>(entry.raw_value_); 1616 s->Write<int32_t>(entry.raw_value_);
1612 break; 1617 break;
1613 } 1618 }
1614 case ObjectPool::kNativeEntry: { 1619 case ObjectPool::kNativeEntry: {
1615 // Write nothing. Will initialize with the lazy link entry. 1620 // Write nothing. Will initialize with the lazy link entry.
1616 #if defined(TARGET_ARCH_DBC) 1621 #if defined(TARGET_ARCH_DBC)
1617 UNREACHABLE(); // DBC does not support lazy native call linking. 1622 UNREACHABLE(); // DBC does not support lazy native call linking.
1618 #endif 1623 #endif
1619 break; 1624 break;
1620 } 1625 }
1621 default: 1626 default:
1622 UNREACHABLE(); 1627 UNREACHABLE();
1623 } 1628 }
1624 } 1629 }
1625 } 1630 }
1626 } 1631 }
1627 1632
1628 private: 1633 private:
1629 GrowableArray<RawObjectPool*> objects_; 1634 GrowableArray<RawObjectPool*> objects_;
1630 }; 1635 };
1631 1636
1632 1637
1633 class ObjectPoolDeserializationCluster : public DeserializationCluster { 1638 class ObjectPoolDeserializationCluster : public DeserializationCluster {
1634 public: 1639 public:
1635 ObjectPoolDeserializationCluster() { } 1640 ObjectPoolDeserializationCluster() { }
1636 virtual ~ObjectPoolDeserializationCluster() { } 1641 virtual ~ObjectPoolDeserializationCluster() { }
1637 1642
1638 void ReadAlloc(Deserializer* d) { 1643 void ReadAlloc(Deserializer* d) {
1639 start_index_ = d->next_index(); 1644 start_index_ = d->next_index();
1640 PageSpace* old_space = d->heap()->old_space(); 1645 PageSpace* old_space = d->heap()->old_space();
1641 intptr_t count = d->Read<intptr_t>(); 1646 intptr_t count = d->Read<int32_t>();
1642 for (intptr_t i = 0; i < count; i++) { 1647 for (intptr_t i = 0; i < count; i++) {
1643 intptr_t length = d->Read<intptr_t>(); 1648 intptr_t length = d->Read<int32_t>();
1644 d->AssignRef(AllocateUninitialized(old_space, 1649 d->AssignRef(AllocateUninitialized(old_space,
1645 ObjectPool::InstanceSize(length))); 1650 ObjectPool::InstanceSize(length)));
1646 } 1651 }
1647 stop_index_ = d->next_index(); 1652 stop_index_ = d->next_index();
1648 } 1653 }
1649 1654
1650 void ReadFill(Deserializer* d) { 1655 void ReadFill(Deserializer* d) {
1651 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 1656 bool is_vm_object = d->isolate() == Dart::vm_isolate();
1652 PageSpace* old_space = d->heap()->old_space(); 1657 PageSpace* old_space = d->heap()->old_space();
1653 for (intptr_t id = start_index_; id < stop_index_; id += 1) { 1658 for (intptr_t id = start_index_; id < stop_index_; id += 1) {
1654 intptr_t length = d->Read<intptr_t>(); 1659 intptr_t length = d->Read<int32_t>();
1655 RawTypedData* info_array = reinterpret_cast<RawTypedData*>( 1660 RawTypedData* info_array = reinterpret_cast<RawTypedData*>(
1656 AllocateUninitialized(old_space, TypedData::InstanceSize(length))); 1661 AllocateUninitialized(old_space, TypedData::InstanceSize(length)));
1657 Deserializer::InitializeHeader(info_array, kTypedDataUint8ArrayCid, 1662 Deserializer::InitializeHeader(info_array, kTypedDataUint8ArrayCid,
1658 TypedData::InstanceSize(length), 1663 TypedData::InstanceSize(length),
1659 is_vm_object); 1664 is_vm_object);
1660 info_array->ptr()->length_ = Smi::New(length); 1665 info_array->ptr()->length_ = Smi::New(length);
1661 RawObjectPool* pool = reinterpret_cast<RawObjectPool*>(d->Ref(id + 0)); 1666 RawObjectPool* pool = reinterpret_cast<RawObjectPool*>(d->Ref(id + 0));
1662 Deserializer::InitializeHeader(pool, kObjectPoolCid, 1667 Deserializer::InitializeHeader(pool, kObjectPoolCid,
1663 ObjectPool::InstanceSize(length), 1668 ObjectPool::InstanceSize(length),
1664 is_vm_object); 1669 is_vm_object);
1665 pool->ptr()->length_ = length; 1670 pool->ptr()->length_ = length;
1666 pool->ptr()->info_array_ = info_array; 1671 pool->ptr()->info_array_ = info_array;
1667 for (intptr_t j = 0; j < length; j++) { 1672 for (intptr_t j = 0; j < length; j++) {
1668 ObjectPool::EntryType entry_type = 1673 ObjectPool::EntryType entry_type =
1669 static_cast<ObjectPool::EntryType>(d->Read<int8_t>()); 1674 static_cast<ObjectPool::EntryType>(d->Read<int8_t>());
1670 info_array->ptr()->data()[j] = entry_type; 1675 info_array->ptr()->data()[j] = entry_type;
1671 RawObjectPool::Entry& entry = pool->ptr()->data()[j]; 1676 RawObjectPool::Entry& entry = pool->ptr()->data()[j];
1672 switch (entry_type) { 1677 switch (entry_type) {
1673 case ObjectPool::kTaggedObject: 1678 case ObjectPool::kTaggedObject:
1674 entry.raw_obj_ = d->ReadRef(); 1679 entry.raw_obj_ = d->ReadRef();
1675 break; 1680 break;
1676 case ObjectPool::kImmediate: 1681 case ObjectPool::kImmediate:
1677 entry.raw_value_ = d->Read<intptr_t>(); 1682 entry.raw_value_ = d->Read<int32_t>();
1678 break; 1683 break;
1679 case ObjectPool::kNativeEntry: { 1684 case ObjectPool::kNativeEntry: {
1680 #if !defined(TARGET_ARCH_DBC) 1685 #if !defined(TARGET_ARCH_DBC)
1681 // Read nothing. Initialize with the lazy link entry. 1686 // Read nothing. Initialize with the lazy link entry.
1682 uword new_entry = NativeEntry::LinkNativeCallEntry(); 1687 uword new_entry = NativeEntry::LinkNativeCallEntry();
1683 entry.raw_value_ = static_cast<intptr_t>(new_entry); 1688 entry.raw_value_ = static_cast<intptr_t>(new_entry);
1684 #else 1689 #else
1685 UNREACHABLE(); // DBC does not support lazy native call linking. 1690 UNREACHABLE(); // DBC does not support lazy native call linking.
1686 #endif 1691 #endif
1687 break; 1692 break;
(...skipping 33 matching lines...) Expand 10 before | Expand all | Expand 10 after
1721 Smi::Value(str->ptr()->length_) * 2); 1726 Smi::Value(str->ptr()->length_) * 2);
1722 str->ptr()->hash_ = Smi::New(hash); 1727 str->ptr()->hash_ = Smi::New(hash);
1723 } 1728 }
1724 ASSERT(str->ptr()->hash_ != Smi::New(0)); 1729 ASSERT(str->ptr()->hash_ != Smi::New(0));
1725 } 1730 }
1726 } 1731 }
1727 1732
1728 void WriteAlloc(Serializer* s) { 1733 void WriteAlloc(Serializer* s) {
1729 s->WriteCid(cid_); 1734 s->WriteCid(cid_);
1730 intptr_t count = objects_.length(); 1735 intptr_t count = objects_.length();
1731 s->Write<intptr_t>(count); 1736 s->Write<int32_t>(count);
1732 for (intptr_t i = 0; i < count; i++) { 1737 for (intptr_t i = 0; i < count; i++) {
1733 RawObject* object = objects_[i]; 1738 RawObject* object = objects_[i];
1734 int32_t rodata_offset = s->GetRODataOffset(object); 1739 int32_t rodata_offset = s->GetRODataOffset(object);
1735 s->Write<int32_t>(rodata_offset); 1740 s->Write<int32_t>(rodata_offset);
1736 s->AssignRef(object); 1741 s->AssignRef(object);
1737 } 1742 }
1738 } 1743 }
1739 1744
1740 void WriteFill(Serializer* s) { 1745 void WriteFill(Serializer* s) {
1741 // No-op. 1746 // No-op.
1742 } 1747 }
1743 1748
1744 private: 1749 private:
1745 const intptr_t cid_; 1750 const intptr_t cid_;
1746 GrowableArray<RawObject*> objects_; 1751 GrowableArray<RawObject*> objects_;
1747 }; 1752 };
1748 1753
1749 1754
1750 class RODataDeserializationCluster : public DeserializationCluster { 1755 class RODataDeserializationCluster : public DeserializationCluster {
1751 public: 1756 public:
1752 RODataDeserializationCluster() { } 1757 RODataDeserializationCluster() { }
1753 virtual ~RODataDeserializationCluster() { } 1758 virtual ~RODataDeserializationCluster() { }
1754 1759
1755 void ReadAlloc(Deserializer* d) { 1760 void ReadAlloc(Deserializer* d) {
1756 intptr_t count = d->Read<intptr_t>(); 1761 intptr_t count = d->Read<int32_t>();
1757 for (intptr_t i = 0; i < count; i++) { 1762 for (intptr_t i = 0; i < count; i++) {
1758 int32_t rodata_offset = d->Read<int32_t>(); 1763 int32_t rodata_offset = d->Read<int32_t>();
1759 d->AssignRef(d->GetObjectAt(rodata_offset)); 1764 d->AssignRef(d->GetObjectAt(rodata_offset));
1760 } 1765 }
1761 } 1766 }
1762 1767
1763 void ReadFill(Deserializer* d) { 1768 void ReadFill(Deserializer* d) {
1764 // No-op. 1769 // No-op.
1765 } 1770 }
1766 }; 1771 };
(...skipping 21 matching lines...) Expand all
1788 void Trace(Serializer* s, RawObject* object) { 1793 void Trace(Serializer* s, RawObject* object) {
1789 RawExceptionHandlers* handlers = ExceptionHandlers::RawCast(object); 1794 RawExceptionHandlers* handlers = ExceptionHandlers::RawCast(object);
1790 objects_.Add(handlers); 1795 objects_.Add(handlers);
1791 1796
1792 s->Push(handlers->ptr()->handled_types_data_); 1797 s->Push(handlers->ptr()->handled_types_data_);
1793 } 1798 }
1794 1799
1795 void WriteAlloc(Serializer* s) { 1800 void WriteAlloc(Serializer* s) {
1796 s->WriteCid(kExceptionHandlersCid); 1801 s->WriteCid(kExceptionHandlersCid);
1797 intptr_t count = objects_.length(); 1802 intptr_t count = objects_.length();
1798 s->Write<intptr_t>(count); 1803 s->Write<int32_t>(count);
1799 for (intptr_t i = 0; i < count; i++) { 1804 for (intptr_t i = 0; i < count; i++) {
1800 RawExceptionHandlers* handlers = objects_[i]; 1805 RawExceptionHandlers* handlers = objects_[i];
1801 intptr_t length = handlers->ptr()->num_entries_; 1806 intptr_t length = handlers->ptr()->num_entries_;
1802 s->Write<intptr_t>(length); 1807 s->Write<int32_t>(length);
1803 s->AssignRef(handlers); 1808 s->AssignRef(handlers);
1804 } 1809 }
1805 } 1810 }
1806 1811
1807 void WriteFill(Serializer* s) { 1812 void WriteFill(Serializer* s) {
1808 intptr_t count = objects_.length(); 1813 intptr_t count = objects_.length();
1809 for (intptr_t i = 0; i < count; i++) { 1814 for (intptr_t i = 0; i < count; i++) {
1810 RawExceptionHandlers* handlers = objects_[i]; 1815 RawExceptionHandlers* handlers = objects_[i];
1811 intptr_t length = handlers->ptr()->num_entries_; 1816 intptr_t length = handlers->ptr()->num_entries_;
1812 s->Write<intptr_t>(length); 1817 s->Write<int32_t>(length);
1813 s->WriteRef(handlers->ptr()->handled_types_data_); 1818 s->WriteRef(handlers->ptr()->handled_types_data_);
1814 1819
1815 uint8_t* data = reinterpret_cast<uint8_t*>(handlers->ptr()->data()); 1820 uint8_t* data = reinterpret_cast<uint8_t*>(handlers->ptr()->data());
1816 intptr_t length_in_bytes = 1821 intptr_t length_in_bytes =
1817 length * sizeof(RawExceptionHandlers::HandlerInfo); 1822 length * sizeof(RawExceptionHandlers::HandlerInfo);
1818 s->WriteBytes(data, length_in_bytes); 1823 s->WriteBytes(data, length_in_bytes);
1819 } 1824 }
1820 } 1825 }
1821 1826
1822 private: 1827 private:
1823 GrowableArray<RawExceptionHandlers*> objects_; 1828 GrowableArray<RawExceptionHandlers*> objects_;
1824 }; 1829 };
1825 1830
1826 1831
1827 class ExceptionHandlersDeserializationCluster : public DeserializationCluster { 1832 class ExceptionHandlersDeserializationCluster : public DeserializationCluster {
1828 public: 1833 public:
1829 ExceptionHandlersDeserializationCluster() { } 1834 ExceptionHandlersDeserializationCluster() { }
1830 virtual ~ExceptionHandlersDeserializationCluster() { } 1835 virtual ~ExceptionHandlersDeserializationCluster() { }
1831 1836
1832 void ReadAlloc(Deserializer* d) { 1837 void ReadAlloc(Deserializer* d) {
1833 start_index_ = d->next_index(); 1838 start_index_ = d->next_index();
1834 PageSpace* old_space = d->heap()->old_space(); 1839 PageSpace* old_space = d->heap()->old_space();
1835 intptr_t count = d->Read<intptr_t>(); 1840 intptr_t count = d->Read<int32_t>();
1836 for (intptr_t i = 0; i < count; i++) { 1841 for (intptr_t i = 0; i < count; i++) {
1837 intptr_t length = d->Read<intptr_t>(); 1842 intptr_t length = d->Read<int32_t>();
1838 d->AssignRef(AllocateUninitialized(old_space, 1843 d->AssignRef(AllocateUninitialized(old_space,
1839 ExceptionHandlers::InstanceSize(length))); 1844 ExceptionHandlers::InstanceSize(length)));
1840 } 1845 }
1841 stop_index_ = d->next_index(); 1846 stop_index_ = d->next_index();
1842 } 1847 }
1843 1848
1844 void ReadFill(Deserializer* d) { 1849 void ReadFill(Deserializer* d) {
1845 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 1850 bool is_vm_object = d->isolate() == Dart::vm_isolate();
1846 1851
1847 for (intptr_t id = start_index_; id < stop_index_; id++) { 1852 for (intptr_t id = start_index_; id < stop_index_; id++) {
1848 RawExceptionHandlers* handlers = 1853 RawExceptionHandlers* handlers =
1849 reinterpret_cast<RawExceptionHandlers*>(d->Ref(id)); 1854 reinterpret_cast<RawExceptionHandlers*>(d->Ref(id));
1850 intptr_t length = d->Read<intptr_t>(); 1855 intptr_t length = d->Read<int32_t>();
1851 Deserializer::InitializeHeader(handlers, kExceptionHandlersCid, 1856 Deserializer::InitializeHeader(handlers, kExceptionHandlersCid,
1852 ExceptionHandlers::InstanceSize(length), 1857 ExceptionHandlers::InstanceSize(length),
1853 is_vm_object); 1858 is_vm_object);
1854 handlers->ptr()->num_entries_ = length; 1859 handlers->ptr()->num_entries_ = length;
1855 handlers->ptr()->handled_types_data_ = 1860 handlers->ptr()->handled_types_data_ =
1856 reinterpret_cast<RawArray*>(d->ReadRef()); 1861 reinterpret_cast<RawArray*>(d->ReadRef());
1857 1862
1858 uint8_t* data = reinterpret_cast<uint8_t*>(handlers->ptr()->data()); 1863 uint8_t* data = reinterpret_cast<uint8_t*>(handlers->ptr()->data());
1859 intptr_t length_in_bytes = 1864 intptr_t length_in_bytes =
1860 length * sizeof(RawExceptionHandlers::HandlerInfo); 1865 length * sizeof(RawExceptionHandlers::HandlerInfo);
(...skipping 14 matching lines...) Expand all
1875 s->Push(context->ptr()->parent_); 1880 s->Push(context->ptr()->parent_);
1876 intptr_t length = context->ptr()->num_variables_; 1881 intptr_t length = context->ptr()->num_variables_;
1877 for (intptr_t i = 0; i < length; i++) { 1882 for (intptr_t i = 0; i < length; i++) {
1878 s->Push(context->ptr()->data()[i]); 1883 s->Push(context->ptr()->data()[i]);
1879 } 1884 }
1880 } 1885 }
1881 1886
1882 void WriteAlloc(Serializer* s) { 1887 void WriteAlloc(Serializer* s) {
1883 s->WriteCid(kContextCid); 1888 s->WriteCid(kContextCid);
1884 intptr_t count = objects_.length(); 1889 intptr_t count = objects_.length();
1885 s->Write<intptr_t>(count); 1890 s->Write<int32_t>(count);
1886 for (intptr_t i = 0; i < count; i++) { 1891 for (intptr_t i = 0; i < count; i++) {
1887 RawContext* context = objects_[i]; 1892 RawContext* context = objects_[i];
1888 intptr_t length = context->ptr()->num_variables_; 1893 intptr_t length = context->ptr()->num_variables_;
1889 s->Write<intptr_t>(length); 1894 s->Write<int32_t>(length);
1890 s->AssignRef(context); 1895 s->AssignRef(context);
1891 } 1896 }
1892 } 1897 }
1893 1898
1894 void WriteFill(Serializer* s) { 1899 void WriteFill(Serializer* s) {
1895 intptr_t count = objects_.length(); 1900 intptr_t count = objects_.length();
1896 for (intptr_t i = 0; i < count; i++) { 1901 for (intptr_t i = 0; i < count; i++) {
1897 RawContext* context = objects_[i]; 1902 RawContext* context = objects_[i];
1898 intptr_t length = context->ptr()->num_variables_; 1903 intptr_t length = context->ptr()->num_variables_;
1899 s->Write<intptr_t>(length); 1904 s->Write<int32_t>(length);
1900 s->WriteRef(context->ptr()->parent_); 1905 s->WriteRef(context->ptr()->parent_);
1901 for (intptr_t j = 0; j < length; j++) { 1906 for (intptr_t j = 0; j < length; j++) {
1902 s->WriteRef(context->ptr()->data()[j]); 1907 s->WriteRef(context->ptr()->data()[j]);
1903 } 1908 }
1904 } 1909 }
1905 } 1910 }
1906 1911
1907 private: 1912 private:
1908 GrowableArray<RawContext*> objects_; 1913 GrowableArray<RawContext*> objects_;
1909 }; 1914 };
1910 1915
1911 1916
1912 class ContextDeserializationCluster : public DeserializationCluster { 1917 class ContextDeserializationCluster : public DeserializationCluster {
1913 public: 1918 public:
1914 ContextDeserializationCluster() { } 1919 ContextDeserializationCluster() { }
1915 virtual ~ContextDeserializationCluster() { } 1920 virtual ~ContextDeserializationCluster() { }
1916 1921
1917 void ReadAlloc(Deserializer* d) { 1922 void ReadAlloc(Deserializer* d) {
1918 start_index_ = d->next_index(); 1923 start_index_ = d->next_index();
1919 PageSpace* old_space = d->heap()->old_space(); 1924 PageSpace* old_space = d->heap()->old_space();
1920 intptr_t count = d->Read<intptr_t>(); 1925 intptr_t count = d->Read<int32_t>();
1921 for (intptr_t i = 0; i < count; i++) { 1926 for (intptr_t i = 0; i < count; i++) {
1922 intptr_t length = d->Read<intptr_t>(); 1927 intptr_t length = d->Read<int32_t>();
1923 d->AssignRef(AllocateUninitialized(old_space, 1928 d->AssignRef(AllocateUninitialized(old_space,
1924 Context::InstanceSize(length))); 1929 Context::InstanceSize(length)));
1925 } 1930 }
1926 stop_index_ = d->next_index(); 1931 stop_index_ = d->next_index();
1927 } 1932 }
1928 1933
1929 void ReadFill(Deserializer* d) { 1934 void ReadFill(Deserializer* d) {
1930 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 1935 bool is_vm_object = d->isolate() == Dart::vm_isolate();
1931 1936
1932 for (intptr_t id = start_index_; id < stop_index_; id++) { 1937 for (intptr_t id = start_index_; id < stop_index_; id++) {
1933 RawContext* context = reinterpret_cast<RawContext*>(d->Ref(id)); 1938 RawContext* context = reinterpret_cast<RawContext*>(d->Ref(id));
1934 intptr_t length = d->Read<intptr_t>(); 1939 intptr_t length = d->Read<int32_t>();
1935 Deserializer::InitializeHeader(context, kContextCid, 1940 Deserializer::InitializeHeader(context, kContextCid,
1936 Context::InstanceSize(length), 1941 Context::InstanceSize(length),
1937 is_vm_object); 1942 is_vm_object);
1938 context->ptr()->num_variables_ = length; 1943 context->ptr()->num_variables_ = length;
1939 context->ptr()->parent_ = reinterpret_cast<RawContext*>(d->ReadRef()); 1944 context->ptr()->parent_ = reinterpret_cast<RawContext*>(d->ReadRef());
1940 for (intptr_t j = 0; j < length; j++) { 1945 for (intptr_t j = 0; j < length; j++) {
1941 context->ptr()->data()[j] = d->ReadRef(); 1946 context->ptr()->data()[j] = d->ReadRef();
1942 } 1947 }
1943 } 1948 }
1944 } 1949 }
(...skipping 13 matching lines...) Expand all
1958 RawObject** from = scope->from(); 1963 RawObject** from = scope->from();
1959 RawObject** to = scope->to(length); 1964 RawObject** to = scope->to(length);
1960 for (RawObject** p = from; p <= to; p++) { 1965 for (RawObject** p = from; p <= to; p++) {
1961 s->Push(*p); 1966 s->Push(*p);
1962 } 1967 }
1963 } 1968 }
1964 1969
1965 void WriteAlloc(Serializer* s) { 1970 void WriteAlloc(Serializer* s) {
1966 s->WriteCid(kContextScopeCid); 1971 s->WriteCid(kContextScopeCid);
1967 intptr_t count = objects_.length(); 1972 intptr_t count = objects_.length();
1968 s->Write<intptr_t>(count); 1973 s->Write<int32_t>(count);
1969 for (intptr_t i = 0; i < count; i++) { 1974 for (intptr_t i = 0; i < count; i++) {
1970 RawContextScope* scope = objects_[i]; 1975 RawContextScope* scope = objects_[i];
1971 intptr_t length = scope->ptr()->num_variables_; 1976 intptr_t length = scope->ptr()->num_variables_;
1972 s->Write<intptr_t>(length); 1977 s->Write<int32_t>(length);
1973 s->AssignRef(scope); 1978 s->AssignRef(scope);
1974 } 1979 }
1975 } 1980 }
1976 1981
1977 void WriteFill(Serializer* s) { 1982 void WriteFill(Serializer* s) {
1978 intptr_t count = objects_.length(); 1983 intptr_t count = objects_.length();
1979 for (intptr_t i = 0; i < count; i++) { 1984 for (intptr_t i = 0; i < count; i++) {
1980 RawContextScope* scope = objects_[i]; 1985 RawContextScope* scope = objects_[i];
1981 intptr_t length = scope->ptr()->num_variables_; 1986 intptr_t length = scope->ptr()->num_variables_;
1982 s->Write<intptr_t>(length); 1987 s->Write<int32_t>(length);
1983 s->Write<bool>(scope->ptr()->is_implicit_); 1988 s->Write<bool>(scope->ptr()->is_implicit_);
1984 RawObject** from = scope->from(); 1989 RawObject** from = scope->from();
1985 RawObject** to = scope->to(length); 1990 RawObject** to = scope->to(length);
1986 for (RawObject** p = from; p <= to; p++) { 1991 for (RawObject** p = from; p <= to; p++) {
1987 s->WriteRef(*p); 1992 s->WriteRef(*p);
1988 } 1993 }
1989 } 1994 }
1990 } 1995 }
1991 1996
1992 private: 1997 private:
1993 GrowableArray<RawContextScope*> objects_; 1998 GrowableArray<RawContextScope*> objects_;
1994 }; 1999 };
1995 2000
1996 2001
1997 class ContextScopeDeserializationCluster : public DeserializationCluster { 2002 class ContextScopeDeserializationCluster : public DeserializationCluster {
1998 public: 2003 public:
1999 ContextScopeDeserializationCluster() { } 2004 ContextScopeDeserializationCluster() { }
2000 virtual ~ContextScopeDeserializationCluster() { } 2005 virtual ~ContextScopeDeserializationCluster() { }
2001 2006
2002 void ReadAlloc(Deserializer* d) { 2007 void ReadAlloc(Deserializer* d) {
2003 start_index_ = d->next_index(); 2008 start_index_ = d->next_index();
2004 PageSpace* old_space = d->heap()->old_space(); 2009 PageSpace* old_space = d->heap()->old_space();
2005 intptr_t count = d->Read<intptr_t>(); 2010 intptr_t count = d->Read<int32_t>();
2006 for (intptr_t i = 0; i < count; i++) { 2011 for (intptr_t i = 0; i < count; i++) {
2007 intptr_t length = d->Read<intptr_t>(); 2012 intptr_t length = d->Read<int32_t>();
2008 d->AssignRef(AllocateUninitialized(old_space, 2013 d->AssignRef(AllocateUninitialized(old_space,
2009 ContextScope::InstanceSize(length))); 2014 ContextScope::InstanceSize(length)));
2010 } 2015 }
2011 stop_index_ = d->next_index(); 2016 stop_index_ = d->next_index();
2012 } 2017 }
2013 2018
2014 void ReadFill(Deserializer* d) { 2019 void ReadFill(Deserializer* d) {
2015 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 2020 bool is_vm_object = d->isolate() == Dart::vm_isolate();
2016 2021
2017 for (intptr_t id = start_index_; id < stop_index_; id++) { 2022 for (intptr_t id = start_index_; id < stop_index_; id++) {
2018 RawContextScope* scope = reinterpret_cast<RawContextScope*>(d->Ref(id)); 2023 RawContextScope* scope = reinterpret_cast<RawContextScope*>(d->Ref(id));
2019 intptr_t length = d->Read<intptr_t>(); 2024 intptr_t length = d->Read<int32_t>();
2020 Deserializer::InitializeHeader(scope, kContextScopeCid, 2025 Deserializer::InitializeHeader(scope, kContextScopeCid,
2021 ContextScope::InstanceSize(length), 2026 ContextScope::InstanceSize(length),
2022 is_vm_object); 2027 is_vm_object);
2023 scope->ptr()->num_variables_ = length; 2028 scope->ptr()->num_variables_ = length;
2024 scope->ptr()->is_implicit_ = d->Read<bool>(); 2029 scope->ptr()->is_implicit_ = d->Read<bool>();
2025 RawObject** from = scope->from(); 2030 RawObject** from = scope->from();
2026 RawObject** to = scope->to(length); 2031 RawObject** to = scope->to(length);
2027 for (RawObject** p = from; p <= to; p++) { 2032 for (RawObject** p = from; p <= to; p++) {
2028 *p = d->ReadRef(); 2033 *p = d->ReadRef();
2029 } 2034 }
(...skipping 14 matching lines...) Expand all
2044 RawObject** from = ic->from(); 2049 RawObject** from = ic->from();
2045 RawObject** to = ic->to_snapshot(s->kind()); 2050 RawObject** to = ic->to_snapshot(s->kind());
2046 for (RawObject** p = from; p <= to; p++) { 2051 for (RawObject** p = from; p <= to; p++) {
2047 s->Push(*p); 2052 s->Push(*p);
2048 } 2053 }
2049 } 2054 }
2050 2055
2051 void WriteAlloc(Serializer* s) { 2056 void WriteAlloc(Serializer* s) {
2052 s->WriteCid(kICDataCid); 2057 s->WriteCid(kICDataCid);
2053 intptr_t count = objects_.length(); 2058 intptr_t count = objects_.length();
2054 s->Write<intptr_t>(count); 2059 s->Write<int32_t>(count);
2055 for (intptr_t i = 0; i < count; i++) { 2060 for (intptr_t i = 0; i < count; i++) {
2056 RawICData* ic = objects_[i]; 2061 RawICData* ic = objects_[i];
2057 s->AssignRef(ic); 2062 s->AssignRef(ic);
2058 } 2063 }
2059 } 2064 }
2060 2065
2061 void WriteFill(Serializer* s) { 2066 void WriteFill(Serializer* s) {
2062 Snapshot::Kind kind = s->kind(); 2067 Snapshot::Kind kind = s->kind();
2063 intptr_t count = objects_.length(); 2068 intptr_t count = objects_.length();
2064 for (intptr_t i = 0; i < count; i++) { 2069 for (intptr_t i = 0; i < count; i++) {
2065 RawICData* ic = objects_[i]; 2070 RawICData* ic = objects_[i];
2066 RawObject** from = ic->from(); 2071 RawObject** from = ic->from();
2067 RawObject** to = ic->to_snapshot(kind); 2072 RawObject** to = ic->to_snapshot(kind);
2068 for (RawObject** p = from; p <= to; p++) { 2073 for (RawObject** p = from; p <= to; p++) {
2069 s->WriteRef(*p); 2074 s->WriteRef(*p);
2070 } 2075 }
2071 s->Write<int32_t>(ic->ptr()->deopt_id_); 2076 s->Write<int32_t>(ic->ptr()->deopt_id_);
2072 s->Write<uint32_t>(ic->ptr()->state_bits_); 2077 s->Write<uint32_t>(ic->ptr()->state_bits_);
2073 #if defined(TAG_IC_DATA) 2078 #if defined(TAG_IC_DATA)
2074 s->Write<intptr_t>(ic->ptr()->tag_); 2079 s->Write<int32_t>(ic->ptr()->tag_);
2075 #endif 2080 #endif
2076 } 2081 }
2077 } 2082 }
2078 2083
2079 private: 2084 private:
2080 GrowableArray<RawICData*> objects_; 2085 GrowableArray<RawICData*> objects_;
2081 }; 2086 };
2082 2087
2083 2088
2084 class ICDataDeserializationCluster : public DeserializationCluster { 2089 class ICDataDeserializationCluster : public DeserializationCluster {
2085 public: 2090 public:
2086 ICDataDeserializationCluster() { } 2091 ICDataDeserializationCluster() { }
2087 virtual ~ICDataDeserializationCluster() { } 2092 virtual ~ICDataDeserializationCluster() { }
2088 2093
2089 void ReadAlloc(Deserializer* d) { 2094 void ReadAlloc(Deserializer* d) {
2090 start_index_ = d->next_index(); 2095 start_index_ = d->next_index();
2091 PageSpace* old_space = d->heap()->old_space(); 2096 PageSpace* old_space = d->heap()->old_space();
2092 intptr_t count = d->Read<intptr_t>(); 2097 intptr_t count = d->Read<int32_t>();
2093 for (intptr_t i = 0; i < count; i++) { 2098 for (intptr_t i = 0; i < count; i++) {
2094 d->AssignRef(AllocateUninitialized(old_space, ICData::InstanceSize())); 2099 d->AssignRef(AllocateUninitialized(old_space, ICData::InstanceSize()));
2095 } 2100 }
2096 stop_index_ = d->next_index(); 2101 stop_index_ = d->next_index();
2097 } 2102 }
2098 2103
2099 void ReadFill(Deserializer* d) { 2104 void ReadFill(Deserializer* d) {
2100 Snapshot::Kind kind = d->kind(); 2105 Snapshot::Kind kind = d->kind();
2101 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 2106 bool is_vm_object = d->isolate() == Dart::vm_isolate();
2102 2107
2103 for (intptr_t id = start_index_; id < stop_index_; id++) { 2108 for (intptr_t id = start_index_; id < stop_index_; id++) {
2104 RawICData* ic = reinterpret_cast<RawICData*>(d->Ref(id)); 2109 RawICData* ic = reinterpret_cast<RawICData*>(d->Ref(id));
2105 Deserializer::InitializeHeader(ic, kICDataCid, 2110 Deserializer::InitializeHeader(ic, kICDataCid,
2106 ICData::InstanceSize(), is_vm_object); 2111 ICData::InstanceSize(), is_vm_object);
2107 RawObject** from = ic->from(); 2112 RawObject** from = ic->from();
2108 RawObject** to_snapshot = ic->to_snapshot(kind); 2113 RawObject** to_snapshot = ic->to_snapshot(kind);
2109 RawObject** to = ic->to(); 2114 RawObject** to = ic->to();
2110 for (RawObject** p = from; p <= to_snapshot; p++) { 2115 for (RawObject** p = from; p <= to_snapshot; p++) {
2111 *p = d->ReadRef(); 2116 *p = d->ReadRef();
2112 } 2117 }
2113 for (RawObject** p = to_snapshot + 1; p <= to; p++) { 2118 for (RawObject** p = to_snapshot + 1; p <= to; p++) {
2114 *p = Object::null(); 2119 *p = Object::null();
2115 } 2120 }
2116 ic->ptr()->deopt_id_ = d->Read<int32_t>(); 2121 ic->ptr()->deopt_id_ = d->Read<int32_t>();
2117 ic->ptr()->state_bits_ = d->Read<int32_t>(); 2122 ic->ptr()->state_bits_ = d->Read<int32_t>();
2118 #if defined(TAG_IC_DATA) 2123 #if defined(TAG_IC_DATA)
2119 ic->ptr()->tag_ = d->Read<intptr_t>(); 2124 ic->ptr()->tag_ = d->Read<int32_t>();
2120 #endif 2125 #endif
2121 } 2126 }
2122 } 2127 }
2123 2128
2124 void PostLoad(const Array& refs, Snapshot::Kind kind, Zone* zone) { 2129 void PostLoad(const Array& refs, Snapshot::Kind kind, Zone* zone) {
2125 NOT_IN_PRODUCT(TimelineDurationScope tds(Thread::Current(), 2130 NOT_IN_PRODUCT(TimelineDurationScope tds(Thread::Current(),
2126 Timeline::GetIsolateStream(), "PostLoadICData")); 2131 Timeline::GetIsolateStream(), "PostLoadICData"));
2127 2132
2128 if (kind == Snapshot::kAppNoJIT) { 2133 if (kind == Snapshot::kAppNoJIT) {
2129 ICData& ic = ICData::Handle(zone); 2134 ICData& ic = ICData::Handle(zone);
(...skipping 28 matching lines...) Expand all
2158 RawObject** from = cache->from(); 2163 RawObject** from = cache->from();
2159 RawObject** to = cache->to(); 2164 RawObject** to = cache->to();
2160 for (RawObject** p = from; p <= to; p++) { 2165 for (RawObject** p = from; p <= to; p++) {
2161 s->Push(*p); 2166 s->Push(*p);
2162 } 2167 }
2163 } 2168 }
2164 2169
2165 void WriteAlloc(Serializer* s) { 2170 void WriteAlloc(Serializer* s) {
2166 s->WriteCid(kMegamorphicCacheCid); 2171 s->WriteCid(kMegamorphicCacheCid);
2167 intptr_t count = objects_.length(); 2172 intptr_t count = objects_.length();
2168 s->Write<intptr_t>(count); 2173 s->Write<int32_t>(count);
2169 for (intptr_t i = 0; i < count; i++) { 2174 for (intptr_t i = 0; i < count; i++) {
2170 RawMegamorphicCache* cache = objects_[i]; 2175 RawMegamorphicCache* cache = objects_[i];
2171 s->AssignRef(cache); 2176 s->AssignRef(cache);
2172 } 2177 }
2173 } 2178 }
2174 2179
2175 void WriteFill(Serializer* s) { 2180 void WriteFill(Serializer* s) {
2176 intptr_t count = objects_.length(); 2181 intptr_t count = objects_.length();
2177 for (intptr_t i = 0; i < count; i++) { 2182 for (intptr_t i = 0; i < count; i++) {
2178 RawMegamorphicCache* cache = objects_[i]; 2183 RawMegamorphicCache* cache = objects_[i];
(...skipping 12 matching lines...) Expand all
2191 2196
2192 2197
2193 class MegamorphicCacheDeserializationCluster : public DeserializationCluster { 2198 class MegamorphicCacheDeserializationCluster : public DeserializationCluster {
2194 public: 2199 public:
2195 MegamorphicCacheDeserializationCluster() { } 2200 MegamorphicCacheDeserializationCluster() { }
2196 virtual ~MegamorphicCacheDeserializationCluster() { } 2201 virtual ~MegamorphicCacheDeserializationCluster() { }
2197 2202
2198 void ReadAlloc(Deserializer* d) { 2203 void ReadAlloc(Deserializer* d) {
2199 start_index_ = d->next_index(); 2204 start_index_ = d->next_index();
2200 PageSpace* old_space = d->heap()->old_space(); 2205 PageSpace* old_space = d->heap()->old_space();
2201 intptr_t count = d->Read<intptr_t>(); 2206 intptr_t count = d->Read<int32_t>();
2202 for (intptr_t i = 0; i < count; i++) { 2207 for (intptr_t i = 0; i < count; i++) {
2203 d->AssignRef(AllocateUninitialized(old_space, 2208 d->AssignRef(AllocateUninitialized(old_space,
2204 MegamorphicCache::InstanceSize())); 2209 MegamorphicCache::InstanceSize()));
2205 } 2210 }
2206 stop_index_ = d->next_index(); 2211 stop_index_ = d->next_index();
2207 } 2212 }
2208 2213
2209 void ReadFill(Deserializer* d) { 2214 void ReadFill(Deserializer* d) {
2210 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 2215 bool is_vm_object = d->isolate() == Dart::vm_isolate();
2211 2216
(...skipping 21 matching lines...) Expand all
2233 2238
2234 void Trace(Serializer* s, RawObject* object) { 2239 void Trace(Serializer* s, RawObject* object) {
2235 RawSubtypeTestCache* cache = SubtypeTestCache::RawCast(object); 2240 RawSubtypeTestCache* cache = SubtypeTestCache::RawCast(object);
2236 objects_.Add(cache); 2241 objects_.Add(cache);
2237 s->Push(cache->ptr()->cache_); 2242 s->Push(cache->ptr()->cache_);
2238 } 2243 }
2239 2244
2240 void WriteAlloc(Serializer* s) { 2245 void WriteAlloc(Serializer* s) {
2241 s->WriteCid(kSubtypeTestCacheCid); 2246 s->WriteCid(kSubtypeTestCacheCid);
2242 intptr_t count = objects_.length(); 2247 intptr_t count = objects_.length();
2243 s->Write<intptr_t>(count); 2248 s->Write<int32_t>(count);
2244 for (intptr_t i = 0; i < count; i++) { 2249 for (intptr_t i = 0; i < count; i++) {
2245 RawSubtypeTestCache* cache = objects_[i]; 2250 RawSubtypeTestCache* cache = objects_[i];
2246 s->AssignRef(cache); 2251 s->AssignRef(cache);
2247 } 2252 }
2248 } 2253 }
2249 2254
2250 void WriteFill(Serializer* s) { 2255 void WriteFill(Serializer* s) {
2251 intptr_t count = objects_.length(); 2256 intptr_t count = objects_.length();
2252 for (intptr_t i = 0; i < count; i++) { 2257 for (intptr_t i = 0; i < count; i++) {
2253 RawSubtypeTestCache* cache = objects_[i]; 2258 RawSubtypeTestCache* cache = objects_[i];
2254 s->WriteRef(cache->ptr()->cache_); 2259 s->WriteRef(cache->ptr()->cache_);
2255 } 2260 }
2256 } 2261 }
2257 2262
2258 private: 2263 private:
2259 GrowableArray<RawSubtypeTestCache*> objects_; 2264 GrowableArray<RawSubtypeTestCache*> objects_;
2260 }; 2265 };
2261 2266
2262 2267
2263 class SubtypeTestCacheDeserializationCluster : public DeserializationCluster { 2268 class SubtypeTestCacheDeserializationCluster : public DeserializationCluster {
2264 public: 2269 public:
2265 SubtypeTestCacheDeserializationCluster() { } 2270 SubtypeTestCacheDeserializationCluster() { }
2266 virtual ~SubtypeTestCacheDeserializationCluster() { } 2271 virtual ~SubtypeTestCacheDeserializationCluster() { }
2267 2272
2268 void ReadAlloc(Deserializer* d) { 2273 void ReadAlloc(Deserializer* d) {
2269 start_index_ = d->next_index(); 2274 start_index_ = d->next_index();
2270 PageSpace* old_space = d->heap()->old_space(); 2275 PageSpace* old_space = d->heap()->old_space();
2271 intptr_t count = d->Read<intptr_t>(); 2276 intptr_t count = d->Read<int32_t>();
2272 for (intptr_t i = 0; i < count; i++) { 2277 for (intptr_t i = 0; i < count; i++) {
2273 d->AssignRef(AllocateUninitialized(old_space, 2278 d->AssignRef(AllocateUninitialized(old_space,
2274 SubtypeTestCache::InstanceSize())); 2279 SubtypeTestCache::InstanceSize()));
2275 } 2280 }
2276 stop_index_ = d->next_index(); 2281 stop_index_ = d->next_index();
2277 } 2282 }
2278 2283
2279 void ReadFill(Deserializer* d) { 2284 void ReadFill(Deserializer* d) {
2280 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 2285 bool is_vm_object = d->isolate() == Dart::vm_isolate();
2281 2286
(...skipping 21 matching lines...) Expand all
2303 RawObject** from = error->from(); 2308 RawObject** from = error->from();
2304 RawObject** to = error->to(); 2309 RawObject** to = error->to();
2305 for (RawObject** p = from; p <= to; p++) { 2310 for (RawObject** p = from; p <= to; p++) {
2306 s->Push(*p); 2311 s->Push(*p);
2307 } 2312 }
2308 } 2313 }
2309 2314
2310 void WriteAlloc(Serializer* s) { 2315 void WriteAlloc(Serializer* s) {
2311 s->WriteCid(kLanguageErrorCid); 2316 s->WriteCid(kLanguageErrorCid);
2312 intptr_t count = objects_.length(); 2317 intptr_t count = objects_.length();
2313 s->Write<intptr_t>(count); 2318 s->Write<int32_t>(count);
2314 for (intptr_t i = 0; i < count; i++) { 2319 for (intptr_t i = 0; i < count; i++) {
2315 RawLanguageError* error = objects_[i]; 2320 RawLanguageError* error = objects_[i];
2316 s->AssignRef(error); 2321 s->AssignRef(error);
2317 } 2322 }
2318 } 2323 }
2319 2324
2320 void WriteFill(Serializer* s) { 2325 void WriteFill(Serializer* s) {
2321 intptr_t count = objects_.length(); 2326 intptr_t count = objects_.length();
2322 for (intptr_t i = 0; i < count; i++) { 2327 for (intptr_t i = 0; i < count; i++) {
2323 RawLanguageError* error = objects_[i]; 2328 RawLanguageError* error = objects_[i];
(...skipping 14 matching lines...) Expand all
2338 2343
2339 2344
2340 class LanguageErrorDeserializationCluster : public DeserializationCluster { 2345 class LanguageErrorDeserializationCluster : public DeserializationCluster {
2341 public: 2346 public:
2342 LanguageErrorDeserializationCluster() { } 2347 LanguageErrorDeserializationCluster() { }
2343 virtual ~LanguageErrorDeserializationCluster() { } 2348 virtual ~LanguageErrorDeserializationCluster() { }
2344 2349
2345 void ReadAlloc(Deserializer* d) { 2350 void ReadAlloc(Deserializer* d) {
2346 start_index_ = d->next_index(); 2351 start_index_ = d->next_index();
2347 PageSpace* old_space = d->heap()->old_space(); 2352 PageSpace* old_space = d->heap()->old_space();
2348 intptr_t count = d->Read<intptr_t>(); 2353 intptr_t count = d->Read<int32_t>();
2349 for (intptr_t i = 0; i < count; i++) { 2354 for (intptr_t i = 0; i < count; i++) {
2350 d->AssignRef(AllocateUninitialized(old_space, 2355 d->AssignRef(AllocateUninitialized(old_space,
2351 LanguageError::InstanceSize())); 2356 LanguageError::InstanceSize()));
2352 } 2357 }
2353 stop_index_ = d->next_index(); 2358 stop_index_ = d->next_index();
2354 } 2359 }
2355 2360
2356 void ReadFill(Deserializer* d) { 2361 void ReadFill(Deserializer* d) {
2357 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 2362 bool is_vm_object = d->isolate() == Dart::vm_isolate();
2358 2363
(...skipping 27 matching lines...) Expand all
2386 RawObject** from = exception->from(); 2391 RawObject** from = exception->from();
2387 RawObject** to = exception->to(); 2392 RawObject** to = exception->to();
2388 for (RawObject** p = from; p <= to; p++) { 2393 for (RawObject** p = from; p <= to; p++) {
2389 s->Push(*p); 2394 s->Push(*p);
2390 } 2395 }
2391 } 2396 }
2392 2397
2393 void WriteAlloc(Serializer* s) { 2398 void WriteAlloc(Serializer* s) {
2394 s->WriteCid(kUnhandledExceptionCid); 2399 s->WriteCid(kUnhandledExceptionCid);
2395 intptr_t count = objects_.length(); 2400 intptr_t count = objects_.length();
2396 s->Write<intptr_t>(count); 2401 s->Write<int32_t>(count);
2397 for (intptr_t i = 0; i < count; i++) { 2402 for (intptr_t i = 0; i < count; i++) {
2398 RawUnhandledException* exception = objects_[i]; 2403 RawUnhandledException* exception = objects_[i];
2399 s->AssignRef(exception); 2404 s->AssignRef(exception);
2400 } 2405 }
2401 } 2406 }
2402 2407
2403 void WriteFill(Serializer* s) { 2408 void WriteFill(Serializer* s) {
2404 intptr_t count = objects_.length(); 2409 intptr_t count = objects_.length();
2405 for (intptr_t i = 0; i < count; i++) { 2410 for (intptr_t i = 0; i < count; i++) {
2406 RawUnhandledException* exception = objects_[i]; 2411 RawUnhandledException* exception = objects_[i];
(...skipping 11 matching lines...) Expand all
2418 2423
2419 2424
2420 class UnhandledExceptionDeserializationCluster : public DeserializationCluster { 2425 class UnhandledExceptionDeserializationCluster : public DeserializationCluster {
2421 public: 2426 public:
2422 UnhandledExceptionDeserializationCluster() { } 2427 UnhandledExceptionDeserializationCluster() { }
2423 virtual ~UnhandledExceptionDeserializationCluster() { } 2428 virtual ~UnhandledExceptionDeserializationCluster() { }
2424 2429
2425 void ReadAlloc(Deserializer* d) { 2430 void ReadAlloc(Deserializer* d) {
2426 start_index_ = d->next_index(); 2431 start_index_ = d->next_index();
2427 PageSpace* old_space = d->heap()->old_space(); 2432 PageSpace* old_space = d->heap()->old_space();
2428 intptr_t count = d->Read<intptr_t>(); 2433 intptr_t count = d->Read<int32_t>();
2429 for (intptr_t i = 0; i < count; i++) { 2434 for (intptr_t i = 0; i < count; i++) {
2430 d->AssignRef(AllocateUninitialized(old_space, 2435 d->AssignRef(AllocateUninitialized(old_space,
2431 UnhandledException::InstanceSize())); 2436 UnhandledException::InstanceSize()));
2432 } 2437 }
2433 stop_index_ = d->next_index(); 2438 stop_index_ = d->next_index();
2434 } 2439 }
2435 2440
2436 void ReadFill(Deserializer* d) { 2441 void ReadFill(Deserializer* d) {
2437 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 2442 bool is_vm_object = d->isolate() == Dart::vm_isolate();
2438 2443
(...skipping 10 matching lines...) Expand all
2449 } 2454 }
2450 } 2455 }
2451 } 2456 }
2452 }; 2457 };
2453 2458
2454 2459
2455 class InstanceSerializationCluster : public SerializationCluster { 2460 class InstanceSerializationCluster : public SerializationCluster {
2456 public: 2461 public:
2457 explicit InstanceSerializationCluster(intptr_t cid) : cid_(cid) { 2462 explicit InstanceSerializationCluster(intptr_t cid) : cid_(cid) {
2458 RawClass* cls = Isolate::Current()->class_table()->At(cid); 2463 RawClass* cls = Isolate::Current()->class_table()->At(cid);
2459 next_field_offset_ = 2464 next_field_offset_in_words_ = cls->ptr()->next_field_offset_in_words_;
2460 cls->ptr()->next_field_offset_in_words_ << kWordSizeLog2;
2461 instance_size_in_words_ = cls->ptr()->instance_size_in_words_; 2465 instance_size_in_words_ = cls->ptr()->instance_size_in_words_;
2462 ASSERT(next_field_offset_ > 0); 2466 ASSERT(next_field_offset_in_words_ > 0);
2463 ASSERT(instance_size_in_words_ > 0); 2467 ASSERT(instance_size_in_words_ > 0);
2464 } 2468 }
2465 virtual ~InstanceSerializationCluster() { } 2469 virtual ~InstanceSerializationCluster() { }
2466 2470
2467 void Trace(Serializer* s, RawObject* object) { 2471 void Trace(Serializer* s, RawObject* object) {
2468 RawInstance* instance = Instance::RawCast(object); 2472 RawInstance* instance = Instance::RawCast(object);
2469 objects_.Add(instance); 2473 objects_.Add(instance);
2470 2474
2475 intptr_t next_field_offset = next_field_offset_in_words_ << kWordSizeLog2;
2471 intptr_t offset = Instance::NextFieldOffset(); 2476 intptr_t offset = Instance::NextFieldOffset();
2472 while (offset < next_field_offset_) { 2477 while (offset < next_field_offset) {
2473 RawObject* raw_obj = *reinterpret_cast<RawObject**>( 2478 RawObject* raw_obj = *reinterpret_cast<RawObject**>(
2474 reinterpret_cast<uword>(instance->ptr()) + offset); 2479 reinterpret_cast<uword>(instance->ptr()) + offset);
2475 s->Push(raw_obj); 2480 s->Push(raw_obj);
2476 offset += kWordSize; 2481 offset += kWordSize;
2477 } 2482 }
2478 } 2483 }
2479 2484
2480 void WriteAlloc(Serializer* s) { 2485 void WriteAlloc(Serializer* s) {
2481 s->Write<intptr_t>(cid_); 2486 s->Write<int32_t>(cid_);
2482 intptr_t count = objects_.length(); 2487 intptr_t count = objects_.length();
2483 s->Write<intptr_t>(count); 2488 s->Write<int32_t>(count);
2484 2489
2485 s->Write<intptr_t>(next_field_offset_); 2490 s->Write<int32_t>(next_field_offset_in_words_);
2486 s->Write<intptr_t>(instance_size_in_words_); 2491 s->Write<int32_t>(instance_size_in_words_);
2487 2492
2488 for (intptr_t i = 0; i < count; i++) { 2493 for (intptr_t i = 0; i < count; i++) {
2489 RawInstance* instance = objects_[i]; 2494 RawInstance* instance = objects_[i];
2490 s->AssignRef(instance); 2495 s->AssignRef(instance);
2491 } 2496 }
2492 } 2497 }
2493 2498
2494 void WriteFill(Serializer* s) { 2499 void WriteFill(Serializer* s) {
2500 intptr_t next_field_offset = next_field_offset_in_words_ << kWordSizeLog2;
2495 intptr_t count = objects_.length(); 2501 intptr_t count = objects_.length();
2496 for (intptr_t i = 0; i < count; i++) { 2502 for (intptr_t i = 0; i < count; i++) {
2497 RawInstance* instance = objects_[i]; 2503 RawInstance* instance = objects_[i];
2498 s->Write<bool>(instance->IsCanonical()); 2504 s->Write<bool>(instance->IsCanonical());
2499 intptr_t offset = Instance::NextFieldOffset(); 2505 intptr_t offset = Instance::NextFieldOffset();
2500 while (offset < next_field_offset_) { 2506 while (offset < next_field_offset) {
2501 RawObject* raw_obj = *reinterpret_cast<RawObject**>( 2507 RawObject* raw_obj = *reinterpret_cast<RawObject**>(
2502 reinterpret_cast<uword>(instance->ptr()) + offset); 2508 reinterpret_cast<uword>(instance->ptr()) + offset);
2503 s->WriteRef(raw_obj); 2509 s->WriteRef(raw_obj);
2504 offset += kWordSize; 2510 offset += kWordSize;
2505 } 2511 }
2506 } 2512 }
2507 } 2513 }
2508 2514
2509 private: 2515 private:
2510 const intptr_t cid_; 2516 const intptr_t cid_;
2511 intptr_t next_field_offset_; 2517 intptr_t next_field_offset_in_words_;
2512 intptr_t instance_size_in_words_; 2518 intptr_t instance_size_in_words_;
2513 GrowableArray<RawInstance*> objects_; 2519 GrowableArray<RawInstance*> objects_;
2514 }; 2520 };
2515 2521
2516 2522
2517 class InstanceDeserializationCluster : public DeserializationCluster { 2523 class InstanceDeserializationCluster : public DeserializationCluster {
2518 public: 2524 public:
2519 explicit InstanceDeserializationCluster(intptr_t cid) : cid_(cid) { } 2525 explicit InstanceDeserializationCluster(intptr_t cid) : cid_(cid) { }
2520 virtual ~InstanceDeserializationCluster() { } 2526 virtual ~InstanceDeserializationCluster() { }
2521 2527
2522 void ReadAlloc(Deserializer* d) { 2528 void ReadAlloc(Deserializer* d) {
2523 start_index_ = d->next_index(); 2529 start_index_ = d->next_index();
2524 PageSpace* old_space = d->heap()->old_space(); 2530 PageSpace* old_space = d->heap()->old_space();
2525 intptr_t count = d->Read<intptr_t>(); 2531 intptr_t count = d->Read<int32_t>();
2526 next_field_offset_ = d->Read<intptr_t>(); 2532 next_field_offset_in_words_ = d->Read<int32_t>();
2527 instance_size_in_words_ = d->Read<intptr_t>(); 2533 instance_size_in_words_ = d->Read<int32_t>();
2528 intptr_t instance_size = 2534 intptr_t instance_size =
2529 Object::RoundedAllocationSize(instance_size_in_words_ * kWordSize); 2535 Object::RoundedAllocationSize(instance_size_in_words_ * kWordSize);
2530 for (intptr_t i = 0; i < count; i++) { 2536 for (intptr_t i = 0; i < count; i++) {
2531 d->AssignRef(AllocateUninitialized(old_space, instance_size)); 2537 d->AssignRef(AllocateUninitialized(old_space, instance_size));
2532 } 2538 }
2533 stop_index_ = d->next_index(); 2539 stop_index_ = d->next_index();
2534 } 2540 }
2535 2541
2536 void ReadFill(Deserializer* d) { 2542 void ReadFill(Deserializer* d) {
2543 intptr_t next_field_offset = next_field_offset_in_words_ << kWordSizeLog2;
2537 intptr_t instance_size = 2544 intptr_t instance_size =
2538 Object::RoundedAllocationSize(instance_size_in_words_ * kWordSize); 2545 Object::RoundedAllocationSize(instance_size_in_words_ * kWordSize);
2539 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 2546 bool is_vm_object = d->isolate() == Dart::vm_isolate();
2540 2547
2541 for (intptr_t id = start_index_; id < stop_index_; id++) { 2548 for (intptr_t id = start_index_; id < stop_index_; id++) {
2542 RawInstance* instance = reinterpret_cast<RawInstance*>(d->Ref(id)); 2549 RawInstance* instance = reinterpret_cast<RawInstance*>(d->Ref(id));
2543 bool is_canonical = d->Read<bool>(); 2550 bool is_canonical = d->Read<bool>();
2544 Deserializer::InitializeHeader(instance, cid_, 2551 Deserializer::InitializeHeader(instance, cid_,
2545 instance_size, 2552 instance_size,
2546 is_vm_object, is_canonical); 2553 is_vm_object, is_canonical);
2547 intptr_t offset = Instance::NextFieldOffset(); 2554 intptr_t offset = Instance::NextFieldOffset();
2548 while (offset < next_field_offset_) { 2555 while (offset < next_field_offset) {
2549 RawObject** p = reinterpret_cast<RawObject**>( 2556 RawObject** p = reinterpret_cast<RawObject**>(
2550 reinterpret_cast<uword>(instance->ptr()) + offset); 2557 reinterpret_cast<uword>(instance->ptr()) + offset);
2551 *p = d->ReadRef(); 2558 *p = d->ReadRef();
2552 offset += kWordSize; 2559 offset += kWordSize;
2553 } 2560 }
2554 if (offset < instance_size) { 2561 if (offset < instance_size) {
2555 RawObject** p = reinterpret_cast<RawObject**>( 2562 RawObject** p = reinterpret_cast<RawObject**>(
2556 reinterpret_cast<uword>(instance->ptr()) + offset); 2563 reinterpret_cast<uword>(instance->ptr()) + offset);
2557 *p = Object::null(); 2564 *p = Object::null();
2558 offset += kWordSize; 2565 offset += kWordSize;
2559 } 2566 }
2560 ASSERT(offset == instance_size); 2567 ASSERT(offset == instance_size);
2561 } 2568 }
2562 } 2569 }
2563 2570
2564 private: 2571 private:
2565 const intptr_t cid_; 2572 const intptr_t cid_;
2566 intptr_t next_field_offset_; 2573 intptr_t next_field_offset_in_words_;
2567 intptr_t instance_size_in_words_; 2574 intptr_t instance_size_in_words_;
2568 }; 2575 };
2569 2576
2570 2577
2571 class LibraryPrefixSerializationCluster : public SerializationCluster { 2578 class LibraryPrefixSerializationCluster : public SerializationCluster {
2572 public: 2579 public:
2573 LibraryPrefixSerializationCluster() { } 2580 LibraryPrefixSerializationCluster() { }
2574 virtual ~LibraryPrefixSerializationCluster() { } 2581 virtual ~LibraryPrefixSerializationCluster() { }
2575 2582
2576 void Trace(Serializer* s, RawObject* object) { 2583 void Trace(Serializer* s, RawObject* object) {
2577 RawLibraryPrefix* prefix = LibraryPrefix::RawCast(object); 2584 RawLibraryPrefix* prefix = LibraryPrefix::RawCast(object);
2578 objects_.Add(prefix); 2585 objects_.Add(prefix);
2579 2586
2580 RawObject** from = prefix->from(); 2587 RawObject** from = prefix->from();
2581 RawObject** to = prefix->to(); 2588 RawObject** to = prefix->to();
2582 for (RawObject** p = from; p <= to; p++) { 2589 for (RawObject** p = from; p <= to; p++) {
2583 s->Push(*p); 2590 s->Push(*p);
2584 } 2591 }
2585 } 2592 }
2586 2593
2587 void WriteAlloc(Serializer* s) { 2594 void WriteAlloc(Serializer* s) {
2588 s->WriteCid(kLibraryPrefixCid); 2595 s->WriteCid(kLibraryPrefixCid);
2589 intptr_t count = objects_.length(); 2596 intptr_t count = objects_.length();
2590 s->Write<intptr_t>(count); 2597 s->Write<int32_t>(count);
2591 for (intptr_t i = 0; i < count; i++) { 2598 for (intptr_t i = 0; i < count; i++) {
2592 RawLibraryPrefix* prefix = objects_[i]; 2599 RawLibraryPrefix* prefix = objects_[i];
2593 s->AssignRef(prefix); 2600 s->AssignRef(prefix);
2594 } 2601 }
2595 } 2602 }
2596 2603
2597 void WriteFill(Serializer* s) { 2604 void WriteFill(Serializer* s) {
2598 intptr_t count = objects_.length(); 2605 intptr_t count = objects_.length();
2599 for (intptr_t i = 0; i < count; i++) { 2606 for (intptr_t i = 0; i < count; i++) {
2600 RawLibraryPrefix* prefix = objects_[i]; 2607 RawLibraryPrefix* prefix = objects_[i];
(...skipping 14 matching lines...) Expand all
2615 2622
2616 2623
2617 class LibraryPrefixDeserializationCluster : public DeserializationCluster { 2624 class LibraryPrefixDeserializationCluster : public DeserializationCluster {
2618 public: 2625 public:
2619 LibraryPrefixDeserializationCluster() { } 2626 LibraryPrefixDeserializationCluster() { }
2620 virtual ~LibraryPrefixDeserializationCluster() { } 2627 virtual ~LibraryPrefixDeserializationCluster() { }
2621 2628
2622 void ReadAlloc(Deserializer* d) { 2629 void ReadAlloc(Deserializer* d) {
2623 start_index_ = d->next_index(); 2630 start_index_ = d->next_index();
2624 PageSpace* old_space = d->heap()->old_space(); 2631 PageSpace* old_space = d->heap()->old_space();
2625 intptr_t count = d->Read<intptr_t>(); 2632 intptr_t count = d->Read<int32_t>();
2626 for (intptr_t i = 0; i < count; i++) { 2633 for (intptr_t i = 0; i < count; i++) {
2627 d->AssignRef(AllocateUninitialized(old_space, 2634 d->AssignRef(AllocateUninitialized(old_space,
2628 LibraryPrefix::InstanceSize())); 2635 LibraryPrefix::InstanceSize()));
2629 } 2636 }
2630 stop_index_ = d->next_index(); 2637 stop_index_ = d->next_index();
2631 } 2638 }
2632 2639
2633 void ReadFill(Deserializer* d) { 2640 void ReadFill(Deserializer* d) {
2634 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 2641 bool is_vm_object = d->isolate() == Dart::vm_isolate();
2635 2642
(...skipping 37 matching lines...) Expand 10 before | Expand all | Expand 10 after
2673 2680
2674 RawSmi* raw_type_class_id = Smi::RawCast(type->ptr()->type_class_id_); 2681 RawSmi* raw_type_class_id = Smi::RawCast(type->ptr()->type_class_id_);
2675 RawClass* type_class = 2682 RawClass* type_class =
2676 s->isolate()->class_table()->At(Smi::Value(raw_type_class_id)); 2683 s->isolate()->class_table()->At(Smi::Value(raw_type_class_id));
2677 s->Push(type_class); 2684 s->Push(type_class);
2678 } 2685 }
2679 2686
2680 void WriteAlloc(Serializer* s) { 2687 void WriteAlloc(Serializer* s) {
2681 s->WriteCid(kTypeCid); 2688 s->WriteCid(kTypeCid);
2682 intptr_t count = canonical_objects_.length(); 2689 intptr_t count = canonical_objects_.length();
2683 s->Write<intptr_t>(count); 2690 s->Write<int32_t>(count);
2684 for (intptr_t i = 0; i < count; i++) { 2691 for (intptr_t i = 0; i < count; i++) {
2685 RawType* type = canonical_objects_[i]; 2692 RawType* type = canonical_objects_[i];
2686 s->AssignRef(type); 2693 s->AssignRef(type);
2687 } 2694 }
2688 count = objects_.length(); 2695 count = objects_.length();
2689 s->Write<intptr_t>(count); 2696 s->Write<int32_t>(count);
2690 for (intptr_t i = 0; i < count; i++) { 2697 for (intptr_t i = 0; i < count; i++) {
2691 RawType* type = objects_[i]; 2698 RawType* type = objects_[i];
2692 s->AssignRef(type); 2699 s->AssignRef(type);
2693 } 2700 }
2694 } 2701 }
2695 2702
2696 void WriteFill(Serializer* s) { 2703 void WriteFill(Serializer* s) {
2697 intptr_t count = canonical_objects_.length(); 2704 intptr_t count = canonical_objects_.length();
2698 for (intptr_t i = 0; i < count; i++) { 2705 for (intptr_t i = 0; i < count; i++) {
2699 RawType* type = canonical_objects_[i]; 2706 RawType* type = canonical_objects_[i];
(...skipping 25 matching lines...) Expand all
2725 2732
2726 2733
2727 class TypeDeserializationCluster : public DeserializationCluster { 2734 class TypeDeserializationCluster : public DeserializationCluster {
2728 public: 2735 public:
2729 TypeDeserializationCluster() { } 2736 TypeDeserializationCluster() { }
2730 virtual ~TypeDeserializationCluster() { } 2737 virtual ~TypeDeserializationCluster() { }
2731 2738
2732 void ReadAlloc(Deserializer* d) { 2739 void ReadAlloc(Deserializer* d) {
2733 canonical_start_index_ = d->next_index(); 2740 canonical_start_index_ = d->next_index();
2734 PageSpace* old_space = d->heap()->old_space(); 2741 PageSpace* old_space = d->heap()->old_space();
2735 intptr_t count = d->Read<intptr_t>(); 2742 intptr_t count = d->Read<int32_t>();
2736 for (intptr_t i = 0; i < count; i++) { 2743 for (intptr_t i = 0; i < count; i++) {
2737 d->AssignRef(AllocateUninitialized(old_space, Type::InstanceSize())); 2744 d->AssignRef(AllocateUninitialized(old_space, Type::InstanceSize()));
2738 } 2745 }
2739 canonical_stop_index_ = d->next_index(); 2746 canonical_stop_index_ = d->next_index();
2740 2747
2741 start_index_ = d->next_index(); 2748 start_index_ = d->next_index();
2742 count = d->Read<intptr_t>(); 2749 count = d->Read<int32_t>();
2743 for (intptr_t i = 0; i < count; i++) { 2750 for (intptr_t i = 0; i < count; i++) {
2744 d->AssignRef(AllocateUninitialized(old_space, Type::InstanceSize())); 2751 d->AssignRef(AllocateUninitialized(old_space, Type::InstanceSize()));
2745 } 2752 }
2746 stop_index_ = d->next_index(); 2753 stop_index_ = d->next_index();
2747 } 2754 }
2748 2755
2749 void ReadFill(Deserializer* d) { 2756 void ReadFill(Deserializer* d) {
2750 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 2757 bool is_vm_object = d->isolate() == Dart::vm_isolate();
2751 2758
2752 for (intptr_t id = canonical_start_index_; 2759 for (intptr_t id = canonical_start_index_;
(...skipping 43 matching lines...) Expand 10 before | Expand all | Expand 10 after
2796 RawObject** from = type->from(); 2803 RawObject** from = type->from();
2797 RawObject** to = type->to(); 2804 RawObject** to = type->to();
2798 for (RawObject** p = from; p <= to; p++) { 2805 for (RawObject** p = from; p <= to; p++) {
2799 s->Push(*p); 2806 s->Push(*p);
2800 } 2807 }
2801 } 2808 }
2802 2809
2803 void WriteAlloc(Serializer* s) { 2810 void WriteAlloc(Serializer* s) {
2804 s->WriteCid(kTypeRefCid); 2811 s->WriteCid(kTypeRefCid);
2805 intptr_t count = objects_.length(); 2812 intptr_t count = objects_.length();
2806 s->Write<intptr_t>(count); 2813 s->Write<int32_t>(count);
2807 for (intptr_t i = 0; i < count; i++) { 2814 for (intptr_t i = 0; i < count; i++) {
2808 RawTypeRef* type = objects_[i]; 2815 RawTypeRef* type = objects_[i];
2809 s->AssignRef(type); 2816 s->AssignRef(type);
2810 } 2817 }
2811 } 2818 }
2812 2819
2813 void WriteFill(Serializer* s) { 2820 void WriteFill(Serializer* s) {
2814 intptr_t count = objects_.length(); 2821 intptr_t count = objects_.length();
2815 for (intptr_t i = 0; i < count; i++) { 2822 for (intptr_t i = 0; i < count; i++) {
2816 RawTypeRef* type = objects_[i]; 2823 RawTypeRef* type = objects_[i];
(...skipping 11 matching lines...) Expand all
2828 2835
2829 2836
2830 class TypeRefDeserializationCluster : public DeserializationCluster { 2837 class TypeRefDeserializationCluster : public DeserializationCluster {
2831 public: 2838 public:
2832 TypeRefDeserializationCluster() { } 2839 TypeRefDeserializationCluster() { }
2833 virtual ~TypeRefDeserializationCluster() { } 2840 virtual ~TypeRefDeserializationCluster() { }
2834 2841
2835 void ReadAlloc(Deserializer* d) { 2842 void ReadAlloc(Deserializer* d) {
2836 start_index_ = d->next_index(); 2843 start_index_ = d->next_index();
2837 PageSpace* old_space = d->heap()->old_space(); 2844 PageSpace* old_space = d->heap()->old_space();
2838 intptr_t count = d->Read<intptr_t>(); 2845 intptr_t count = d->Read<int32_t>();
2839 for (intptr_t i = 0; i < count; i++) { 2846 for (intptr_t i = 0; i < count; i++) {
2840 d->AssignRef(AllocateUninitialized(old_space, TypeRef::InstanceSize())); 2847 d->AssignRef(AllocateUninitialized(old_space, TypeRef::InstanceSize()));
2841 } 2848 }
2842 stop_index_ = d->next_index(); 2849 stop_index_ = d->next_index();
2843 } 2850 }
2844 2851
2845 void ReadFill(Deserializer* d) { 2852 void ReadFill(Deserializer* d) {
2846 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 2853 bool is_vm_object = d->isolate() == Dart::vm_isolate();
2847 2854
2848 for (intptr_t id = start_index_; id < stop_index_; id++) { 2855 for (intptr_t id = start_index_; id < stop_index_; id++) {
(...skipping 23 matching lines...) Expand all
2872 RawObject** from = type->from(); 2879 RawObject** from = type->from();
2873 RawObject** to = type->to(); 2880 RawObject** to = type->to();
2874 for (RawObject** p = from; p <= to; p++) { 2881 for (RawObject** p = from; p <= to; p++) {
2875 s->Push(*p); 2882 s->Push(*p);
2876 } 2883 }
2877 } 2884 }
2878 2885
2879 void WriteAlloc(Serializer* s) { 2886 void WriteAlloc(Serializer* s) {
2880 s->WriteCid(kTypeParameterCid); 2887 s->WriteCid(kTypeParameterCid);
2881 intptr_t count = objects_.length(); 2888 intptr_t count = objects_.length();
2882 s->Write<intptr_t>(count); 2889 s->Write<int32_t>(count);
2883 for (intptr_t i = 0; i < count; i++) { 2890 for (intptr_t i = 0; i < count; i++) {
2884 RawTypeParameter* type = objects_[i]; 2891 RawTypeParameter* type = objects_[i];
2885 s->AssignRef(type); 2892 s->AssignRef(type);
2886 } 2893 }
2887 } 2894 }
2888 2895
2889 void WriteFill(Serializer* s) { 2896 void WriteFill(Serializer* s) {
2890 intptr_t count = objects_.length(); 2897 intptr_t count = objects_.length();
2891 for (intptr_t i = 0; i < count; i++) { 2898 for (intptr_t i = 0; i < count; i++) {
2892 RawTypeParameter* type = objects_[i]; 2899 RawTypeParameter* type = objects_[i];
2893 RawObject** from = type->from(); 2900 RawObject** from = type->from();
2894 RawObject** to = type->to(); 2901 RawObject** to = type->to();
2895 for (RawObject** p = from; p <= to; p++) { 2902 for (RawObject** p = from; p <= to; p++) {
2896 s->WriteRef(*p); 2903 s->WriteRef(*p);
2897 } 2904 }
2898 s->Write<intptr_t>(type->ptr()->parameterized_class_id_); 2905 s->Write<int32_t>(type->ptr()->parameterized_class_id_);
2899 s->WriteTokenPosition(type->ptr()->token_pos_); 2906 s->WriteTokenPosition(type->ptr()->token_pos_);
2900 s->Write<int16_t>(type->ptr()->index_); 2907 s->Write<int16_t>(type->ptr()->index_);
2901 s->Write<int8_t>(type->ptr()->type_state_); 2908 s->Write<int8_t>(type->ptr()->type_state_);
2902 } 2909 }
2903 } 2910 }
2904 2911
2905 private: 2912 private:
2906 GrowableArray<RawTypeParameter*> objects_; 2913 GrowableArray<RawTypeParameter*> objects_;
2907 }; 2914 };
2908 2915
2909 2916
2910 class TypeParameterDeserializationCluster : public DeserializationCluster { 2917 class TypeParameterDeserializationCluster : public DeserializationCluster {
2911 public: 2918 public:
2912 TypeParameterDeserializationCluster() { } 2919 TypeParameterDeserializationCluster() { }
2913 virtual ~TypeParameterDeserializationCluster() { } 2920 virtual ~TypeParameterDeserializationCluster() { }
2914 2921
2915 void ReadAlloc(Deserializer* d) { 2922 void ReadAlloc(Deserializer* d) {
2916 start_index_ = d->next_index(); 2923 start_index_ = d->next_index();
2917 PageSpace* old_space = d->heap()->old_space(); 2924 PageSpace* old_space = d->heap()->old_space();
2918 intptr_t count = d->Read<intptr_t>(); 2925 intptr_t count = d->Read<int32_t>();
2919 for (intptr_t i = 0; i < count; i++) { 2926 for (intptr_t i = 0; i < count; i++) {
2920 d->AssignRef(AllocateUninitialized(old_space, 2927 d->AssignRef(AllocateUninitialized(old_space,
2921 TypeParameter::InstanceSize())); 2928 TypeParameter::InstanceSize()));
2922 } 2929 }
2923 stop_index_ = d->next_index(); 2930 stop_index_ = d->next_index();
2924 } 2931 }
2925 2932
2926 void ReadFill(Deserializer* d) { 2933 void ReadFill(Deserializer* d) {
2927 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 2934 bool is_vm_object = d->isolate() == Dart::vm_isolate();
2928 2935
2929 for (intptr_t id = start_index_; id < stop_index_; id++) { 2936 for (intptr_t id = start_index_; id < stop_index_; id++) {
2930 RawTypeParameter* type = reinterpret_cast<RawTypeParameter*>(d->Ref(id)); 2937 RawTypeParameter* type = reinterpret_cast<RawTypeParameter*>(d->Ref(id));
2931 Deserializer::InitializeHeader(type, kTypeParameterCid, 2938 Deserializer::InitializeHeader(type, kTypeParameterCid,
2932 TypeParameter::InstanceSize(), 2939 TypeParameter::InstanceSize(),
2933 is_vm_object); 2940 is_vm_object);
2934 RawObject** from = type->from(); 2941 RawObject** from = type->from();
2935 RawObject** to = type->to(); 2942 RawObject** to = type->to();
2936 for (RawObject** p = from; p <= to; p++) { 2943 for (RawObject** p = from; p <= to; p++) {
2937 *p = d->ReadRef(); 2944 *p = d->ReadRef();
2938 } 2945 }
2939 type->ptr()->parameterized_class_id_ = d->Read<intptr_t>(); 2946 type->ptr()->parameterized_class_id_ = d->Read<int32_t>();
2940 type->ptr()->token_pos_ = d->ReadTokenPosition(); 2947 type->ptr()->token_pos_ = d->ReadTokenPosition();
2941 type->ptr()->index_ = d->Read<int16_t>(); 2948 type->ptr()->index_ = d->Read<int16_t>();
2942 type->ptr()->type_state_ = d->Read<int8_t>(); 2949 type->ptr()->type_state_ = d->Read<int8_t>();
2943 } 2950 }
2944 } 2951 }
2945 }; 2952 };
2946 2953
2947 2954
2948 class BoundedTypeSerializationCluster : public SerializationCluster { 2955 class BoundedTypeSerializationCluster : public SerializationCluster {
2949 public: 2956 public:
2950 BoundedTypeSerializationCluster() { } 2957 BoundedTypeSerializationCluster() { }
2951 virtual ~BoundedTypeSerializationCluster() { } 2958 virtual ~BoundedTypeSerializationCluster() { }
2952 2959
2953 void Trace(Serializer* s, RawObject* object) { 2960 void Trace(Serializer* s, RawObject* object) {
2954 RawBoundedType* type = BoundedType::RawCast(object); 2961 RawBoundedType* type = BoundedType::RawCast(object);
2955 objects_.Add(type); 2962 objects_.Add(type);
2956 2963
2957 RawObject** from = type->from(); 2964 RawObject** from = type->from();
2958 RawObject** to = type->to(); 2965 RawObject** to = type->to();
2959 for (RawObject** p = from; p <= to; p++) { 2966 for (RawObject** p = from; p <= to; p++) {
2960 s->Push(*p); 2967 s->Push(*p);
2961 } 2968 }
2962 } 2969 }
2963 2970
2964 void WriteAlloc(Serializer* s) { 2971 void WriteAlloc(Serializer* s) {
2965 s->WriteCid(kBoundedTypeCid); 2972 s->WriteCid(kBoundedTypeCid);
2966 intptr_t count = objects_.length(); 2973 intptr_t count = objects_.length();
2967 s->Write<intptr_t>(count); 2974 s->Write<int32_t>(count);
2968 for (intptr_t i = 0; i < count; i++) { 2975 for (intptr_t i = 0; i < count; i++) {
2969 RawBoundedType* type = objects_[i]; 2976 RawBoundedType* type = objects_[i];
2970 s->AssignRef(type); 2977 s->AssignRef(type);
2971 } 2978 }
2972 } 2979 }
2973 2980
2974 void WriteFill(Serializer* s) { 2981 void WriteFill(Serializer* s) {
2975 intptr_t count = objects_.length(); 2982 intptr_t count = objects_.length();
2976 for (intptr_t i = 0; i < count; i++) { 2983 for (intptr_t i = 0; i < count; i++) {
2977 RawBoundedType* type = objects_[i]; 2984 RawBoundedType* type = objects_[i];
(...skipping 11 matching lines...) Expand all
2989 2996
2990 2997
2991 class BoundedTypeDeserializationCluster : public DeserializationCluster { 2998 class BoundedTypeDeserializationCluster : public DeserializationCluster {
2992 public: 2999 public:
2993 BoundedTypeDeserializationCluster() { } 3000 BoundedTypeDeserializationCluster() { }
2994 virtual ~BoundedTypeDeserializationCluster() { } 3001 virtual ~BoundedTypeDeserializationCluster() { }
2995 3002
2996 void ReadAlloc(Deserializer* d) { 3003 void ReadAlloc(Deserializer* d) {
2997 start_index_ = d->next_index(); 3004 start_index_ = d->next_index();
2998 PageSpace* old_space = d->heap()->old_space(); 3005 PageSpace* old_space = d->heap()->old_space();
2999 intptr_t count = d->Read<intptr_t>(); 3006 intptr_t count = d->Read<int32_t>();
3000 for (intptr_t i = 0; i < count; i++) { 3007 for (intptr_t i = 0; i < count; i++) {
3001 d->AssignRef(AllocateUninitialized(old_space, 3008 d->AssignRef(AllocateUninitialized(old_space,
3002 BoundedType::InstanceSize())); 3009 BoundedType::InstanceSize()));
3003 } 3010 }
3004 stop_index_ = d->next_index(); 3011 stop_index_ = d->next_index();
3005 } 3012 }
3006 3013
3007 void ReadFill(Deserializer* d) { 3014 void ReadFill(Deserializer* d) {
3008 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 3015 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3009 3016
(...skipping 23 matching lines...) Expand all
3033 RawObject** from = closure->from(); 3040 RawObject** from = closure->from();
3034 RawObject** to = closure->to(); 3041 RawObject** to = closure->to();
3035 for (RawObject** p = from; p <= to; p++) { 3042 for (RawObject** p = from; p <= to; p++) {
3036 s->Push(*p); 3043 s->Push(*p);
3037 } 3044 }
3038 } 3045 }
3039 3046
3040 void WriteAlloc(Serializer* s) { 3047 void WriteAlloc(Serializer* s) {
3041 s->WriteCid(kClosureCid); 3048 s->WriteCid(kClosureCid);
3042 intptr_t count = objects_.length(); 3049 intptr_t count = objects_.length();
3043 s->Write<intptr_t>(count); 3050 s->Write<int32_t>(count);
3044 for (intptr_t i = 0; i < count; i++) { 3051 for (intptr_t i = 0; i < count; i++) {
3045 RawClosure* closure = objects_[i]; 3052 RawClosure* closure = objects_[i];
3046 s->AssignRef(closure); 3053 s->AssignRef(closure);
3047 } 3054 }
3048 } 3055 }
3049 3056
3050 void WriteFill(Serializer* s) { 3057 void WriteFill(Serializer* s) {
3051 intptr_t count = objects_.length(); 3058 intptr_t count = objects_.length();
3052 for (intptr_t i = 0; i < count; i++) { 3059 for (intptr_t i = 0; i < count; i++) {
3053 RawClosure* closure = objects_[i]; 3060 RawClosure* closure = objects_[i];
(...skipping 12 matching lines...) Expand all
3066 3073
3067 3074
3068 class ClosureDeserializationCluster : public DeserializationCluster { 3075 class ClosureDeserializationCluster : public DeserializationCluster {
3069 public: 3076 public:
3070 ClosureDeserializationCluster() { } 3077 ClosureDeserializationCluster() { }
3071 virtual ~ClosureDeserializationCluster() { } 3078 virtual ~ClosureDeserializationCluster() { }
3072 3079
3073 void ReadAlloc(Deserializer* d) { 3080 void ReadAlloc(Deserializer* d) {
3074 start_index_ = d->next_index(); 3081 start_index_ = d->next_index();
3075 PageSpace* old_space = d->heap()->old_space(); 3082 PageSpace* old_space = d->heap()->old_space();
3076 intptr_t count = d->Read<intptr_t>(); 3083 intptr_t count = d->Read<int32_t>();
3077 for (intptr_t i = 0; i < count; i++) { 3084 for (intptr_t i = 0; i < count; i++) {
3078 d->AssignRef(AllocateUninitialized(old_space, Closure::InstanceSize())); 3085 d->AssignRef(AllocateUninitialized(old_space, Closure::InstanceSize()));
3079 } 3086 }
3080 stop_index_ = d->next_index(); 3087 stop_index_ = d->next_index();
3081 } 3088 }
3082 3089
3083 void ReadFill(Deserializer* d) { 3090 void ReadFill(Deserializer* d) {
3084 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 3091 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3085 3092
3086 for (intptr_t id = start_index_; id < stop_index_; id++) { 3093 for (intptr_t id = start_index_; id < stop_index_; id++) {
3087 RawClosure* closure = reinterpret_cast<RawClosure*>(d->Ref(id)); 3094 RawClosure* closure = reinterpret_cast<RawClosure*>(d->Ref(id));
3088 bool is_canonical = d->Read<bool>(); 3095 bool is_canonical = d->Read<bool>();
3089 Deserializer::InitializeHeader(closure, kClosureCid, 3096 Deserializer::InitializeHeader(closure, kClosureCid,
3090 Closure::InstanceSize(), 3097 Closure::InstanceSize(),
3091 is_vm_object, is_canonical); 3098 is_vm_object, is_canonical);
3092 RawObject** from = closure->from(); 3099 RawObject** from = closure->from();
3093 RawObject** to = closure->to(); 3100 RawObject** to = closure->to();
3094 for (RawObject** p = from; p <= to; p++) { 3101 for (RawObject** p = from; p <= to; p++) {
3095 *p = d->ReadRef(); 3102 *p = d->ReadRef();
3096 } 3103 }
3097 } 3104 }
3098 } 3105 }
3099 }; 3106 };
3100 3107
3101 3108
3109 bool IsAlwaysSmi(int64_t value) {
3110 const int64_t kMaxInt31 = (static_cast<int64_t>(1) << 30) - 1;
3111 const int64_t kMinInt31 = -(static_cast<int64_t>(1) << 30);
3112 return (value <= kMaxInt31) && (value >= kMinInt31);
3113 }
3114
3115
3116 bool IsAlwaysMint(int64_t value) {
3117 const int64_t kMaxInt63 = (static_cast<int64_t>(1) << 62) - 1;
3118 const int64_t kMinInt63 = -(static_cast<int64_t>(1) << 62);
3119 return (value > kMaxInt63) || (value < kMinInt63);
3120 }
3121
3122
3102 class MintSerializationCluster : public SerializationCluster { 3123 class MintSerializationCluster : public SerializationCluster {
3103 public: 3124 public:
3104 MintSerializationCluster() { } 3125 MintSerializationCluster() { }
3105 virtual ~MintSerializationCluster() { } 3126 virtual ~MintSerializationCluster() { }
3106 3127
3107 void Trace(Serializer* s, RawObject* object) { 3128 void Trace(Serializer* s, RawObject* object) {
3108 RawMint* mint = Mint::RawCast(object); 3129 if (!object->IsHeapObject()) {
3109 objects_.Add(mint); 3130 RawSmi* smi = Smi::RawCast(object);
3131 if (IsAlwaysSmi(Smi::Value(smi))) {
3132 always_smi_.Add(smi);
3133 } else {
3134 sometimes_smi_.Add(smi);
3135 }
3136 } else {
3137 RawMint* mint = Mint::RawCast(object);
3138 if (IsAlwaysMint(mint->ptr()->value_)) {
3139 always_mint_.Add(mint);
3140 } else {
3141 sometimes_mint_.Add(mint);
3142 }
3143 }
3110 } 3144 }
3111 3145
3112 void WriteAlloc(Serializer* s) { 3146 void WriteAlloc(Serializer* s) {
3113 s->WriteCid(kMintCid); 3147 s->WriteCid(kMintCid);
3114 intptr_t count = objects_.length(); 3148
3115 s->Write<intptr_t>(count); 3149 {
3116 for (intptr_t i = 0; i < count; i++) { 3150 intptr_t count = always_smi_.length();
3117 RawMint* mint = objects_[i]; 3151 s->Write<int32_t>(count);
3118 s->AssignRef(mint); 3152 for (intptr_t i = 0; i < count; i++) {
3153 RawSmi* smi = always_smi_[i];
3154 s->Write<int32_t>(Smi::Value(smi));
3155 s->AssignRef(smi);
3156 }
3157 }
3158
3159 {
3160 s->Write<int32_t>(sometimes_smi_.length() + sometimes_mint_.length());
3161 for (intptr_t i = 0; i < sometimes_smi_.length(); i++) {
3162 RawSmi* smi = sometimes_smi_[i];
3163 s->Write<int64_t>(Smi::Value(smi));
3164 s->AssignRef(smi);
3165 }
3166
3167 for (intptr_t i = 0; i < sometimes_mint_.length(); i++) {
3168 RawMint* mint = sometimes_mint_[i];
3169 s->Write<int64_t>(mint->ptr()->value_);
3170 s->AssignRef(mint);
3171 }
3172 }
3173
3174 {
3175 intptr_t count = always_mint_.length();
3176 s->Write<int32_t>(count);
3177 for (intptr_t i = 0; i < count; i++) {
3178 RawMint* mint = always_mint_[i];
3179 s->Write<int64_t>(mint->ptr()->value_);
3180 s->AssignRef(mint);
3181 }
3119 } 3182 }
siva 2016/07/08 16:25:20 I am not sure I understand the benefit of classify
rmacnak 2016/07/08 18:08:58 It is not safe to run Mint::NewCanonical during Re
3120 } 3183 }
3121 3184
3122 void WriteFill(Serializer* s) { 3185 void WriteFill(Serializer* s) { }
siva 2016/07/08 16:25:20 How is the canonical property of the always_mint o
rmacnak 2016/07/08 18:08:58 Every encountered mint is canonical.
3123 intptr_t count = objects_.length();
3124 for (intptr_t i = 0; i < count; i++) {
3125 RawMint* mint = objects_[i];
3126 s->Write<bool>(mint->IsCanonical());
3127 s->Write<int64_t>(mint->ptr()->value_);
3128 }
3129 }
3130 3186
3131 private: 3187 private:
3132 GrowableArray<RawMint*> objects_; 3188 GrowableArray<RawSmi*> always_smi_;
3189 GrowableArray<RawSmi*> sometimes_smi_;
3190 GrowableArray<RawMint*> sometimes_mint_;
3191 GrowableArray<RawMint*> always_mint_;
3133 }; 3192 };
3134 3193
3135 3194
3136 class MintDeserializationCluster : public DeserializationCluster { 3195 class MintDeserializationCluster : public DeserializationCluster {
3137 public: 3196 public:
3138 MintDeserializationCluster() { } 3197 MintDeserializationCluster() { }
3139 virtual ~MintDeserializationCluster() { } 3198 virtual ~MintDeserializationCluster() { }
3140 3199
3141 void ReadAlloc(Deserializer* d) { 3200 void ReadAlloc(Deserializer* d) {
3142 start_index_ = d->next_index();
3143 PageSpace* old_space = d->heap()->old_space(); 3201 PageSpace* old_space = d->heap()->old_space();
3144 intptr_t count = d->Read<intptr_t>(); 3202 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3203
3204 intptr_t count = d->Read<int32_t>();
3145 for (intptr_t i = 0; i < count; i++) { 3205 for (intptr_t i = 0; i < count; i++) {
3146 d->AssignRef(AllocateUninitialized(old_space, Mint::InstanceSize())); 3206 d->AssignRef(Smi::New(d->Read<int32_t>()));
3147 } 3207 }
3148 stop_index_ = d->next_index(); 3208
3209 count = d->Read<int32_t>();
3210 for (intptr_t i = 0; i < count; i++) {
3211 #if defined(ARCH_IS_64_BIT)
3212 d->AssignRef(Smi::New(d->Read<int64_t>()));
3213 #else
3214 RawMint* mint = static_cast<RawMint*>(
3215 AllocateUninitialized(old_space, Mint::InstanceSize()));
3216 Deserializer::InitializeHeader(mint, kMintCid,
3217 Mint::InstanceSize(),
3218 is_vm_object, true);
3219 mint->ptr()->value_ = d->Read<int64_t>();
3220 d->AssignRef(mint);
3221 #endif
siva 2016/07/08 16:25:20 Would prefer if you did int64_t value = d->Read<i
rmacnak 2016/07/08 20:17:54 Done.
3222 }
3223
3224 count = d->Read<int32_t>();
3225 for (intptr_t i = 0; i < count; i++) {
3226 RawMint* mint = static_cast<RawMint*>(
3227 AllocateUninitialized(old_space, Mint::InstanceSize()));
3228 Deserializer::InitializeHeader(mint, kMintCid,
3229 Mint::InstanceSize(),
3230 is_vm_object, true);
3231 mint->ptr()->value_ = d->Read<int64_t>();
3232 d->AssignRef(mint);
3233 }
3149 } 3234 }
3150 3235
3151 void ReadFill(Deserializer* d) { 3236 void ReadFill(Deserializer* d) { }
3152 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3153 3237
3154 for (intptr_t id = start_index_; id < stop_index_; id++) { 3238 void PostLoad(const Array& refs, Snapshot::Kind kind, Zone* zone) {
3155 RawMint* mint = reinterpret_cast<RawMint*>(d->Ref(id)); 3239 // TODO(rmacnak): Fix the Mint class's constants.
3156 bool is_canonical = d->Read<bool>();
3157 Deserializer::InitializeHeader(mint, kMintCid,
3158 Mint::InstanceSize(),
3159 is_vm_object, is_canonical);
3160 mint->ptr()->value_ = d->Read<int64_t>();
3161 }
3162 } 3240 }
3163 }; 3241 };
3164 3242
3165 3243
3166 class BigintSerializationCluster : public SerializationCluster { 3244 class BigintSerializationCluster : public SerializationCluster {
3167 public: 3245 public:
3168 BigintSerializationCluster() { } 3246 BigintSerializationCluster() { }
3169 virtual ~BigintSerializationCluster() { } 3247 virtual ~BigintSerializationCluster() { }
3170 3248
3171 void Trace(Serializer* s, RawObject* object) { 3249 void Trace(Serializer* s, RawObject* object) {
3172 RawBigint* bigint = Bigint::RawCast(object); 3250 RawBigint* bigint = Bigint::RawCast(object);
3173 objects_.Add(bigint); 3251 objects_.Add(bigint);
3174 3252
3175 RawObject** from = bigint->from(); 3253 RawObject** from = bigint->from();
3176 RawObject** to = bigint->to(); 3254 RawObject** to = bigint->to();
3177 for (RawObject** p = from; p <= to; p++) { 3255 for (RawObject** p = from; p <= to; p++) {
3178 s->Push(*p); 3256 s->Push(*p);
3179 } 3257 }
3180 } 3258 }
3181 3259
3182 void WriteAlloc(Serializer* s) { 3260 void WriteAlloc(Serializer* s) {
3183 s->WriteCid(kBigintCid); 3261 s->WriteCid(kBigintCid);
3184 intptr_t count = objects_.length(); 3262 intptr_t count = objects_.length();
3185 s->Write<intptr_t>(count); 3263 s->Write<int32_t>(count);
3186 for (intptr_t i = 0; i < count; i++) { 3264 for (intptr_t i = 0; i < count; i++) {
3187 RawBigint* bigint = objects_[i]; 3265 RawBigint* bigint = objects_[i];
3188 s->AssignRef(bigint); 3266 s->AssignRef(bigint);
3189 } 3267 }
3190 } 3268 }
3191 3269
3192 void WriteFill(Serializer* s) { 3270 void WriteFill(Serializer* s) {
3193 intptr_t count = objects_.length(); 3271 intptr_t count = objects_.length();
3194 for (intptr_t i = 0; i < count; i++) { 3272 for (intptr_t i = 0; i < count; i++) {
3195 RawBigint* bigint = objects_[i]; 3273 RawBigint* bigint = objects_[i];
(...skipping 12 matching lines...) Expand all
3208 3286
3209 3287
3210 class BigintDeserializationCluster : public DeserializationCluster { 3288 class BigintDeserializationCluster : public DeserializationCluster {
3211 public: 3289 public:
3212 BigintDeserializationCluster() { } 3290 BigintDeserializationCluster() { }
3213 virtual ~BigintDeserializationCluster() { } 3291 virtual ~BigintDeserializationCluster() { }
3214 3292
3215 void ReadAlloc(Deserializer* d) { 3293 void ReadAlloc(Deserializer* d) {
3216 start_index_ = d->next_index(); 3294 start_index_ = d->next_index();
3217 PageSpace* old_space = d->heap()->old_space(); 3295 PageSpace* old_space = d->heap()->old_space();
3218 intptr_t count = d->Read<intptr_t>(); 3296 intptr_t count = d->Read<int32_t>();
3219 for (intptr_t i = 0; i < count; i++) { 3297 for (intptr_t i = 0; i < count; i++) {
3220 d->AssignRef(AllocateUninitialized(old_space, Bigint::InstanceSize())); 3298 d->AssignRef(AllocateUninitialized(old_space, Bigint::InstanceSize()));
3221 } 3299 }
3222 stop_index_ = d->next_index(); 3300 stop_index_ = d->next_index();
3223 } 3301 }
3224 3302
3225 void ReadFill(Deserializer* d) { 3303 void ReadFill(Deserializer* d) {
3226 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 3304 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3227 3305
3228 for (intptr_t id = start_index_; id < stop_index_; id++) { 3306 for (intptr_t id = start_index_; id < stop_index_; id++) {
(...skipping 18 matching lines...) Expand all
3247 virtual ~DoubleSerializationCluster() { } 3325 virtual ~DoubleSerializationCluster() { }
3248 3326
3249 void Trace(Serializer* s, RawObject* object) { 3327 void Trace(Serializer* s, RawObject* object) {
3250 RawDouble* dbl = Double::RawCast(object); 3328 RawDouble* dbl = Double::RawCast(object);
3251 objects_.Add(dbl); 3329 objects_.Add(dbl);
3252 } 3330 }
3253 3331
3254 void WriteAlloc(Serializer* s) { 3332 void WriteAlloc(Serializer* s) {
3255 s->WriteCid(kDoubleCid); 3333 s->WriteCid(kDoubleCid);
3256 intptr_t count = objects_.length(); 3334 intptr_t count = objects_.length();
3257 s->Write<intptr_t>(count); 3335 s->Write<int32_t>(count);
3258 for (intptr_t i = 0; i < count; i++) { 3336 for (intptr_t i = 0; i < count; i++) {
3259 RawDouble* dbl = objects_[i]; 3337 RawDouble* dbl = objects_[i];
3260 s->AssignRef(dbl); 3338 s->AssignRef(dbl);
3261 } 3339 }
3262 } 3340 }
3263 3341
3264 void WriteFill(Serializer* s) { 3342 void WriteFill(Serializer* s) {
3265 intptr_t count = objects_.length(); 3343 intptr_t count = objects_.length();
3266 for (intptr_t i = 0; i < count; i++) { 3344 for (intptr_t i = 0; i < count; i++) {
3267 RawDouble* dbl = objects_[i]; 3345 RawDouble* dbl = objects_[i];
3268 s->Write<bool>(dbl->IsCanonical()); 3346 s->Write<bool>(dbl->IsCanonical());
3269 s->Write<double>(dbl->ptr()->value_); 3347 s->Write<double>(dbl->ptr()->value_);
3270 } 3348 }
3271 } 3349 }
3272 3350
3273 private: 3351 private:
3274 GrowableArray<RawDouble*> objects_; 3352 GrowableArray<RawDouble*> objects_;
3275 }; 3353 };
3276 3354
3277 3355
3278 class DoubleDeserializationCluster : public DeserializationCluster { 3356 class DoubleDeserializationCluster : public DeserializationCluster {
3279 public: 3357 public:
3280 DoubleDeserializationCluster() { } 3358 DoubleDeserializationCluster() { }
3281 virtual ~DoubleDeserializationCluster() { } 3359 virtual ~DoubleDeserializationCluster() { }
3282 3360
3283 void ReadAlloc(Deserializer* d) { 3361 void ReadAlloc(Deserializer* d) {
3284 start_index_ = d->next_index(); 3362 start_index_ = d->next_index();
3285 PageSpace* old_space = d->heap()->old_space(); 3363 PageSpace* old_space = d->heap()->old_space();
3286 intptr_t count = d->Read<intptr_t>(); 3364 intptr_t count = d->Read<int32_t>();
3287 for (intptr_t i = 0; i < count; i++) { 3365 for (intptr_t i = 0; i < count; i++) {
3288 d->AssignRef(AllocateUninitialized(old_space, Double::InstanceSize())); 3366 d->AssignRef(AllocateUninitialized(old_space, Double::InstanceSize()));
3289 } 3367 }
3290 stop_index_ = d->next_index(); 3368 stop_index_ = d->next_index();
3291 } 3369 }
3292 3370
3293 void ReadFill(Deserializer* d) { 3371 void ReadFill(Deserializer* d) {
3294 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 3372 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3295 3373
3296 for (intptr_t id = start_index_; id < stop_index_; id++) { 3374 for (intptr_t id = start_index_; id < stop_index_; id++) {
(...skipping 20 matching lines...) Expand all
3317 RawObject** from = array->from(); 3395 RawObject** from = array->from();
3318 RawObject** to = array->to(); 3396 RawObject** to = array->to();
3319 for (RawObject** p = from; p <= to; p++) { 3397 for (RawObject** p = from; p <= to; p++) {
3320 s->Push(*p); 3398 s->Push(*p);
3321 } 3399 }
3322 } 3400 }
3323 3401
3324 void WriteAlloc(Serializer* s) { 3402 void WriteAlloc(Serializer* s) {
3325 s->WriteCid(kGrowableObjectArrayCid); 3403 s->WriteCid(kGrowableObjectArrayCid);
3326 intptr_t count = objects_.length(); 3404 intptr_t count = objects_.length();
3327 s->Write<intptr_t>(count); 3405 s->Write<int32_t>(count);
3328 for (intptr_t i = 0; i < count; i++) { 3406 for (intptr_t i = 0; i < count; i++) {
3329 RawGrowableObjectArray* array = objects_[i]; 3407 RawGrowableObjectArray* array = objects_[i];
3330 s->AssignRef(array); 3408 s->AssignRef(array);
3331 } 3409 }
3332 } 3410 }
3333 3411
3334 void WriteFill(Serializer* s) { 3412 void WriteFill(Serializer* s) {
3335 intptr_t count = objects_.length(); 3413 intptr_t count = objects_.length();
3336 for (intptr_t i = 0; i < count; i++) { 3414 for (intptr_t i = 0; i < count; i++) {
3337 RawGrowableObjectArray* array = objects_[i]; 3415 RawGrowableObjectArray* array = objects_[i];
(...skipping 13 matching lines...) Expand all
3351 3429
3352 class GrowableObjectArrayDeserializationCluster 3430 class GrowableObjectArrayDeserializationCluster
3353 : public DeserializationCluster { 3431 : public DeserializationCluster {
3354 public: 3432 public:
3355 GrowableObjectArrayDeserializationCluster() { } 3433 GrowableObjectArrayDeserializationCluster() { }
3356 virtual ~GrowableObjectArrayDeserializationCluster() { } 3434 virtual ~GrowableObjectArrayDeserializationCluster() { }
3357 3435
3358 void ReadAlloc(Deserializer* d) { 3436 void ReadAlloc(Deserializer* d) {
3359 start_index_ = d->next_index(); 3437 start_index_ = d->next_index();
3360 PageSpace* old_space = d->heap()->old_space(); 3438 PageSpace* old_space = d->heap()->old_space();
3361 intptr_t count = d->Read<intptr_t>(); 3439 intptr_t count = d->Read<int32_t>();
3362 for (intptr_t i = 0; i < count; i++) { 3440 for (intptr_t i = 0; i < count; i++) {
3363 d->AssignRef(AllocateUninitialized(old_space, 3441 d->AssignRef(AllocateUninitialized(old_space,
3364 GrowableObjectArray::InstanceSize())); 3442 GrowableObjectArray::InstanceSize()));
3365 } 3443 }
3366 stop_index_ = d->next_index(); 3444 stop_index_ = d->next_index();
3367 } 3445 }
3368 3446
3369 void ReadFill(Deserializer* d) { 3447 void ReadFill(Deserializer* d) {
3370 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 3448 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3371 3449
(...skipping 18 matching lines...) Expand all
3390 public: 3468 public:
3391 explicit TypedDataSerializationCluster(intptr_t cid) : cid_(cid) { } 3469 explicit TypedDataSerializationCluster(intptr_t cid) : cid_(cid) { }
3392 virtual ~TypedDataSerializationCluster() { } 3470 virtual ~TypedDataSerializationCluster() { }
3393 3471
3394 void Trace(Serializer* s, RawObject* object) { 3472 void Trace(Serializer* s, RawObject* object) {
3395 RawTypedData* data = TypedData::RawCast(object); 3473 RawTypedData* data = TypedData::RawCast(object);
3396 objects_.Add(data); 3474 objects_.Add(data);
3397 } 3475 }
3398 3476
3399 void WriteAlloc(Serializer* s) { 3477 void WriteAlloc(Serializer* s) {
3400 s->Write<intptr_t>(cid_); 3478 s->Write<int32_t>(cid_);
3401 intptr_t count = objects_.length(); 3479 intptr_t count = objects_.length();
3402 s->Write<intptr_t>(count); 3480 s->Write<int32_t>(count);
3403 for (intptr_t i = 0; i < count; i++) { 3481 for (intptr_t i = 0; i < count; i++) {
3404 RawTypedData* data = objects_[i]; 3482 RawTypedData* data = objects_[i];
3405 intptr_t length = Smi::Value(data->ptr()->length_); 3483 intptr_t length = Smi::Value(data->ptr()->length_);
3406 s->Write<intptr_t>(length); 3484 s->Write<int32_t>(length);
3407 s->AssignRef(data); 3485 s->AssignRef(data);
3408 } 3486 }
3409 } 3487 }
3410 3488
3411 void WriteFill(Serializer* s) { 3489 void WriteFill(Serializer* s) {
3412 intptr_t count = objects_.length(); 3490 intptr_t count = objects_.length();
3413 intptr_t element_size = TypedData::ElementSizeInBytes(cid_); 3491 intptr_t element_size = TypedData::ElementSizeInBytes(cid_);
3414 for (intptr_t i = 0; i < count; i++) { 3492 for (intptr_t i = 0; i < count; i++) {
3415 RawTypedData* data = objects_[i]; 3493 RawTypedData* data = objects_[i];
3416 intptr_t length = Smi::Value(data->ptr()->length_); 3494 intptr_t length = Smi::Value(data->ptr()->length_);
3417 s->Write<intptr_t>(length); 3495 s->Write<int32_t>(length);
3418 s->Write<bool>(data->IsCanonical()); 3496 s->Write<bool>(data->IsCanonical());
3419 uint8_t* cdata = reinterpret_cast<uint8_t*>(data->ptr()->data()); 3497 uint8_t* cdata = reinterpret_cast<uint8_t*>(data->ptr()->data());
3420 s->WriteBytes(cdata, length * element_size); 3498 s->WriteBytes(cdata, length * element_size);
3421 } 3499 }
3422 } 3500 }
3423 3501
3424 private: 3502 private:
3425 const intptr_t cid_; 3503 const intptr_t cid_;
3426 GrowableArray<RawTypedData*> objects_; 3504 GrowableArray<RawTypedData*> objects_;
3427 }; 3505 };
3428 3506
3429 3507
3430 class TypedDataDeserializationCluster : public DeserializationCluster { 3508 class TypedDataDeserializationCluster : public DeserializationCluster {
3431 public: 3509 public:
3432 explicit TypedDataDeserializationCluster(intptr_t cid) : cid_(cid) { } 3510 explicit TypedDataDeserializationCluster(intptr_t cid) : cid_(cid) { }
3433 virtual ~TypedDataDeserializationCluster() { } 3511 virtual ~TypedDataDeserializationCluster() { }
3434 3512
3435 void ReadAlloc(Deserializer* d) { 3513 void ReadAlloc(Deserializer* d) {
3436 start_index_ = d->next_index(); 3514 start_index_ = d->next_index();
3437 PageSpace* old_space = d->heap()->old_space(); 3515 PageSpace* old_space = d->heap()->old_space();
3438 intptr_t count = d->Read<intptr_t>(); 3516 intptr_t count = d->Read<int32_t>();
3439 intptr_t element_size = TypedData::ElementSizeInBytes(cid_); 3517 intptr_t element_size = TypedData::ElementSizeInBytes(cid_);
3440 for (intptr_t i = 0; i < count; i++) { 3518 for (intptr_t i = 0; i < count; i++) {
3441 intptr_t length = d->Read<intptr_t>(); 3519 intptr_t length = d->Read<int32_t>();
3442 d->AssignRef(AllocateUninitialized(old_space, 3520 d->AssignRef(AllocateUninitialized(old_space,
3443 TypedData::InstanceSize(length * element_size))); 3521 TypedData::InstanceSize(length * element_size)));
3444 } 3522 }
3445 stop_index_ = d->next_index(); 3523 stop_index_ = d->next_index();
3446 } 3524 }
3447 3525
3448 void ReadFill(Deserializer* d) { 3526 void ReadFill(Deserializer* d) {
3449 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 3527 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3450 intptr_t element_size = TypedData::ElementSizeInBytes(cid_); 3528 intptr_t element_size = TypedData::ElementSizeInBytes(cid_);
3451 3529
3452 for (intptr_t id = start_index_; id < stop_index_; id++) { 3530 for (intptr_t id = start_index_; id < stop_index_; id++) {
3453 RawTypedData* data = reinterpret_cast<RawTypedData*>(d->Ref(id)); 3531 RawTypedData* data = reinterpret_cast<RawTypedData*>(d->Ref(id));
3454 intptr_t length = d->Read<intptr_t>(); 3532 intptr_t length = d->Read<int32_t>();
3455 bool is_canonical = d->Read<bool>(); 3533 bool is_canonical = d->Read<bool>();
3456 intptr_t length_in_bytes = length * element_size; 3534 intptr_t length_in_bytes = length * element_size;
3457 Deserializer::InitializeHeader(data, cid_, 3535 Deserializer::InitializeHeader(data, cid_,
3458 TypedData::InstanceSize(length_in_bytes), 3536 TypedData::InstanceSize(length_in_bytes),
3459 is_vm_object, is_canonical); 3537 is_vm_object, is_canonical);
3460 data->ptr()->length_ = Smi::New(length); 3538 data->ptr()->length_ = Smi::New(length);
3461 uint8_t* cdata = reinterpret_cast<uint8_t*>(data->ptr()->data()); 3539 uint8_t* cdata = reinterpret_cast<uint8_t*>(data->ptr()->data());
3462 d->ReadBytes(cdata, length_in_bytes); 3540 d->ReadBytes(cdata, length_in_bytes);
3463 } 3541 }
3464 } 3542 }
3465 3543
3466 private: 3544 private:
3467 const intptr_t cid_; 3545 const intptr_t cid_;
3468 }; 3546 };
3469 3547
3470 3548
3471 class ExternalTypedDataSerializationCluster : public SerializationCluster { 3549 class ExternalTypedDataSerializationCluster : public SerializationCluster {
3472 public: 3550 public:
3473 explicit ExternalTypedDataSerializationCluster(intptr_t cid) : cid_(cid) { } 3551 explicit ExternalTypedDataSerializationCluster(intptr_t cid) : cid_(cid) { }
3474 virtual ~ExternalTypedDataSerializationCluster() { } 3552 virtual ~ExternalTypedDataSerializationCluster() { }
3475 3553
3476 void Trace(Serializer* s, RawObject* object) { 3554 void Trace(Serializer* s, RawObject* object) {
3477 RawExternalTypedData* data = ExternalTypedData::RawCast(object); 3555 RawExternalTypedData* data = ExternalTypedData::RawCast(object);
3478 objects_.Add(data); 3556 objects_.Add(data);
3479 ASSERT(!data->IsCanonical()); 3557 ASSERT(!data->IsCanonical());
3480 } 3558 }
3481 3559
3482 void WriteAlloc(Serializer* s) { 3560 void WriteAlloc(Serializer* s) {
3483 s->Write<intptr_t>(cid_); 3561 s->Write<int32_t>(cid_);
3484 intptr_t count = objects_.length(); 3562 intptr_t count = objects_.length();
3485 s->Write<intptr_t>(count); 3563 s->Write<int32_t>(count);
3486 for (intptr_t i = 0; i < count; i++) { 3564 for (intptr_t i = 0; i < count; i++) {
3487 RawExternalTypedData* data = objects_[i]; 3565 RawExternalTypedData* data = objects_[i];
3488 s->AssignRef(data); 3566 s->AssignRef(data);
3489 } 3567 }
3490 } 3568 }
3491 3569
3492 void WriteFill(Serializer* s) { 3570 void WriteFill(Serializer* s) {
3493 intptr_t count = objects_.length(); 3571 intptr_t count = objects_.length();
3494 intptr_t element_size = ExternalTypedData::ElementSizeInBytes(cid_); 3572 intptr_t element_size = ExternalTypedData::ElementSizeInBytes(cid_);
3495 for (intptr_t i = 0; i < count; i++) { 3573 for (intptr_t i = 0; i < count; i++) {
3496 RawExternalTypedData* data = objects_[i]; 3574 RawExternalTypedData* data = objects_[i];
3497 intptr_t length = Smi::Value(data->ptr()->length_); 3575 intptr_t length = Smi::Value(data->ptr()->length_);
3498 s->Write<intptr_t>(length); 3576 s->Write<int32_t>(length);
3499 uint8_t* cdata = reinterpret_cast<uint8_t*>(data->ptr()->data_); 3577 uint8_t* cdata = reinterpret_cast<uint8_t*>(data->ptr()->data_);
3500 s->WriteBytes(cdata, length * element_size); 3578 s->WriteBytes(cdata, length * element_size);
3501 } 3579 }
3502 } 3580 }
3503 3581
3504 private: 3582 private:
3505 const intptr_t cid_; 3583 const intptr_t cid_;
3506 GrowableArray<RawExternalTypedData*> objects_; 3584 GrowableArray<RawExternalTypedData*> objects_;
3507 }; 3585 };
3508 3586
3509 3587
3510 class ExternalTypedDataDeserializationCluster : public DeserializationCluster { 3588 class ExternalTypedDataDeserializationCluster : public DeserializationCluster {
3511 public: 3589 public:
3512 explicit ExternalTypedDataDeserializationCluster(intptr_t cid) : cid_(cid) { } 3590 explicit ExternalTypedDataDeserializationCluster(intptr_t cid) : cid_(cid) { }
3513 virtual ~ExternalTypedDataDeserializationCluster() { } 3591 virtual ~ExternalTypedDataDeserializationCluster() { }
3514 3592
3515 void ReadAlloc(Deserializer* d) { 3593 void ReadAlloc(Deserializer* d) {
3516 start_index_ = d->next_index(); 3594 start_index_ = d->next_index();
3517 PageSpace* old_space = d->heap()->old_space(); 3595 PageSpace* old_space = d->heap()->old_space();
3518 intptr_t count = d->Read<intptr_t>(); 3596 intptr_t count = d->Read<int32_t>();
3519 for (intptr_t i = 0; i < count; i++) { 3597 for (intptr_t i = 0; i < count; i++) {
3520 d->AssignRef(AllocateUninitialized(old_space, 3598 d->AssignRef(AllocateUninitialized(old_space,
3521 ExternalTypedData::InstanceSize())); 3599 ExternalTypedData::InstanceSize()));
3522 } 3600 }
3523 stop_index_ = d->next_index(); 3601 stop_index_ = d->next_index();
3524 } 3602 }
3525 3603
3526 void ReadFill(Deserializer* d) { 3604 void ReadFill(Deserializer* d) {
3527 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 3605 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3528 intptr_t element_size = ExternalTypedData::ElementSizeInBytes(cid_); 3606 intptr_t element_size = ExternalTypedData::ElementSizeInBytes(cid_);
3529 3607
3530 for (intptr_t id = start_index_; id < stop_index_; id++) { 3608 for (intptr_t id = start_index_; id < stop_index_; id++) {
3531 RawExternalTypedData* data = 3609 RawExternalTypedData* data =
3532 reinterpret_cast<RawExternalTypedData*>(d->Ref(id)); 3610 reinterpret_cast<RawExternalTypedData*>(d->Ref(id));
3533 intptr_t length = d->Read<intptr_t>(); 3611 intptr_t length = d->Read<int32_t>();
3534 Deserializer::InitializeHeader(data, cid_, 3612 Deserializer::InitializeHeader(data, cid_,
3535 ExternalTypedData::InstanceSize(), 3613 ExternalTypedData::InstanceSize(),
3536 is_vm_object); 3614 is_vm_object);
3537 data->ptr()->length_ = Smi::New(length); 3615 data->ptr()->length_ = Smi::New(length);
3538 data->ptr()->data_ = const_cast<uint8_t*>(d->CurrentBufferAddress()); 3616 data->ptr()->data_ = const_cast<uint8_t*>(d->CurrentBufferAddress());
3539 d->Advance(length * element_size); 3617 d->Advance(length * element_size);
3540 } 3618 }
3541 } 3619 }
3542 3620
3543 private: 3621 private:
(...skipping 13 matching lines...) Expand all
3557 RawObject** from = trace->from(); 3635 RawObject** from = trace->from();
3558 RawObject** to = trace->to(); 3636 RawObject** to = trace->to();
3559 for (RawObject** p = from; p <= to; p++) { 3637 for (RawObject** p = from; p <= to; p++) {
3560 s->Push(*p); 3638 s->Push(*p);
3561 } 3639 }
3562 } 3640 }
3563 3641
3564 void WriteAlloc(Serializer* s) { 3642 void WriteAlloc(Serializer* s) {
3565 s->WriteCid(kStacktraceCid); 3643 s->WriteCid(kStacktraceCid);
3566 intptr_t count = objects_.length(); 3644 intptr_t count = objects_.length();
3567 s->Write<intptr_t>(count); 3645 s->Write<int32_t>(count);
3568 for (intptr_t i = 0; i < count; i++) { 3646 for (intptr_t i = 0; i < count; i++) {
3569 RawStacktrace* trace = objects_[i]; 3647 RawStacktrace* trace = objects_[i];
3570 s->AssignRef(trace); 3648 s->AssignRef(trace);
3571 } 3649 }
3572 } 3650 }
3573 3651
3574 void WriteFill(Serializer* s) { 3652 void WriteFill(Serializer* s) {
3575 intptr_t count = objects_.length(); 3653 intptr_t count = objects_.length();
3576 for (intptr_t i = 0; i < count; i++) { 3654 for (intptr_t i = 0; i < count; i++) {
3577 RawStacktrace* trace = objects_[i]; 3655 RawStacktrace* trace = objects_[i];
(...skipping 11 matching lines...) Expand all
3589 3667
3590 3668
3591 class StacktraceDeserializationCluster : public DeserializationCluster { 3669 class StacktraceDeserializationCluster : public DeserializationCluster {
3592 public: 3670 public:
3593 StacktraceDeserializationCluster() { } 3671 StacktraceDeserializationCluster() { }
3594 virtual ~StacktraceDeserializationCluster() { } 3672 virtual ~StacktraceDeserializationCluster() { }
3595 3673
3596 void ReadAlloc(Deserializer* d) { 3674 void ReadAlloc(Deserializer* d) {
3597 start_index_ = d->next_index(); 3675 start_index_ = d->next_index();
3598 PageSpace* old_space = d->heap()->old_space(); 3676 PageSpace* old_space = d->heap()->old_space();
3599 intptr_t count = d->Read<intptr_t>(); 3677 intptr_t count = d->Read<int32_t>();
3600 for (intptr_t i = 0; i < count; i++) { 3678 for (intptr_t i = 0; i < count; i++) {
3601 d->AssignRef(AllocateUninitialized(old_space, 3679 d->AssignRef(AllocateUninitialized(old_space,
3602 Stacktrace::InstanceSize())); 3680 Stacktrace::InstanceSize()));
3603 } 3681 }
3604 stop_index_ = d->next_index(); 3682 stop_index_ = d->next_index();
3605 } 3683 }
3606 3684
3607 void ReadFill(Deserializer* d) { 3685 void ReadFill(Deserializer* d) {
3608 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 3686 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3609 3687
(...skipping 23 matching lines...) Expand all
3633 RawObject** from = regexp->from(); 3711 RawObject** from = regexp->from();
3634 RawObject** to = regexp->to(); 3712 RawObject** to = regexp->to();
3635 for (RawObject** p = from; p <= to; p++) { 3713 for (RawObject** p = from; p <= to; p++) {
3636 s->Push(*p); 3714 s->Push(*p);
3637 } 3715 }
3638 } 3716 }
3639 3717
3640 void WriteAlloc(Serializer* s) { 3718 void WriteAlloc(Serializer* s) {
3641 s->WriteCid(kRegExpCid); 3719 s->WriteCid(kRegExpCid);
3642 intptr_t count = objects_.length(); 3720 intptr_t count = objects_.length();
3643 s->Write<intptr_t>(count); 3721 s->Write<int32_t>(count);
3644 for (intptr_t i = 0; i < count; i++) { 3722 for (intptr_t i = 0; i < count; i++) {
3645 RawRegExp* regexp = objects_[i]; 3723 RawRegExp* regexp = objects_[i];
3646 s->AssignRef(regexp); 3724 s->AssignRef(regexp);
3647 } 3725 }
3648 } 3726 }
3649 3727
3650 void WriteFill(Serializer* s) { 3728 void WriteFill(Serializer* s) {
3651 intptr_t count = objects_.length(); 3729 intptr_t count = objects_.length();
3652 for (intptr_t i = 0; i < count; i++) { 3730 for (intptr_t i = 0; i < count; i++) {
3653 RawRegExp* regexp = objects_[i]; 3731 RawRegExp* regexp = objects_[i];
3654 RawObject** from = regexp->from(); 3732 RawObject** from = regexp->from();
3655 RawObject** to = regexp->to(); 3733 RawObject** to = regexp->to();
3656 for (RawObject** p = from; p <= to; p++) { 3734 for (RawObject** p = from; p <= to; p++) {
3657 s->WriteRef(*p); 3735 s->WriteRef(*p);
3658 } 3736 }
3659 3737
3660 s->Write<intptr_t>(regexp->ptr()->num_registers_); 3738 s->Write<int32_t>(regexp->ptr()->num_registers_);
3661 s->Write<int8_t>(regexp->ptr()->type_flags_); 3739 s->Write<int8_t>(regexp->ptr()->type_flags_);
3662 } 3740 }
3663 } 3741 }
3664 3742
3665 private: 3743 private:
3666 GrowableArray<RawRegExp*> objects_; 3744 GrowableArray<RawRegExp*> objects_;
3667 }; 3745 };
3668 3746
3669 3747
3670 class RegExpDeserializationCluster : public DeserializationCluster { 3748 class RegExpDeserializationCluster : public DeserializationCluster {
3671 public: 3749 public:
3672 RegExpDeserializationCluster() { } 3750 RegExpDeserializationCluster() { }
3673 virtual ~RegExpDeserializationCluster() { } 3751 virtual ~RegExpDeserializationCluster() { }
3674 3752
3675 void ReadAlloc(Deserializer* d) { 3753 void ReadAlloc(Deserializer* d) {
3676 start_index_ = d->next_index(); 3754 start_index_ = d->next_index();
3677 PageSpace* old_space = d->heap()->old_space(); 3755 PageSpace* old_space = d->heap()->old_space();
3678 intptr_t count = d->Read<intptr_t>(); 3756 intptr_t count = d->Read<int32_t>();
3679 for (intptr_t i = 0; i < count; i++) { 3757 for (intptr_t i = 0; i < count; i++) {
3680 d->AssignRef(AllocateUninitialized(old_space, 3758 d->AssignRef(AllocateUninitialized(old_space,
3681 RegExp::InstanceSize())); 3759 RegExp::InstanceSize()));
3682 } 3760 }
3683 stop_index_ = d->next_index(); 3761 stop_index_ = d->next_index();
3684 } 3762 }
3685 3763
3686 void ReadFill(Deserializer* d) { 3764 void ReadFill(Deserializer* d) {
3687 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 3765 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3688 3766
3689 for (intptr_t id = start_index_; id < stop_index_; id++) { 3767 for (intptr_t id = start_index_; id < stop_index_; id++) {
3690 RawRegExp* regexp = reinterpret_cast<RawRegExp*>(d->Ref(id)); 3768 RawRegExp* regexp = reinterpret_cast<RawRegExp*>(d->Ref(id));
3691 Deserializer::InitializeHeader(regexp, kRegExpCid, 3769 Deserializer::InitializeHeader(regexp, kRegExpCid,
3692 RegExp::InstanceSize(), is_vm_object); 3770 RegExp::InstanceSize(), is_vm_object);
3693 RawObject** from = regexp->from(); 3771 RawObject** from = regexp->from();
3694 RawObject** to = regexp->to(); 3772 RawObject** to = regexp->to();
3695 for (RawObject** p = from; p <= to; p++) { 3773 for (RawObject** p = from; p <= to; p++) {
3696 *p = d->ReadRef(); 3774 *p = d->ReadRef();
3697 } 3775 }
3698 3776
3699 regexp->ptr()->num_registers_ = d->Read<intptr_t>(); 3777 regexp->ptr()->num_registers_ = d->Read<int32_t>();
3700 regexp->ptr()->type_flags_ = d->Read<int8_t>(); 3778 regexp->ptr()->type_flags_ = d->Read<int8_t>();
3701 } 3779 }
3702 } 3780 }
3703 }; 3781 };
3704 3782
3705 3783
3706 class LinkedHashMapSerializationCluster : public SerializationCluster { 3784 class LinkedHashMapSerializationCluster : public SerializationCluster {
3707 public: 3785 public:
3708 LinkedHashMapSerializationCluster() { } 3786 LinkedHashMapSerializationCluster() { }
3709 virtual ~LinkedHashMapSerializationCluster() { } 3787 virtual ~LinkedHashMapSerializationCluster() { }
(...skipping 13 matching lines...) Expand all
3723 RawObject* value = data_elements[i + 1]; 3801 RawObject* value = data_elements[i + 1];
3724 s->Push(key); 3802 s->Push(key);
3725 s->Push(value); 3803 s->Push(value);
3726 } 3804 }
3727 } 3805 }
3728 } 3806 }
3729 3807
3730 void WriteAlloc(Serializer* s) { 3808 void WriteAlloc(Serializer* s) {
3731 s->WriteCid(kLinkedHashMapCid); 3809 s->WriteCid(kLinkedHashMapCid);
3732 intptr_t count = objects_.length(); 3810 intptr_t count = objects_.length();
3733 s->Write<intptr_t>(count); 3811 s->Write<int32_t>(count);
3734 for (intptr_t i = 0; i < count; i++) { 3812 for (intptr_t i = 0; i < count; i++) {
3735 RawLinkedHashMap* map = objects_[i]; 3813 RawLinkedHashMap* map = objects_[i];
3736 s->AssignRef(map); 3814 s->AssignRef(map);
3737 } 3815 }
3738 } 3816 }
3739 3817
3740 void WriteFill(Serializer* s) { 3818 void WriteFill(Serializer* s) {
3741 intptr_t count = objects_.length(); 3819 intptr_t count = objects_.length();
3742 for (intptr_t i = 0; i < count; i++) { 3820 for (intptr_t i = 0; i < count; i++) {
3743 RawLinkedHashMap* map = objects_[i]; 3821 RawLinkedHashMap* map = objects_[i];
3744 s->Write<bool>(map->IsCanonical()); 3822 s->Write<bool>(map->IsCanonical());
3745 3823
3746 s->WriteRef(map->ptr()->type_arguments_); 3824 s->WriteRef(map->ptr()->type_arguments_);
3747 3825
3748 const intptr_t used_data = Smi::Value(map->ptr()->used_data_); 3826 const intptr_t used_data = Smi::Value(map->ptr()->used_data_);
3749 ASSERT((used_data & 1) == 0); // Keys + values, so must be even. 3827 ASSERT((used_data & 1) == 0); // Keys + values, so must be even.
3750 const intptr_t deleted_keys = Smi::Value(map->ptr()->deleted_keys_); 3828 const intptr_t deleted_keys = Smi::Value(map->ptr()->deleted_keys_);
3751 3829
3752 // Write out the number of (not deleted) key/value pairs that will follow. 3830 // Write out the number of (not deleted) key/value pairs that will follow.
3753 s->Write<intptr_t>((used_data >> 1) - deleted_keys); 3831 s->Write<int32_t>((used_data >> 1) - deleted_keys);
3754 3832
3755 RawArray* data_array = map->ptr()->data_; 3833 RawArray* data_array = map->ptr()->data_;
3756 RawObject** data_elements = data_array->ptr()->data(); 3834 RawObject** data_elements = data_array->ptr()->data();
3757 for (intptr_t i = 0; i < used_data; i += 2) { 3835 for (intptr_t i = 0; i < used_data; i += 2) {
3758 RawObject* key = data_elements[i]; 3836 RawObject* key = data_elements[i];
3759 if (key != data_array) { 3837 if (key != data_array) {
3760 RawObject* value = data_elements[i + 1]; 3838 RawObject* value = data_elements[i + 1];
3761 s->WriteRef(key); 3839 s->WriteRef(key);
3762 s->WriteRef(value); 3840 s->WriteRef(value);
3763 } 3841 }
3764 } 3842 }
3765 } 3843 }
3766 } 3844 }
3767 3845
3768 private: 3846 private:
3769 GrowableArray<RawLinkedHashMap*> objects_; 3847 GrowableArray<RawLinkedHashMap*> objects_;
3770 }; 3848 };
3771 3849
3772 3850
3773 class LinkedHashMapDeserializationCluster : public DeserializationCluster { 3851 class LinkedHashMapDeserializationCluster : public DeserializationCluster {
3774 public: 3852 public:
3775 LinkedHashMapDeserializationCluster() { } 3853 LinkedHashMapDeserializationCluster() { }
3776 virtual ~LinkedHashMapDeserializationCluster() { } 3854 virtual ~LinkedHashMapDeserializationCluster() { }
3777 3855
3778 void ReadAlloc(Deserializer* d) { 3856 void ReadAlloc(Deserializer* d) {
3779 start_index_ = d->next_index(); 3857 start_index_ = d->next_index();
3780 PageSpace* old_space = d->heap()->old_space(); 3858 PageSpace* old_space = d->heap()->old_space();
3781 intptr_t count = d->Read<intptr_t>(); 3859 intptr_t count = d->Read<int32_t>();
3782 for (intptr_t i = 0; i < count; i++) { 3860 for (intptr_t i = 0; i < count; i++) {
3783 d->AssignRef(AllocateUninitialized(old_space, 3861 d->AssignRef(AllocateUninitialized(old_space,
3784 LinkedHashMap::InstanceSize())); 3862 LinkedHashMap::InstanceSize()));
3785 } 3863 }
3786 stop_index_ = d->next_index(); 3864 stop_index_ = d->next_index();
3787 } 3865 }
3788 3866
3789 void ReadFill(Deserializer* d) { 3867 void ReadFill(Deserializer* d) {
3790 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 3868 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3791 PageSpace* old_space = d->heap()->old_space(); 3869 PageSpace* old_space = d->heap()->old_space();
3792 3870
3793 for (intptr_t id = start_index_; id < stop_index_; id++) { 3871 for (intptr_t id = start_index_; id < stop_index_; id++) {
3794 RawLinkedHashMap* map = reinterpret_cast<RawLinkedHashMap*>(d->Ref(id)); 3872 RawLinkedHashMap* map = reinterpret_cast<RawLinkedHashMap*>(d->Ref(id));
3795 bool is_canonical = d->Read<bool>(); 3873 bool is_canonical = d->Read<bool>();
3796 Deserializer::InitializeHeader(map, kLinkedHashMapCid, 3874 Deserializer::InitializeHeader(map, kLinkedHashMapCid,
3797 LinkedHashMap::InstanceSize(), 3875 LinkedHashMap::InstanceSize(),
3798 is_vm_object, is_canonical); 3876 is_vm_object, is_canonical);
3799 3877
3800 map->ptr()->type_arguments_ = 3878 map->ptr()->type_arguments_ =
3801 reinterpret_cast<RawTypeArguments*>(d->ReadRef()); 3879 reinterpret_cast<RawTypeArguments*>(d->ReadRef());
3802 3880
3803 // TODO(rmacnak): Reserve ref ids and co-allocate in ReadAlloc. 3881 // TODO(rmacnak): Reserve ref ids and co-allocate in ReadAlloc.
3804 intptr_t pairs = d->Read<intptr_t>(); 3882 intptr_t pairs = d->Read<int32_t>();
3805 intptr_t used_data = pairs << 1; 3883 intptr_t used_data = pairs << 1;
3806 intptr_t data_size = Utils::Maximum( 3884 intptr_t data_size = Utils::Maximum(
3807 Utils::RoundUpToPowerOfTwo(used_data), 3885 Utils::RoundUpToPowerOfTwo(used_data),
3808 static_cast<uintptr_t>(LinkedHashMap::kInitialIndexSize)); 3886 static_cast<uintptr_t>(LinkedHashMap::kInitialIndexSize));
3809 3887
3810 RawArray* data = reinterpret_cast<RawArray*>( 3888 RawArray* data = reinterpret_cast<RawArray*>(
3811 AllocateUninitialized(old_space, Array::InstanceSize(data_size))); 3889 AllocateUninitialized(old_space, Array::InstanceSize(data_size)));
3812 data->ptr()->type_arguments_ = TypeArguments::null(); 3890 data->ptr()->type_arguments_ = TypeArguments::null();
3813 data->ptr()->length_ = Smi::New(data_size); 3891 data->ptr()->length_ = Smi::New(data_size);
3814 intptr_t i; 3892 intptr_t i;
(...skipping 26 matching lines...) Expand all
3841 s->Push(array->ptr()->type_arguments_); 3919 s->Push(array->ptr()->type_arguments_);
3842 intptr_t length = Smi::Value(array->ptr()->length_); 3920 intptr_t length = Smi::Value(array->ptr()->length_);
3843 for (intptr_t i = 0; i < length; i++) { 3921 for (intptr_t i = 0; i < length; i++) {
3844 s->Push(array->ptr()->data()[i]); 3922 s->Push(array->ptr()->data()[i]);
3845 } 3923 }
3846 } 3924 }
3847 3925
3848 void WriteAlloc(Serializer* s) { 3926 void WriteAlloc(Serializer* s) {
3849 s->WriteCid(cid_); 3927 s->WriteCid(cid_);
3850 intptr_t count = objects_.length(); 3928 intptr_t count = objects_.length();
3851 s->Write<intptr_t>(count); 3929 s->Write<int32_t>(count);
3852 for (intptr_t i = 0; i < count; i++) { 3930 for (intptr_t i = 0; i < count; i++) {
3853 RawArray* array = objects_[i]; 3931 RawArray* array = objects_[i];
3854 intptr_t length = Smi::Value(array->ptr()->length_); 3932 intptr_t length = Smi::Value(array->ptr()->length_);
3855 s->Write<intptr_t>(length); 3933 s->Write<int32_t>(length);
3856 s->AssignRef(array); 3934 s->AssignRef(array);
3857 } 3935 }
3858 } 3936 }
3859 3937
3860 void WriteFill(Serializer* s) { 3938 void WriteFill(Serializer* s) {
3861 intptr_t count = objects_.length(); 3939 intptr_t count = objects_.length();
3862 for (intptr_t i = 0; i < count; i++) { 3940 for (intptr_t i = 0; i < count; i++) {
3863 RawArray* array = objects_[i]; 3941 RawArray* array = objects_[i];
3864 intptr_t length = Smi::Value(array->ptr()->length_); 3942 intptr_t length = Smi::Value(array->ptr()->length_);
3865 s->Write<intptr_t>(length); 3943 s->Write<int32_t>(length);
3866 s->Write<bool>(array->IsCanonical()); 3944 s->Write<bool>(array->IsCanonical());
3867 s->WriteRef(array->ptr()->type_arguments_); 3945 s->WriteRef(array->ptr()->type_arguments_);
3868 for (intptr_t j = 0; j < length; j++) { 3946 for (intptr_t j = 0; j < length; j++) {
3869 s->WriteRef(array->ptr()->data()[j]); 3947 s->WriteRef(array->ptr()->data()[j]);
3870 } 3948 }
3871 } 3949 }
3872 } 3950 }
3873 3951
3874 private: 3952 private:
3875 intptr_t cid_; 3953 intptr_t cid_;
3876 GrowableArray<RawArray*> objects_; 3954 GrowableArray<RawArray*> objects_;
3877 }; 3955 };
3878 3956
3879 3957
3880 class ArrayDeserializationCluster : public DeserializationCluster { 3958 class ArrayDeserializationCluster : public DeserializationCluster {
3881 public: 3959 public:
3882 explicit ArrayDeserializationCluster(intptr_t cid) : cid_(cid) { } 3960 explicit ArrayDeserializationCluster(intptr_t cid) : cid_(cid) { }
3883 virtual ~ArrayDeserializationCluster() { } 3961 virtual ~ArrayDeserializationCluster() { }
3884 3962
3885 void ReadAlloc(Deserializer* d) { 3963 void ReadAlloc(Deserializer* d) {
3886 start_index_ = d->next_index(); 3964 start_index_ = d->next_index();
3887 PageSpace* old_space = d->heap()->old_space(); 3965 PageSpace* old_space = d->heap()->old_space();
3888 intptr_t count = d->Read<intptr_t>(); 3966 intptr_t count = d->Read<int32_t>();
3889 for (intptr_t i = 0; i < count; i++) { 3967 for (intptr_t i = 0; i < count; i++) {
3890 intptr_t length = d->Read<intptr_t>(); 3968 intptr_t length = d->Read<int32_t>();
3891 d->AssignRef(AllocateUninitialized(old_space, 3969 d->AssignRef(AllocateUninitialized(old_space,
3892 Array::InstanceSize(length))); 3970 Array::InstanceSize(length)));
3893 } 3971 }
3894 stop_index_ = d->next_index(); 3972 stop_index_ = d->next_index();
3895 } 3973 }
3896 3974
3897 void ReadFill(Deserializer* d) { 3975 void ReadFill(Deserializer* d) {
3898 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 3976 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3899 3977
3900 for (intptr_t id = start_index_; id < stop_index_; id++) { 3978 for (intptr_t id = start_index_; id < stop_index_; id++) {
3901 RawArray* array = reinterpret_cast<RawArray*>(d->Ref(id)); 3979 RawArray* array = reinterpret_cast<RawArray*>(d->Ref(id));
3902 intptr_t length = d->Read<intptr_t>(); 3980 intptr_t length = d->Read<int32_t>();
3903 bool is_canonical = d->Read<bool>(); 3981 bool is_canonical = d->Read<bool>();
3904 Deserializer::InitializeHeader(array, cid_, 3982 Deserializer::InitializeHeader(array, cid_,
3905 Array::InstanceSize(length), 3983 Array::InstanceSize(length),
3906 is_vm_object, is_canonical); 3984 is_vm_object, is_canonical);
3907 array->ptr()->type_arguments_ = 3985 array->ptr()->type_arguments_ =
3908 reinterpret_cast<RawTypeArguments*>(d->ReadRef()); 3986 reinterpret_cast<RawTypeArguments*>(d->ReadRef());
3909 array->ptr()->length_ = Smi::New(length); 3987 array->ptr()->length_ = Smi::New(length);
3910 for (intptr_t j = 0; j < length; j++) { 3988 for (intptr_t j = 0; j < length; j++) {
3911 array->ptr()->data()[j] = d->ReadRef(); 3989 array->ptr()->data()[j] = d->ReadRef();
3912 } 3990 }
(...skipping 11 matching lines...) Expand all
3924 virtual ~OneByteStringSerializationCluster() { } 4002 virtual ~OneByteStringSerializationCluster() { }
3925 4003
3926 void Trace(Serializer* s, RawObject* object) { 4004 void Trace(Serializer* s, RawObject* object) {
3927 RawOneByteString* str = reinterpret_cast<RawOneByteString*>(object); 4005 RawOneByteString* str = reinterpret_cast<RawOneByteString*>(object);
3928 objects_.Add(str); 4006 objects_.Add(str);
3929 } 4007 }
3930 4008
3931 void WriteAlloc(Serializer* s) { 4009 void WriteAlloc(Serializer* s) {
3932 s->WriteCid(kOneByteStringCid); 4010 s->WriteCid(kOneByteStringCid);
3933 intptr_t count = objects_.length(); 4011 intptr_t count = objects_.length();
3934 s->Write<intptr_t>(count); 4012 s->Write<int32_t>(count);
3935 for (intptr_t i = 0; i < count; i++) { 4013 for (intptr_t i = 0; i < count; i++) {
3936 RawOneByteString* str = objects_[i]; 4014 RawOneByteString* str = objects_[i];
3937 intptr_t length = Smi::Value(str->ptr()->length_); 4015 intptr_t length = Smi::Value(str->ptr()->length_);
3938 s->Write<intptr_t>(length); 4016 s->Write<int32_t>(length);
3939 s->AssignRef(str); 4017 s->AssignRef(str);
3940 } 4018 }
3941 } 4019 }
3942 4020
3943 void WriteFill(Serializer* s) { 4021 void WriteFill(Serializer* s) {
3944 intptr_t count = objects_.length(); 4022 intptr_t count = objects_.length();
3945 for (intptr_t i = 0; i < count; i++) { 4023 for (intptr_t i = 0; i < count; i++) {
3946 RawOneByteString* str = objects_[i]; 4024 RawOneByteString* str = objects_[i];
3947 intptr_t length = Smi::Value(str->ptr()->length_); 4025 intptr_t length = Smi::Value(str->ptr()->length_);
3948 s->Write<intptr_t>(length); 4026 s->Write<int32_t>(length);
3949 s->Write<bool>(str->IsCanonical()); 4027 s->Write<bool>(str->IsCanonical());
3950 intptr_t hash = Smi::Value(str->ptr()->hash_); 4028 intptr_t hash = Smi::Value(str->ptr()->hash_);
3951 s->Write<int32_t>(hash); 4029 s->Write<int32_t>(hash);
3952 s->WriteBytes(str->ptr()->data(), length); 4030 s->WriteBytes(str->ptr()->data(), length);
3953 } 4031 }
3954 } 4032 }
3955 4033
3956 private: 4034 private:
3957 GrowableArray<RawOneByteString*> objects_; 4035 GrowableArray<RawOneByteString*> objects_;
3958 }; 4036 };
3959 4037
3960 4038
3961 class OneByteStringDeserializationCluster : public DeserializationCluster { 4039 class OneByteStringDeserializationCluster : public DeserializationCluster {
3962 public: 4040 public:
3963 OneByteStringDeserializationCluster() { } 4041 OneByteStringDeserializationCluster() { }
3964 virtual ~OneByteStringDeserializationCluster() { } 4042 virtual ~OneByteStringDeserializationCluster() { }
3965 4043
3966 void ReadAlloc(Deserializer* d) { 4044 void ReadAlloc(Deserializer* d) {
3967 start_index_ = d->next_index(); 4045 start_index_ = d->next_index();
3968 PageSpace* old_space = d->heap()->old_space(); 4046 PageSpace* old_space = d->heap()->old_space();
3969 intptr_t count = d->Read<intptr_t>(); 4047 intptr_t count = d->Read<int32_t>();
3970 for (intptr_t i = 0; i < count; i++) { 4048 for (intptr_t i = 0; i < count; i++) {
3971 intptr_t length = d->Read<intptr_t>(); 4049 intptr_t length = d->Read<int32_t>();
3972 d->AssignRef(AllocateUninitialized(old_space, 4050 d->AssignRef(AllocateUninitialized(old_space,
3973 OneByteString::InstanceSize(length))); 4051 OneByteString::InstanceSize(length)));
3974 } 4052 }
3975 stop_index_ = d->next_index(); 4053 stop_index_ = d->next_index();
3976 } 4054 }
3977 4055
3978 void ReadFill(Deserializer* d) { 4056 void ReadFill(Deserializer* d) {
3979 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 4057 bool is_vm_object = d->isolate() == Dart::vm_isolate();
3980 4058
3981 for (intptr_t id = start_index_; id < stop_index_; id++) { 4059 for (intptr_t id = start_index_; id < stop_index_; id++) {
3982 RawOneByteString* str = reinterpret_cast<RawOneByteString*>(d->Ref(id)); 4060 RawOneByteString* str = reinterpret_cast<RawOneByteString*>(d->Ref(id));
3983 intptr_t length = d->Read<intptr_t>(); 4061 intptr_t length = d->Read<int32_t>();
3984 bool is_canonical = d->Read<bool>(); 4062 bool is_canonical = d->Read<bool>();
3985 Deserializer::InitializeHeader(str, kOneByteStringCid, 4063 Deserializer::InitializeHeader(str, kOneByteStringCid,
3986 OneByteString::InstanceSize(length), 4064 OneByteString::InstanceSize(length),
3987 is_vm_object, is_canonical); 4065 is_vm_object, is_canonical);
3988 str->ptr()->length_ = Smi::New(length); 4066 str->ptr()->length_ = Smi::New(length);
3989 str->ptr()->hash_ = Smi::New(d->Read<intptr_t>()); 4067 str->ptr()->hash_ = Smi::New(d->Read<int32_t>());
3990 for (intptr_t j = 0; j < length; j++) { 4068 for (intptr_t j = 0; j < length; j++) {
3991 str->ptr()->data()[j] = d->Read<uint8_t>(); 4069 str->ptr()->data()[j] = d->Read<uint8_t>();
3992 } 4070 }
3993 } 4071 }
3994 } 4072 }
3995 }; 4073 };
3996 4074
3997 4075
3998 class TwoByteStringSerializationCluster : public SerializationCluster { 4076 class TwoByteStringSerializationCluster : public SerializationCluster {
3999 public: 4077 public:
4000 TwoByteStringSerializationCluster() { } 4078 TwoByteStringSerializationCluster() { }
4001 virtual ~TwoByteStringSerializationCluster() { } 4079 virtual ~TwoByteStringSerializationCluster() { }
4002 4080
4003 void Trace(Serializer* s, RawObject* object) { 4081 void Trace(Serializer* s, RawObject* object) {
4004 RawTwoByteString* str = reinterpret_cast<RawTwoByteString*>(object); 4082 RawTwoByteString* str = reinterpret_cast<RawTwoByteString*>(object);
4005 objects_.Add(str); 4083 objects_.Add(str);
4006 } 4084 }
4007 4085
4008 void WriteAlloc(Serializer* s) { 4086 void WriteAlloc(Serializer* s) {
4009 s->WriteCid(kTwoByteStringCid); 4087 s->WriteCid(kTwoByteStringCid);
4010 intptr_t count = objects_.length(); 4088 intptr_t count = objects_.length();
4011 s->Write<intptr_t>(count); 4089 s->Write<int32_t>(count);
4012 for (intptr_t i = 0; i < count; i++) { 4090 for (intptr_t i = 0; i < count; i++) {
4013 RawTwoByteString* str = objects_[i]; 4091 RawTwoByteString* str = objects_[i];
4014 intptr_t length = Smi::Value(str->ptr()->length_); 4092 intptr_t length = Smi::Value(str->ptr()->length_);
4015 s->Write<intptr_t>(length); 4093 s->Write<int32_t>(length);
4016 s->AssignRef(str); 4094 s->AssignRef(str);
4017 } 4095 }
4018 } 4096 }
4019 4097
4020 void WriteFill(Serializer* s) { 4098 void WriteFill(Serializer* s) {
4021 intptr_t count = objects_.length(); 4099 intptr_t count = objects_.length();
4022 for (intptr_t i = 0; i < count; i++) { 4100 for (intptr_t i = 0; i < count; i++) {
4023 RawTwoByteString* str = objects_[i]; 4101 RawTwoByteString* str = objects_[i];
4024 intptr_t length = Smi::Value(str->ptr()->length_); 4102 intptr_t length = Smi::Value(str->ptr()->length_);
4025 s->Write<intptr_t>(length); 4103 s->Write<int32_t>(length);
4026 s->Write<bool>(str->IsCanonical()); 4104 s->Write<bool>(str->IsCanonical());
4027 intptr_t hash = Smi::Value(str->ptr()->hash_); 4105 intptr_t hash = Smi::Value(str->ptr()->hash_);
4028 s->Write<int32_t>(hash); 4106 s->Write<int32_t>(hash);
4029 s->WriteBytes(reinterpret_cast<uint8_t*>(str->ptr()->data()), length * 2); 4107 s->WriteBytes(reinterpret_cast<uint8_t*>(str->ptr()->data()), length * 2);
4030 } 4108 }
4031 } 4109 }
4032 4110
4033 private: 4111 private:
4034 GrowableArray<RawTwoByteString*> objects_; 4112 GrowableArray<RawTwoByteString*> objects_;
4035 }; 4113 };
4036 4114
4037 4115
4038 class TwoByteStringDeserializationCluster : public DeserializationCluster { 4116 class TwoByteStringDeserializationCluster : public DeserializationCluster {
4039 public: 4117 public:
4040 TwoByteStringDeserializationCluster() { } 4118 TwoByteStringDeserializationCluster() { }
4041 virtual ~TwoByteStringDeserializationCluster() { } 4119 virtual ~TwoByteStringDeserializationCluster() { }
4042 4120
4043 void ReadAlloc(Deserializer* d) { 4121 void ReadAlloc(Deserializer* d) {
4044 start_index_ = d->next_index(); 4122 start_index_ = d->next_index();
4045 PageSpace* old_space = d->heap()->old_space(); 4123 PageSpace* old_space = d->heap()->old_space();
4046 intptr_t count = d->Read<intptr_t>(); 4124 intptr_t count = d->Read<int32_t>();
4047 for (intptr_t i = 0; i < count; i++) { 4125 for (intptr_t i = 0; i < count; i++) {
4048 intptr_t length = d->Read<intptr_t>(); 4126 intptr_t length = d->Read<int32_t>();
4049 d->AssignRef(AllocateUninitialized(old_space, 4127 d->AssignRef(AllocateUninitialized(old_space,
4050 TwoByteString::InstanceSize(length))); 4128 TwoByteString::InstanceSize(length)));
4051 } 4129 }
4052 stop_index_ = d->next_index(); 4130 stop_index_ = d->next_index();
4053 } 4131 }
4054 4132
4055 void ReadFill(Deserializer* d) { 4133 void ReadFill(Deserializer* d) {
4056 bool is_vm_object = d->isolate() == Dart::vm_isolate(); 4134 bool is_vm_object = d->isolate() == Dart::vm_isolate();
4057 4135
4058 for (intptr_t id = start_index_; id < stop_index_; id++) { 4136 for (intptr_t id = start_index_; id < stop_index_; id++) {
4059 RawTwoByteString* str = 4137 RawTwoByteString* str =
4060 reinterpret_cast<RawTwoByteString*>(d->Ref(id)); 4138 reinterpret_cast<RawTwoByteString*>(d->Ref(id));
4061 intptr_t length = d->Read<intptr_t>(); 4139 intptr_t length = d->Read<int32_t>();
4062 bool is_canonical = d->Read<bool>(); 4140 bool is_canonical = d->Read<bool>();
4063 Deserializer::InitializeHeader(str, kTwoByteStringCid, 4141 Deserializer::InitializeHeader(str, kTwoByteStringCid,
4064 TwoByteString::InstanceSize(length), 4142 TwoByteString::InstanceSize(length),
4065 is_vm_object, is_canonical); 4143 is_vm_object, is_canonical);
4066 str->ptr()->length_ = Smi::New(length); 4144 str->ptr()->length_ = Smi::New(length);
4067 str->ptr()->hash_ = Smi::New(d->Read<int32_t>()); 4145 str->ptr()->hash_ = Smi::New(d->Read<int32_t>());
4068 uint8_t* cdata = reinterpret_cast<uint8_t*>(str->ptr()->data()); 4146 uint8_t* cdata = reinterpret_cast<uint8_t*>(str->ptr()->data());
4069 d->ReadBytes(cdata, length * 2); 4147 d->ReadBytes(cdata, length * 2);
4070 } 4148 }
4071 } 4149 }
(...skipping 117 matching lines...) Expand 10 before | Expand all | Expand 10 after
4189 } 4267 }
4190 4268
4191 FATAL1("No cluster defined for cid %" Pd, cid); 4269 FATAL1("No cluster defined for cid %" Pd, cid);
4192 return NULL; 4270 return NULL;
4193 } 4271 }
4194 4272
4195 4273
4196 void Serializer::Trace(RawObject* object) { 4274 void Serializer::Trace(RawObject* object) {
4197 intptr_t cid; 4275 intptr_t cid;
4198 if (!object->IsHeapObject()) { 4276 if (!object->IsHeapObject()) {
4199 cid = kSmiCid; 4277 // Smis are merged into the Mint cluster because Smis for the writer might
4278 // become Mints for the reader and vice versa.
4279 cid = kMintCid;
4200 } else { 4280 } else {
4201 cid = object->GetClassId(); 4281 cid = object->GetClassId();
4202 } 4282 }
4203 4283
4204 SerializationCluster* cluster = clusters_by_cid_[cid]; 4284 SerializationCluster* cluster = clusters_by_cid_[cid];
4205 if (cluster == NULL) { 4285 if (cluster == NULL) {
4206 cluster = NewClusterForClass(cid); 4286 cluster = NewClusterForClass(cid);
4207 clusters_by_cid_[cid] = cluster; 4287 clusters_by_cid_[cid] = cluster;
4208 } 4288 }
4209 ASSERT(cluster != NULL); 4289 ASSERT(cluster != NULL);
(...skipping 10 matching lines...) Expand all
4220 const char* expected_features = Dart::FeaturesString(kind_); 4300 const char* expected_features = Dart::FeaturesString(kind_);
4221 ASSERT(expected_features != NULL); 4301 ASSERT(expected_features != NULL);
4222 const intptr_t features_len = strlen(expected_features); 4302 const intptr_t features_len = strlen(expected_features);
4223 WriteBytes(reinterpret_cast<const uint8_t*>(expected_features), 4303 WriteBytes(reinterpret_cast<const uint8_t*>(expected_features),
4224 features_len + 1); 4304 features_len + 1);
4225 free(const_cast<char*>(expected_features)); 4305 free(const_cast<char*>(expected_features));
4226 } 4306 }
4227 4307
4228 4308
4229 #if defined(DEBUG) 4309 #if defined(DEBUG)
4230 static const intptr_t kSectionMarker = 0xABAB; 4310 static const int32_t kSectionMarker = 0xABAB;
4231 #endif 4311 #endif
4232 4312
4233 void Serializer::Serialize() { 4313 void Serializer::Serialize() {
4234 while (stack_.length() > 0) { 4314 while (stack_.length() > 0) {
4235 Trace(stack_.RemoveLast()); 4315 Trace(stack_.RemoveLast());
4236 } 4316 }
4237 4317
4238 intptr_t num_clusters = 0; 4318 intptr_t num_clusters = 0;
4239 for (intptr_t cid = 1; cid < num_cids_; cid++) { 4319 for (intptr_t cid = 1; cid < num_cids_; cid++) {
4240 SerializationCluster* cluster = clusters_by_cid_[cid]; 4320 SerializationCluster* cluster = clusters_by_cid_[cid];
4241 if (cluster != NULL) { 4321 if (cluster != NULL) {
4242 num_clusters++; 4322 num_clusters++;
4243 } 4323 }
4244 } 4324 }
4245 4325
4246 intptr_t num_objects = num_base_objects_ + num_written_objects_; 4326 intptr_t num_objects = num_base_objects_ + num_written_objects_;
4247 4327
4248 Write<int32_t>(num_objects); 4328 Write<int32_t>(num_objects);
4249 Write<int32_t>(num_clusters); 4329 Write<int32_t>(num_clusters);
4250 4330
4251 for (intptr_t cid = 1; cid < num_cids_; cid++) { 4331 for (intptr_t cid = 1; cid < num_cids_; cid++) {
4252 SerializationCluster* cluster = clusters_by_cid_[cid]; 4332 SerializationCluster* cluster = clusters_by_cid_[cid];
4253 if (cluster != NULL) { 4333 if (cluster != NULL) {
4254 cluster->WriteAlloc(this); 4334 cluster->WriteAlloc(this);
4255 #if defined(DEBUG) 4335 #if defined(DEBUG)
4256 Write<intptr_t>(next_ref_index_); 4336 Write<int32_t>(next_ref_index_);
4257 #endif 4337 #endif
4258 } 4338 }
4259 } 4339 }
4260 4340
4261 // We should have assigned a ref to every object we pushed. 4341 // We should have assigned a ref to every object we pushed.
4262 ASSERT((next_ref_index_ - 1) == num_objects); 4342 ASSERT((next_ref_index_ - 1) == num_objects);
4263 4343
4264 for (intptr_t cid = 1; cid < num_cids_; cid++) { 4344 for (intptr_t cid = 1; cid < num_cids_; cid++) {
4265 SerializationCluster* cluster = clusters_by_cid_[cid]; 4345 SerializationCluster* cluster = clusters_by_cid_[cid];
4266 if (cluster != NULL) { 4346 if (cluster != NULL) {
4267 cluster->WriteFill(this); 4347 cluster->WriteFill(this);
4268 #if defined(DEBUG) 4348 #if defined(DEBUG)
4269 Write<intptr_t>(kSectionMarker); 4349 Write<int32_t>(kSectionMarker);
4270 #endif 4350 #endif
4271 } 4351 }
4272 } 4352 }
4273 } 4353 }
4274 4354
4275 4355
4276 void Serializer::AddVMIsolateBaseObjects() { 4356 void Serializer::AddVMIsolateBaseObjects() {
4277 // These objects are always allocated by Object::InitOnce, so they are not 4357 // These objects are always allocated by Object::InitOnce, so they are not
4278 // written into the snapshot. 4358 // written into the snapshot.
4279 4359
(...skipping 49 matching lines...) Expand 10 before | Expand all | Expand 10 after
4329 Serialize(); 4409 Serialize();
4330 4410
4331 // Write roots. 4411 // Write roots.
4332 WriteRef(symbols.raw()); 4412 WriteRef(symbols.raw());
4333 WriteRef(scripts.raw()); 4413 WriteRef(scripts.raw());
4334 if (Snapshot::IncludesCode(kind_)) { 4414 if (Snapshot::IncludesCode(kind_)) {
4335 StubCode::WriteRef(this); 4415 StubCode::WriteRef(this);
4336 } 4416 }
4337 4417
4338 #if defined(DEBUG) 4418 #if defined(DEBUG)
4339 Write<intptr_t>(kSectionMarker); 4419 Write<int32_t>(kSectionMarker);
4340 #endif 4420 #endif
4341 4421
4342 // Note we are not clearing the object id table. The full ref table 4422 // Note we are not clearing the object id table. The full ref table
4343 // of the vm isolate snapshot serves as the base objects for the 4423 // of the vm isolate snapshot serves as the base objects for the
4344 // regular isolate snapshot. 4424 // regular isolate snapshot.
4345 4425
4346 // Return the number of objects, -1 accounts for unused ref 0. 4426 // Return the number of objects, -1 accounts for unused ref 0.
4347 return next_ref_index_ - 1; 4427 return next_ref_index_ - 1;
4348 } 4428 }
4349 4429
(...skipping 22 matching lines...) Expand all
4372 } 4452 }
4373 4453
4374 Serialize(); 4454 Serialize();
4375 4455
4376 // Write roots. 4456 // Write roots.
4377 for (RawObject** p = from; p <= to; p++) { 4457 for (RawObject** p = from; p <= to; p++) {
4378 WriteRef(*p); 4458 WriteRef(*p);
4379 } 4459 }
4380 4460
4381 #if defined(DEBUG) 4461 #if defined(DEBUG)
4382 Write<intptr_t>(kSectionMarker); 4462 Write<int32_t>(kSectionMarker);
4383 #endif 4463 #endif
4384 4464
4385 heap_->ResetObjectIdTable(); 4465 heap_->ResetObjectIdTable();
4386 } 4466 }
4387 4467
4388 4468
4389 Deserializer::Deserializer(Thread* thread, 4469 Deserializer::Deserializer(Thread* thread,
4390 Snapshot::Kind kind, 4470 Snapshot::Kind kind,
4391 const uint8_t* buffer, 4471 const uint8_t* buffer,
4392 intptr_t size, 4472 intptr_t size,
(...skipping 199 matching lines...) Expand 10 before | Expand all | Expand 10 after
4592 void Deserializer::Deserialize() { 4672 void Deserializer::Deserialize() {
4593 // TODO(rmacnak): Verify num of base objects. 4673 // TODO(rmacnak): Verify num of base objects.
4594 4674
4595 { 4675 {
4596 NOT_IN_PRODUCT(TimelineDurationScope tds(thread(), 4676 NOT_IN_PRODUCT(TimelineDurationScope tds(thread(),
4597 Timeline::GetIsolateStream(), "ReadAlloc")); 4677 Timeline::GetIsolateStream(), "ReadAlloc"));
4598 for (intptr_t i = 0; i < num_clusters_; i++) { 4678 for (intptr_t i = 0; i < num_clusters_; i++) {
4599 clusters_[i] = ReadCluster(); 4679 clusters_[i] = ReadCluster();
4600 clusters_[i]->ReadAlloc(this); 4680 clusters_[i]->ReadAlloc(this);
4601 #if defined(DEBUG) 4681 #if defined(DEBUG)
4602 intptr_t serializers_next_ref_index_ = Read<intptr_t>(); 4682 intptr_t serializers_next_ref_index_ = Read<int32_t>();
4603 ASSERT(serializers_next_ref_index_ == next_ref_index_); 4683 ASSERT(serializers_next_ref_index_ == next_ref_index_);
4604 #endif 4684 #endif
4605 } 4685 }
4606 } 4686 }
4607 4687
4608 // We should have completely filled the ref array. 4688 // We should have completely filled the ref array.
4609 ASSERT((next_ref_index_ - 1) == num_objects_); 4689 ASSERT((next_ref_index_ - 1) == num_objects_);
4610 4690
4611 { 4691 {
4612 NOT_IN_PRODUCT(TimelineDurationScope tds(thread(), 4692 NOT_IN_PRODUCT(TimelineDurationScope tds(thread(),
4613 Timeline::GetIsolateStream(), "ReadFill")); 4693 Timeline::GetIsolateStream(), "ReadFill"));
4614 for (intptr_t i = 0; i < num_clusters_; i++) { 4694 for (intptr_t i = 0; i < num_clusters_; i++) {
4615 clusters_[i]->ReadFill(this); 4695 clusters_[i]->ReadFill(this);
4616 #if defined(DEBUG) 4696 #if defined(DEBUG)
4617 intptr_t section_marker = Read<intptr_t>(); 4697 int32_t section_marker = Read<int32_t>();
4618 ASSERT(section_marker == kSectionMarker); 4698 ASSERT(section_marker == kSectionMarker);
4619 #endif 4699 #endif
4620 } 4700 }
4621 } 4701 }
4622 } 4702 }
4623 4703
4624 class HeapLocker : public StackResource { 4704 class HeapLocker : public StackResource {
4625 public: 4705 public:
4626 HeapLocker(Thread* thread, PageSpace* page_space) 4706 HeapLocker(Thread* thread, PageSpace* page_space)
4627 : StackResource(thread), page_space_(page_space) { 4707 : StackResource(thread), page_space_(page_space) {
(...skipping 63 matching lines...) Expand 10 before | Expand all | Expand 10 after
4691 4771
4692 // Read roots. 4772 // Read roots.
4693 symbol_table ^= ReadRef(); 4773 symbol_table ^= ReadRef();
4694 isolate()->object_store()->set_symbol_table(symbol_table); 4774 isolate()->object_store()->set_symbol_table(symbol_table);
4695 ReadRef(); // Script list. 4775 ReadRef(); // Script list.
4696 if (Snapshot::IncludesCode(kind_)) { 4776 if (Snapshot::IncludesCode(kind_)) {
4697 StubCode::ReadRef(this); 4777 StubCode::ReadRef(this);
4698 } 4778 }
4699 4779
4700 #if defined(DEBUG) 4780 #if defined(DEBUG)
4701 intptr_t section_marker = Read<intptr_t>(); 4781 int32_t section_marker = Read<int32_t>();
4702 ASSERT(section_marker == kSectionMarker); 4782 ASSERT(section_marker == kSectionMarker);
4703 #endif 4783 #endif
4704 4784
4705 refs = refs_; 4785 refs = refs_;
4706 refs_ = NULL; 4786 refs_ = NULL;
4707 } 4787 }
4708 4788
4709 Symbols::InitOnceFromSnapshot(isolate()); 4789 Symbols::InitOnceFromSnapshot(isolate());
4710 4790
4711 Object::set_vm_isolate_snapshot_object_table(refs); 4791 Object::set_vm_isolate_snapshot_object_table(refs);
(...skipping 20 matching lines...) Expand all
4732 Deserialize(); 4812 Deserialize();
4733 4813
4734 // Read roots. 4814 // Read roots.
4735 RawObject** from = object_store->from(); 4815 RawObject** from = object_store->from();
4736 RawObject** to = object_store->to_snapshot(kind_); 4816 RawObject** to = object_store->to_snapshot(kind_);
4737 for (RawObject** p = from; p <= to; p++) { 4817 for (RawObject** p = from; p <= to; p++) {
4738 *p = ReadRef(); 4818 *p = ReadRef();
4739 } 4819 }
4740 4820
4741 #if defined(DEBUG) 4821 #if defined(DEBUG)
4742 intptr_t section_marker = Read<intptr_t>(); 4822 int32_t section_marker = Read<int32_t>();
4743 ASSERT(section_marker == kSectionMarker); 4823 ASSERT(section_marker == kSectionMarker);
4744 #endif 4824 #endif
4745 4825
4746 refs = refs_; 4826 refs = refs_;
4747 refs_ = NULL; 4827 refs_ = NULL;
4748 } 4828 }
4749 4829
4750 #if defined(DEBUG) 4830 #if defined(DEBUG)
4751 Isolate* isolate = thread()->isolate(); 4831 Isolate* isolate = thread()->isolate();
4752 isolate->ValidateClassTable(); 4832 isolate->ValidateClassTable();
(...skipping 236 matching lines...) Expand 10 before | Expand all | Expand 10 after
4989 5069
4990 deserializer.ReadVMSnapshot(); 5070 deserializer.ReadVMSnapshot();
4991 5071
4992 Dart::set_instructions_snapshot_buffer(instructions_buffer_); 5072 Dart::set_instructions_snapshot_buffer(instructions_buffer_);
4993 Dart::set_data_snapshot_buffer(data_buffer_); 5073 Dart::set_data_snapshot_buffer(data_buffer_);
4994 5074
4995 return ApiError::null(); 5075 return ApiError::null();
4996 } 5076 }
4997 5077
4998 } // namespace dart 5078 } // namespace dart
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