1// Copyright 2012 the V8 project authors. All rights reserved.
2// Redistribution and use in source and binary forms, with or without
3// modification, are permitted provided that the following conditions are
4// met:
5//
6//     * Redistributions of source code must retain the above copyright
7//       notice, this list of conditions and the following disclaimer.
8//     * Redistributions in binary form must reproduce the above
9//       copyright notice, this list of conditions and the following
10//       disclaimer in the documentation and/or other materials provided
11//       with the distribution.
12//     * Neither the name of Google Inc. nor the names of its
13//       contributors may be used to endorse or promote products derived
14//       from this software without specific prior written permission.
15//
16// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
17// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
18// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
19// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
20// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
21// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
22// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
26// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27
28#include "api.h"
29
30#include <math.h>  // For isnan.
31#include <string.h>  // For memcpy, strlen.
32#include "../include/v8-debug.h"
33#include "../include/v8-profiler.h"
34#include "../include/v8-testing.h"
35#include "bootstrapper.h"
36#include "compiler.h"
37#include "conversions-inl.h"
38#include "counters.h"
39#include "debug.h"
40#include "deoptimizer.h"
41#include "execution.h"
42#include "global-handles.h"
43#include "heap-profiler.h"
44#include "messages.h"
45#ifdef COMPRESS_STARTUP_DATA_BZ2
46#include "natives.h"
47#endif
48#include "parser.h"
49#include "platform.h"
50#include "profile-generator-inl.h"
51#include "property-details.h"
52#include "property.h"
53#include "runtime-profiler.h"
54#include "scanner-character-streams.h"
55#include "snapshot.h"
56#include "unicode-inl.h"
57#include "v8threads.h"
58#include "version.h"
59#include "vm-state-inl.h"
60
61
62#define LOG_API(isolate, expr) LOG(isolate, ApiEntryCall(expr))
63
64#define ENTER_V8(isolate)                                        \
65  ASSERT((isolate)->IsInitialized());                           \
66  i::VMState __state__((isolate), i::OTHER)
67#define LEAVE_V8(isolate) \
68  i::VMState __state__((isolate), i::EXTERNAL)
69
70namespace v8 {
71
72#define ON_BAILOUT(isolate, location, code)                        \
73  if (IsDeadCheck(isolate, location) ||                            \
74      IsExecutionTerminatingCheck(isolate)) {                      \
75    code;                                                          \
76    UNREACHABLE();                                                 \
77  }
78
79
80#define EXCEPTION_PREAMBLE(isolate)                                         \
81  (isolate)->handle_scope_implementer()->IncrementCallDepth();              \
82  ASSERT(!(isolate)->external_caught_exception());                          \
83  bool has_pending_exception = false
84
85
86#define EXCEPTION_BAILOUT_CHECK_GENERIC(isolate, value, do_callback)           \
87  do {                                                                         \
88    i::HandleScopeImplementer* handle_scope_implementer =                      \
89        (isolate)->handle_scope_implementer();                                 \
90    handle_scope_implementer->DecrementCallDepth();                            \
91    if (has_pending_exception) {                                               \
92      if (handle_scope_implementer->CallDepthIsZero() &&                       \
93          (isolate)->is_out_of_memory()) {                                     \
94        if (!(isolate)->ignore_out_of_memory())                                \
95          i::V8::FatalProcessOutOfMemory(NULL);                                \
96      }                                                                        \
97      bool call_depth_is_zero = handle_scope_implementer->CallDepthIsZero();   \
98      (isolate)->OptionalRescheduleException(call_depth_is_zero);              \
99      do_callback                                                              \
100      return value;                                                            \
101    }                                                                          \
102    do_callback                                                                \
103  } while (false)
104
105
106#define EXCEPTION_BAILOUT_CHECK_DO_CALLBACK(isolate, value)                    \
107  EXCEPTION_BAILOUT_CHECK_GENERIC(                                             \
108      isolate, value, i::V8::FireCallCompletedCallback(isolate);)
109
110
111#define EXCEPTION_BAILOUT_CHECK(isolate, value)                                \
112  EXCEPTION_BAILOUT_CHECK_GENERIC(isolate, value, ;)
113
114
115#define API_ENTRY_CHECK(isolate, msg)                                          \
116  do {                                                                         \
117    if (v8::Locker::IsActive()) {                                              \
118      ApiCheck(isolate->thread_manager()->IsLockedByCurrentThread(),           \
119               msg,                                                            \
120               "Entering the V8 API without proper locking in place");         \
121    }                                                                          \
122  } while (false)
123
124
125// --- E x c e p t i o n   B e h a v i o r ---
126
127
128static void DefaultFatalErrorHandler(const char* location,
129                                     const char* message) {
130  i::VMState __state__(i::Isolate::Current(), i::OTHER);
131  API_Fatal(location, message);
132}
133
134
135static FatalErrorCallback GetFatalErrorHandler() {
136  i::Isolate* isolate = i::Isolate::Current();
137  if (isolate->exception_behavior() == NULL) {
138    isolate->set_exception_behavior(DefaultFatalErrorHandler);
139  }
140  return isolate->exception_behavior();
141}
142
143
144void i::FatalProcessOutOfMemory(const char* location) {
145  i::V8::FatalProcessOutOfMemory(location, false);
146}
147
148
149// When V8 cannot allocated memory FatalProcessOutOfMemory is called.
150// The default fatal error handler is called and execution is stopped.
151void i::V8::FatalProcessOutOfMemory(const char* location, bool take_snapshot) {
152  i::HeapStats heap_stats;
153  int start_marker;
154  heap_stats.start_marker = &start_marker;
155  int new_space_size;
156  heap_stats.new_space_size = &new_space_size;
157  int new_space_capacity;
158  heap_stats.new_space_capacity = &new_space_capacity;
159  intptr_t old_pointer_space_size;
160  heap_stats.old_pointer_space_size = &old_pointer_space_size;
161  intptr_t old_pointer_space_capacity;
162  heap_stats.old_pointer_space_capacity = &old_pointer_space_capacity;
163  intptr_t old_data_space_size;
164  heap_stats.old_data_space_size = &old_data_space_size;
165  intptr_t old_data_space_capacity;
166  heap_stats.old_data_space_capacity = &old_data_space_capacity;
167  intptr_t code_space_size;
168  heap_stats.code_space_size = &code_space_size;
169  intptr_t code_space_capacity;
170  heap_stats.code_space_capacity = &code_space_capacity;
171  intptr_t map_space_size;
172  heap_stats.map_space_size = &map_space_size;
173  intptr_t map_space_capacity;
174  heap_stats.map_space_capacity = &map_space_capacity;
175  intptr_t cell_space_size;
176  heap_stats.cell_space_size = &cell_space_size;
177  intptr_t cell_space_capacity;
178  heap_stats.cell_space_capacity = &cell_space_capacity;
179  intptr_t lo_space_size;
180  heap_stats.lo_space_size = &lo_space_size;
181  int global_handle_count;
182  heap_stats.global_handle_count = &global_handle_count;
183  int weak_global_handle_count;
184  heap_stats.weak_global_handle_count = &weak_global_handle_count;
185  int pending_global_handle_count;
186  heap_stats.pending_global_handle_count = &pending_global_handle_count;
187  int near_death_global_handle_count;
188  heap_stats.near_death_global_handle_count = &near_death_global_handle_count;
189  int free_global_handle_count;
190  heap_stats.free_global_handle_count = &free_global_handle_count;
191  intptr_t memory_allocator_size;
192  heap_stats.memory_allocator_size = &memory_allocator_size;
193  intptr_t memory_allocator_capacity;
194  heap_stats.memory_allocator_capacity = &memory_allocator_capacity;
195  int objects_per_type[LAST_TYPE + 1] = {0};
196  heap_stats.objects_per_type = objects_per_type;
197  int size_per_type[LAST_TYPE + 1] = {0};
198  heap_stats.size_per_type = size_per_type;
199  int os_error;
200  heap_stats.os_error = &os_error;
201  int end_marker;
202  heap_stats.end_marker = &end_marker;
203  i::Isolate* isolate = i::Isolate::Current();
204  // BUG(1718):
205  // Don't use the take_snapshot since we don't support HeapIterator here
206  // without doing a special GC.
207  isolate->heap()->RecordStats(&heap_stats, false);
208  i::V8::SetFatalError();
209  FatalErrorCallback callback = GetFatalErrorHandler();
210  {
211    LEAVE_V8(isolate);
212    callback(location, "Allocation failed - process out of memory");
213  }
214  // If the callback returns, we stop execution.
215  UNREACHABLE();
216}
217
218
219bool Utils::ReportApiFailure(const char* location, const char* message) {
220  FatalErrorCallback callback = GetFatalErrorHandler();
221  callback(location, message);
222  i::V8::SetFatalError();
223  return false;
224}
225
226
227bool V8::IsDead() {
228  return i::V8::IsDead();
229}
230
231
232static inline bool ApiCheck(bool condition,
233                            const char* location,
234                            const char* message) {
235  return condition ? true : Utils::ReportApiFailure(location, message);
236}
237
238
239static bool ReportV8Dead(const char* location) {
240  FatalErrorCallback callback = GetFatalErrorHandler();
241  callback(location, "V8 is no longer usable");
242  return true;
243}
244
245
246static bool ReportEmptyHandle(const char* location) {
247  FatalErrorCallback callback = GetFatalErrorHandler();
248  callback(location, "Reading from empty handle");
249  return true;
250}
251
252
253/**
254 * IsDeadCheck checks that the vm is usable.  If, for instance, the vm has been
255 * out of memory at some point this check will fail.  It should be called on
256 * entry to all methods that touch anything in the heap, except destructors
257 * which you sometimes can't avoid calling after the vm has crashed.  Functions
258 * that call EnsureInitialized or ON_BAILOUT don't have to also call
259 * IsDeadCheck.  ON_BAILOUT has the advantage over EnsureInitialized that you
260 * can arrange to return if the VM is dead.  This is needed to ensure that no VM
261 * heap allocations are attempted on a dead VM.  EnsureInitialized has the
262 * advantage over ON_BAILOUT that it actually initializes the VM if this has not
263 * yet been done.
264 */
265static inline bool IsDeadCheck(i::Isolate* isolate, const char* location) {
266  return !isolate->IsInitialized()
267      && i::V8::IsDead() ? ReportV8Dead(location) : false;
268}
269
270
271static inline bool IsExecutionTerminatingCheck(i::Isolate* isolate) {
272  if (!isolate->IsInitialized()) return false;
273  if (isolate->has_scheduled_exception()) {
274    return isolate->scheduled_exception() ==
275        isolate->heap()->termination_exception();
276  }
277  return false;
278}
279
280
281static inline bool EmptyCheck(const char* location, v8::Handle<v8::Data> obj) {
282  return obj.IsEmpty() ? ReportEmptyHandle(location) : false;
283}
284
285
286static inline bool EmptyCheck(const char* location, const v8::Data* obj) {
287  return (obj == 0) ? ReportEmptyHandle(location) : false;
288}
289
290// --- S t a t i c s ---
291
292
293static bool InitializeHelper() {
294  if (i::Snapshot::Initialize()) return true;
295  return i::V8::Initialize(NULL);
296}
297
298
299static inline bool EnsureInitializedForIsolate(i::Isolate* isolate,
300                                               const char* location) {
301  if (IsDeadCheck(isolate, location)) return false;
302  if (isolate != NULL) {
303    if (isolate->IsInitialized()) return true;
304  }
305  ASSERT(isolate == i::Isolate::Current());
306  return ApiCheck(InitializeHelper(), location, "Error initializing V8");
307}
308
309// Some initializing API functions are called early and may be
310// called on a thread different from static initializer thread.
311// If Isolate API is used, Isolate::Enter() will initialize TLS so
312// Isolate::Current() works. If it's a legacy case, then the thread
313// may not have TLS initialized yet. However, in initializing APIs it
314// may be too early to call EnsureInitialized() - some pre-init
315// parameters still have to be configured.
316static inline i::Isolate* EnterIsolateIfNeeded() {
317  i::Isolate* isolate = i::Isolate::UncheckedCurrent();
318  if (isolate != NULL)
319    return isolate;
320
321  i::Isolate::EnterDefaultIsolate();
322  isolate = i::Isolate::Current();
323  return isolate;
324}
325
326
327StartupDataDecompressor::StartupDataDecompressor()
328    : raw_data(i::NewArray<char*>(V8::GetCompressedStartupDataCount())) {
329  for (int i = 0; i < V8::GetCompressedStartupDataCount(); ++i) {
330    raw_data[i] = NULL;
331  }
332}
333
334
335StartupDataDecompressor::~StartupDataDecompressor() {
336  for (int i = 0; i < V8::GetCompressedStartupDataCount(); ++i) {
337    i::DeleteArray(raw_data[i]);
338  }
339  i::DeleteArray(raw_data);
340}
341
342
343int StartupDataDecompressor::Decompress() {
344  int compressed_data_count = V8::GetCompressedStartupDataCount();
345  StartupData* compressed_data =
346      i::NewArray<StartupData>(compressed_data_count);
347  V8::GetCompressedStartupData(compressed_data);
348  for (int i = 0; i < compressed_data_count; ++i) {
349    char* decompressed = raw_data[i] =
350        i::NewArray<char>(compressed_data[i].raw_size);
351    if (compressed_data[i].compressed_size != 0) {
352      int result = DecompressData(decompressed,
353                                  &compressed_data[i].raw_size,
354                                  compressed_data[i].data,
355                                  compressed_data[i].compressed_size);
356      if (result != 0) return result;
357    } else {
358      ASSERT_EQ(0, compressed_data[i].raw_size);
359    }
360    compressed_data[i].data = decompressed;
361  }
362  V8::SetDecompressedStartupData(compressed_data);
363  i::DeleteArray(compressed_data);
364  return 0;
365}
366
367
368StartupData::CompressionAlgorithm V8::GetCompressedStartupDataAlgorithm() {
369#ifdef COMPRESS_STARTUP_DATA_BZ2
370  return StartupData::kBZip2;
371#else
372  return StartupData::kUncompressed;
373#endif
374}
375
376
377enum CompressedStartupDataItems {
378  kSnapshot = 0,
379  kSnapshotContext,
380  kLibraries,
381  kExperimentalLibraries,
382  kCompressedStartupDataCount
383};
384
385int V8::GetCompressedStartupDataCount() {
386#ifdef COMPRESS_STARTUP_DATA_BZ2
387  return kCompressedStartupDataCount;
388#else
389  return 0;
390#endif
391}
392
393
394void V8::GetCompressedStartupData(StartupData* compressed_data) {
395#ifdef COMPRESS_STARTUP_DATA_BZ2
396  compressed_data[kSnapshot].data =
397      reinterpret_cast<const char*>(i::Snapshot::data());
398  compressed_data[kSnapshot].compressed_size = i::Snapshot::size();
399  compressed_data[kSnapshot].raw_size = i::Snapshot::raw_size();
400
401  compressed_data[kSnapshotContext].data =
402      reinterpret_cast<const char*>(i::Snapshot::context_data());
403  compressed_data[kSnapshotContext].compressed_size =
404      i::Snapshot::context_size();
405  compressed_data[kSnapshotContext].raw_size = i::Snapshot::context_raw_size();
406
407  i::Vector<const i::byte> libraries_source = i::Natives::GetScriptsSource();
408  compressed_data[kLibraries].data =
409      reinterpret_cast<const char*>(libraries_source.start());
410  compressed_data[kLibraries].compressed_size = libraries_source.length();
411  compressed_data[kLibraries].raw_size = i::Natives::GetRawScriptsSize();
412
413  i::Vector<const i::byte> exp_libraries_source =
414      i::ExperimentalNatives::GetScriptsSource();
415  compressed_data[kExperimentalLibraries].data =
416      reinterpret_cast<const char*>(exp_libraries_source.start());
417  compressed_data[kExperimentalLibraries].compressed_size =
418      exp_libraries_source.length();
419  compressed_data[kExperimentalLibraries].raw_size =
420      i::ExperimentalNatives::GetRawScriptsSize();
421#endif
422}
423
424
425void V8::SetDecompressedStartupData(StartupData* decompressed_data) {
426#ifdef COMPRESS_STARTUP_DATA_BZ2
427  ASSERT_EQ(i::Snapshot::raw_size(), decompressed_data[kSnapshot].raw_size);
428  i::Snapshot::set_raw_data(
429      reinterpret_cast<const i::byte*>(decompressed_data[kSnapshot].data));
430
431  ASSERT_EQ(i::Snapshot::context_raw_size(),
432            decompressed_data[kSnapshotContext].raw_size);
433  i::Snapshot::set_context_raw_data(
434      reinterpret_cast<const i::byte*>(
435          decompressed_data[kSnapshotContext].data));
436
437  ASSERT_EQ(i::Natives::GetRawScriptsSize(),
438            decompressed_data[kLibraries].raw_size);
439  i::Vector<const char> libraries_source(
440      decompressed_data[kLibraries].data,
441      decompressed_data[kLibraries].raw_size);
442  i::Natives::SetRawScriptsSource(libraries_source);
443
444  ASSERT_EQ(i::ExperimentalNatives::GetRawScriptsSize(),
445            decompressed_data[kExperimentalLibraries].raw_size);
446  i::Vector<const char> exp_libraries_source(
447      decompressed_data[kExperimentalLibraries].data,
448      decompressed_data[kExperimentalLibraries].raw_size);
449  i::ExperimentalNatives::SetRawScriptsSource(exp_libraries_source);
450#endif
451}
452
453
454void V8::SetFatalErrorHandler(FatalErrorCallback that) {
455  i::Isolate* isolate = EnterIsolateIfNeeded();
456  isolate->set_exception_behavior(that);
457}
458
459
460void V8::SetAllowCodeGenerationFromStringsCallback(
461    AllowCodeGenerationFromStringsCallback callback) {
462  i::Isolate* isolate = EnterIsolateIfNeeded();
463  isolate->set_allow_code_gen_callback(callback);
464}
465
466
467#ifdef DEBUG
468void ImplementationUtilities::ZapHandleRange(i::Object** begin,
469                                             i::Object** end) {
470  i::HandleScope::ZapRange(begin, end);
471}
472#endif
473
474
475void V8::SetFlagsFromString(const char* str, int length) {
476  i::FlagList::SetFlagsFromString(str, length);
477}
478
479
480void V8::SetFlagsFromCommandLine(int* argc, char** argv, bool remove_flags) {
481  i::FlagList::SetFlagsFromCommandLine(argc, argv, remove_flags);
482}
483
484
485v8::Handle<Value> ThrowException(v8::Handle<v8::Value> value) {
486  i::Isolate* isolate = i::Isolate::Current();
487  if (IsDeadCheck(isolate, "v8::ThrowException()")) {
488    return v8::Handle<Value>();
489  }
490  ENTER_V8(isolate);
491  // If we're passed an empty handle, we throw an undefined exception
492  // to deal more gracefully with out of memory situations.
493  if (value.IsEmpty()) {
494    isolate->ScheduleThrow(isolate->heap()->undefined_value());
495  } else {
496    isolate->ScheduleThrow(*Utils::OpenHandle(*value));
497  }
498  return v8::Undefined();
499}
500
501
502RegisteredExtension* RegisteredExtension::first_extension_ = NULL;
503
504
505RegisteredExtension::RegisteredExtension(Extension* extension)
506    : extension_(extension) { }
507
508
509void RegisteredExtension::Register(RegisteredExtension* that) {
510  that->next_ = first_extension_;
511  first_extension_ = that;
512}
513
514
515void RegisterExtension(Extension* that) {
516  RegisteredExtension* extension = new RegisteredExtension(that);
517  RegisteredExtension::Register(extension);
518}
519
520
521Extension::Extension(const char* name,
522                     const char* source,
523                     int dep_count,
524                     const char** deps,
525                     int source_length)
526    : name_(name),
527      source_length_(source_length >= 0 ?
528                     source_length :
529                     (source ? static_cast<int>(strlen(source)) : 0)),
530      source_(source, source_length_),
531      dep_count_(dep_count),
532      deps_(deps),
533      auto_enable_(false) { }
534
535
536v8::Handle<Primitive> Undefined() {
537  i::Isolate* isolate = i::Isolate::Current();
538  if (!EnsureInitializedForIsolate(isolate, "v8::Undefined()")) {
539    return v8::Handle<v8::Primitive>();
540  }
541  return v8::Handle<Primitive>(ToApi<Primitive>(
542      isolate->factory()->undefined_value()));
543}
544
545
546v8::Handle<Primitive> Null() {
547  i::Isolate* isolate = i::Isolate::Current();
548  if (!EnsureInitializedForIsolate(isolate, "v8::Null()")) {
549    return v8::Handle<v8::Primitive>();
550  }
551  return v8::Handle<Primitive>(
552      ToApi<Primitive>(isolate->factory()->null_value()));
553}
554
555
556v8::Handle<Boolean> True() {
557  i::Isolate* isolate = i::Isolate::Current();
558  if (!EnsureInitializedForIsolate(isolate, "v8::True()")) {
559    return v8::Handle<Boolean>();
560  }
561  return v8::Handle<Boolean>(
562      ToApi<Boolean>(isolate->factory()->true_value()));
563}
564
565
566v8::Handle<Boolean> False() {
567  i::Isolate* isolate = i::Isolate::Current();
568  if (!EnsureInitializedForIsolate(isolate, "v8::False()")) {
569    return v8::Handle<Boolean>();
570  }
571  return v8::Handle<Boolean>(
572      ToApi<Boolean>(isolate->factory()->false_value()));
573}
574
575
576ResourceConstraints::ResourceConstraints()
577  : max_young_space_size_(0),
578    max_old_space_size_(0),
579    max_executable_size_(0),
580    stack_limit_(NULL) { }
581
582
583bool SetResourceConstraints(ResourceConstraints* constraints) {
584  i::Isolate* isolate = EnterIsolateIfNeeded();
585
586  int young_space_size = constraints->max_young_space_size();
587  int old_gen_size = constraints->max_old_space_size();
588  int max_executable_size = constraints->max_executable_size();
589  if (young_space_size != 0 || old_gen_size != 0 || max_executable_size != 0) {
590    // After initialization it's too late to change Heap constraints.
591    ASSERT(!isolate->IsInitialized());
592    bool result = isolate->heap()->ConfigureHeap(young_space_size / 2,
593                                                 old_gen_size,
594                                                 max_executable_size);
595    if (!result) return false;
596  }
597  if (constraints->stack_limit() != NULL) {
598    uintptr_t limit = reinterpret_cast<uintptr_t>(constraints->stack_limit());
599    isolate->stack_guard()->SetStackLimit(limit);
600  }
601  return true;
602}
603
604
605i::Object** V8::GlobalizeReference(i::Object** obj) {
606  i::Isolate* isolate = i::Isolate::Current();
607  if (IsDeadCheck(isolate, "V8::Persistent::New")) return NULL;
608  LOG_API(isolate, "Persistent::New");
609  i::Handle<i::Object> result =
610      isolate->global_handles()->Create(*obj);
611  return result.location();
612}
613
614
615void V8::MakeWeak(i::Object** object, void* parameters,
616                  WeakReferenceCallback callback) {
617  i::Isolate* isolate = i::Isolate::Current();
618  LOG_API(isolate, "MakeWeak");
619  isolate->global_handles()->MakeWeak(object, parameters,
620                                                    callback);
621}
622
623
624void V8::ClearWeak(i::Object** obj) {
625  i::Isolate* isolate = i::Isolate::Current();
626  LOG_API(isolate, "ClearWeak");
627  isolate->global_handles()->ClearWeakness(obj);
628}
629
630
631void V8::MarkIndependent(i::Object** object) {
632  i::Isolate* isolate = i::Isolate::Current();
633  LOG_API(isolate, "MakeIndependent");
634  isolate->global_handles()->MarkIndependent(object);
635}
636
637
638bool V8::IsGlobalNearDeath(i::Object** obj) {
639  i::Isolate* isolate = i::Isolate::Current();
640  LOG_API(isolate, "IsGlobalNearDeath");
641  if (!isolate->IsInitialized()) return false;
642  return i::GlobalHandles::IsNearDeath(obj);
643}
644
645
646bool V8::IsGlobalWeak(i::Object** obj) {
647  i::Isolate* isolate = i::Isolate::Current();
648  LOG_API(isolate, "IsGlobalWeak");
649  if (!isolate->IsInitialized()) return false;
650  return i::GlobalHandles::IsWeak(obj);
651}
652
653
654void V8::DisposeGlobal(i::Object** obj) {
655  i::Isolate* isolate = i::Isolate::Current();
656  LOG_API(isolate, "DisposeGlobal");
657  if (!isolate->IsInitialized()) return;
658  isolate->global_handles()->Destroy(obj);
659}
660
661// --- H a n d l e s ---
662
663
664HandleScope::HandleScope() {
665  i::Isolate* isolate = i::Isolate::Current();
666  API_ENTRY_CHECK(isolate, "HandleScope::HandleScope");
667  v8::ImplementationUtilities::HandleScopeData* current =
668      isolate->handle_scope_data();
669  isolate_ = isolate;
670  prev_next_ = current->next;
671  prev_limit_ = current->limit;
672  is_closed_ = false;
673  current->level++;
674}
675
676
677HandleScope::~HandleScope() {
678  if (!is_closed_) {
679    Leave();
680  }
681}
682
683
684void HandleScope::Leave() {
685  ASSERT(isolate_ == i::Isolate::Current());
686  v8::ImplementationUtilities::HandleScopeData* current =
687      isolate_->handle_scope_data();
688  current->level--;
689  ASSERT(current->level >= 0);
690  current->next = prev_next_;
691  if (current->limit != prev_limit_) {
692    current->limit = prev_limit_;
693    i::HandleScope::DeleteExtensions(isolate_);
694  }
695
696#ifdef DEBUG
697  i::HandleScope::ZapRange(prev_next_, prev_limit_);
698#endif
699}
700
701
702int HandleScope::NumberOfHandles() {
703  EnsureInitializedForIsolate(
704      i::Isolate::Current(), "HandleScope::NumberOfHandles");
705  return i::HandleScope::NumberOfHandles();
706}
707
708
709i::Object** HandleScope::CreateHandle(i::Object* value) {
710  return i::HandleScope::CreateHandle(value, i::Isolate::Current());
711}
712
713
714i::Object** HandleScope::CreateHandle(i::HeapObject* value) {
715  ASSERT(value->IsHeapObject());
716  return reinterpret_cast<i::Object**>(
717      i::HandleScope::CreateHandle(value, value->GetIsolate()));
718}
719
720
721void Context::Enter() {
722  i::Handle<i::Context> env = Utils::OpenHandle(this);
723  i::Isolate* isolate = env->GetIsolate();
724  if (IsDeadCheck(isolate, "v8::Context::Enter()")) return;
725  ENTER_V8(isolate);
726
727  isolate->handle_scope_implementer()->EnterContext(env);
728
729  isolate->handle_scope_implementer()->SaveContext(isolate->context());
730  isolate->set_context(*env);
731}
732
733
734void Context::Exit() {
735  // Exit is essentially a static function and doesn't use the
736  // receiver, so we have to get the current isolate from the thread
737  // local.
738  i::Isolate* isolate = i::Isolate::Current();
739  if (!isolate->IsInitialized()) return;
740
741  if (!ApiCheck(isolate->handle_scope_implementer()->LeaveLastContext(),
742                "v8::Context::Exit()",
743                "Cannot exit non-entered context")) {
744    return;
745  }
746
747  // Content of 'last_context' could be NULL.
748  i::Context* last_context =
749      isolate->handle_scope_implementer()->RestoreContext();
750  isolate->set_context(last_context);
751  isolate->set_context_exit_happened(true);
752}
753
754
755void Context::SetData(v8::Handle<String> data) {
756  i::Handle<i::Context> env = Utils::OpenHandle(this);
757  i::Isolate* isolate = env->GetIsolate();
758  if (IsDeadCheck(isolate, "v8::Context::SetData()")) return;
759  i::Handle<i::Object> raw_data = Utils::OpenHandle(*data);
760  ASSERT(env->IsGlobalContext());
761  if (env->IsGlobalContext()) {
762    env->set_data(*raw_data);
763  }
764}
765
766
767v8::Local<v8::Value> Context::GetData() {
768  i::Handle<i::Context> env = Utils::OpenHandle(this);
769  i::Isolate* isolate = env->GetIsolate();
770  if (IsDeadCheck(isolate, "v8::Context::GetData()")) {
771    return v8::Local<Value>();
772  }
773  i::Object* raw_result = NULL;
774  ASSERT(env->IsGlobalContext());
775  if (env->IsGlobalContext()) {
776    raw_result = env->data();
777  } else {
778    return Local<Value>();
779  }
780  i::Handle<i::Object> result(raw_result, isolate);
781  return Utils::ToLocal(result);
782}
783
784
785i::Object** v8::HandleScope::RawClose(i::Object** value) {
786  if (!ApiCheck(!is_closed_,
787                "v8::HandleScope::Close()",
788                "Local scope has already been closed")) {
789    return 0;
790  }
791  LOG_API(isolate_, "CloseHandleScope");
792
793  // Read the result before popping the handle block.
794  i::Object* result = NULL;
795  if (value != NULL) {
796    result = *value;
797  }
798  is_closed_ = true;
799  Leave();
800
801  if (value == NULL) {
802    return NULL;
803  }
804
805  // Allocate a new handle on the previous handle block.
806  i::Handle<i::Object> handle(result);
807  return handle.location();
808}
809
810
811// --- N e a n d e r ---
812
813
814// A constructor cannot easily return an error value, therefore it is necessary
815// to check for a dead VM with ON_BAILOUT before constructing any Neander
816// objects.  To remind you about this there is no HandleScope in the
817// NeanderObject constructor.  When you add one to the site calling the
818// constructor you should check that you ensured the VM was not dead first.
819NeanderObject::NeanderObject(int size) {
820  i::Isolate* isolate = i::Isolate::Current();
821  EnsureInitializedForIsolate(isolate, "v8::Nowhere");
822  ENTER_V8(isolate);
823  value_ = isolate->factory()->NewNeanderObject();
824  i::Handle<i::FixedArray> elements = isolate->factory()->NewFixedArray(size);
825  value_->set_elements(*elements);
826}
827
828
829int NeanderObject::size() {
830  return i::FixedArray::cast(value_->elements())->length();
831}
832
833
834NeanderArray::NeanderArray() : obj_(2) {
835  obj_.set(0, i::Smi::FromInt(0));
836}
837
838
839int NeanderArray::length() {
840  return i::Smi::cast(obj_.get(0))->value();
841}
842
843
844i::Object* NeanderArray::get(int offset) {
845  ASSERT(0 <= offset);
846  ASSERT(offset < length());
847  return obj_.get(offset + 1);
848}
849
850
851// This method cannot easily return an error value, therefore it is necessary
852// to check for a dead VM with ON_BAILOUT before calling it.  To remind you
853// about this there is no HandleScope in this method.  When you add one to the
854// site calling this method you should check that you ensured the VM was not
855// dead first.
856void NeanderArray::add(i::Handle<i::Object> value) {
857  int length = this->length();
858  int size = obj_.size();
859  if (length == size - 1) {
860    i::Handle<i::FixedArray> new_elms = FACTORY->NewFixedArray(2 * size);
861    for (int i = 0; i < length; i++)
862      new_elms->set(i + 1, get(i));
863    obj_.value()->set_elements(*new_elms);
864  }
865  obj_.set(length + 1, *value);
866  obj_.set(0, i::Smi::FromInt(length + 1));
867}
868
869
870void NeanderArray::set(int index, i::Object* value) {
871  if (index < 0 || index >= this->length()) return;
872  obj_.set(index + 1, value);
873}
874
875
876// --- T e m p l a t e ---
877
878
879static void InitializeTemplate(i::Handle<i::TemplateInfo> that, int type) {
880  that->set_tag(i::Smi::FromInt(type));
881}
882
883
884void Template::Set(v8::Handle<String> name, v8::Handle<Data> value,
885                   v8::PropertyAttribute attribute) {
886  i::Isolate* isolate = i::Isolate::Current();
887  if (IsDeadCheck(isolate, "v8::Template::Set()")) return;
888  ENTER_V8(isolate);
889  i::HandleScope scope(isolate);
890  i::Handle<i::Object> list(Utils::OpenHandle(this)->property_list());
891  if (list->IsUndefined()) {
892    list = NeanderArray().value();
893    Utils::OpenHandle(this)->set_property_list(*list);
894  }
895  NeanderArray array(list);
896  array.add(Utils::OpenHandle(*name));
897  array.add(Utils::OpenHandle(*value));
898  array.add(Utils::OpenHandle(*v8::Integer::New(attribute)));
899}
900
901
902// --- F u n c t i o n   T e m p l a t e ---
903static void InitializeFunctionTemplate(
904      i::Handle<i::FunctionTemplateInfo> info) {
905  info->set_tag(i::Smi::FromInt(Consts::FUNCTION_TEMPLATE));
906  info->set_flag(0);
907}
908
909
910Local<ObjectTemplate> FunctionTemplate::PrototypeTemplate() {
911  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
912  if (IsDeadCheck(isolate, "v8::FunctionTemplate::PrototypeTemplate()")) {
913    return Local<ObjectTemplate>();
914  }
915  ENTER_V8(isolate);
916  i::Handle<i::Object> result(Utils::OpenHandle(this)->prototype_template());
917  if (result->IsUndefined()) {
918    result = Utils::OpenHandle(*ObjectTemplate::New());
919    Utils::OpenHandle(this)->set_prototype_template(*result);
920  }
921  return Local<ObjectTemplate>(ToApi<ObjectTemplate>(result));
922}
923
924
925void FunctionTemplate::Inherit(v8::Handle<FunctionTemplate> value) {
926  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
927  if (IsDeadCheck(isolate, "v8::FunctionTemplate::Inherit()")) return;
928  ENTER_V8(isolate);
929  Utils::OpenHandle(this)->set_parent_template(*Utils::OpenHandle(*value));
930}
931
932
933Local<FunctionTemplate> FunctionTemplate::New(InvocationCallback callback,
934    v8::Handle<Value> data, v8::Handle<Signature> signature) {
935  i::Isolate* isolate = i::Isolate::Current();
936  EnsureInitializedForIsolate(isolate, "v8::FunctionTemplate::New()");
937  LOG_API(isolate, "FunctionTemplate::New");
938  ENTER_V8(isolate);
939  i::Handle<i::Struct> struct_obj =
940      isolate->factory()->NewStruct(i::FUNCTION_TEMPLATE_INFO_TYPE);
941  i::Handle<i::FunctionTemplateInfo> obj =
942      i::Handle<i::FunctionTemplateInfo>::cast(struct_obj);
943  InitializeFunctionTemplate(obj);
944  int next_serial_number = isolate->next_serial_number();
945  isolate->set_next_serial_number(next_serial_number + 1);
946  obj->set_serial_number(i::Smi::FromInt(next_serial_number));
947  if (callback != 0) {
948    if (data.IsEmpty()) data = v8::Undefined();
949    Utils::ToLocal(obj)->SetCallHandler(callback, data);
950  }
951  obj->set_undetectable(false);
952  obj->set_needs_access_check(false);
953
954  if (!signature.IsEmpty())
955    obj->set_signature(*Utils::OpenHandle(*signature));
956  return Utils::ToLocal(obj);
957}
958
959
960Local<Signature> Signature::New(Handle<FunctionTemplate> receiver,
961      int argc, Handle<FunctionTemplate> argv[]) {
962  i::Isolate* isolate = i::Isolate::Current();
963  EnsureInitializedForIsolate(isolate, "v8::Signature::New()");
964  LOG_API(isolate, "Signature::New");
965  ENTER_V8(isolate);
966  i::Handle<i::Struct> struct_obj =
967      isolate->factory()->NewStruct(i::SIGNATURE_INFO_TYPE);
968  i::Handle<i::SignatureInfo> obj =
969      i::Handle<i::SignatureInfo>::cast(struct_obj);
970  if (!receiver.IsEmpty()) obj->set_receiver(*Utils::OpenHandle(*receiver));
971  if (argc > 0) {
972    i::Handle<i::FixedArray> args = isolate->factory()->NewFixedArray(argc);
973    for (int i = 0; i < argc; i++) {
974      if (!argv[i].IsEmpty())
975        args->set(i, *Utils::OpenHandle(*argv[i]));
976    }
977    obj->set_args(*args);
978  }
979  return Utils::ToLocal(obj);
980}
981
982
983Local<TypeSwitch> TypeSwitch::New(Handle<FunctionTemplate> type) {
984  Handle<FunctionTemplate> types[1] = { type };
985  return TypeSwitch::New(1, types);
986}
987
988
989Local<TypeSwitch> TypeSwitch::New(int argc, Handle<FunctionTemplate> types[]) {
990  i::Isolate* isolate = i::Isolate::Current();
991  EnsureInitializedForIsolate(isolate, "v8::TypeSwitch::New()");
992  LOG_API(isolate, "TypeSwitch::New");
993  ENTER_V8(isolate);
994  i::Handle<i::FixedArray> vector = isolate->factory()->NewFixedArray(argc);
995  for (int i = 0; i < argc; i++)
996    vector->set(i, *Utils::OpenHandle(*types[i]));
997  i::Handle<i::Struct> struct_obj =
998      isolate->factory()->NewStruct(i::TYPE_SWITCH_INFO_TYPE);
999  i::Handle<i::TypeSwitchInfo> obj =
1000      i::Handle<i::TypeSwitchInfo>::cast(struct_obj);
1001  obj->set_types(*vector);
1002  return Utils::ToLocal(obj);
1003}
1004
1005
1006int TypeSwitch::match(v8::Handle<Value> value) {
1007  i::Isolate* isolate = i::Isolate::Current();
1008  LOG_API(isolate, "TypeSwitch::match");
1009  USE(isolate);
1010  i::Handle<i::Object> obj = Utils::OpenHandle(*value);
1011  i::Handle<i::TypeSwitchInfo> info = Utils::OpenHandle(this);
1012  i::FixedArray* types = i::FixedArray::cast(info->types());
1013  for (int i = 0; i < types->length(); i++) {
1014    if (obj->IsInstanceOf(i::FunctionTemplateInfo::cast(types->get(i))))
1015      return i + 1;
1016  }
1017  return 0;
1018}
1019
1020
1021#define SET_FIELD_WRAPPED(obj, setter, cdata) do {    \
1022    i::Handle<i::Object> foreign = FromCData(cdata);  \
1023    (obj)->setter(*foreign);                          \
1024  } while (false)
1025
1026
1027void FunctionTemplate::SetCallHandler(InvocationCallback callback,
1028                                      v8::Handle<Value> data) {
1029  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1030  if (IsDeadCheck(isolate, "v8::FunctionTemplate::SetCallHandler()")) return;
1031  ENTER_V8(isolate);
1032  i::HandleScope scope(isolate);
1033  i::Handle<i::Struct> struct_obj =
1034      isolate->factory()->NewStruct(i::CALL_HANDLER_INFO_TYPE);
1035  i::Handle<i::CallHandlerInfo> obj =
1036      i::Handle<i::CallHandlerInfo>::cast(struct_obj);
1037  SET_FIELD_WRAPPED(obj, set_callback, callback);
1038  if (data.IsEmpty()) data = v8::Undefined();
1039  obj->set_data(*Utils::OpenHandle(*data));
1040  Utils::OpenHandle(this)->set_call_code(*obj);
1041}
1042
1043
1044static i::Handle<i::AccessorInfo> MakeAccessorInfo(
1045      v8::Handle<String> name,
1046      AccessorGetter getter,
1047      AccessorSetter setter,
1048      v8::Handle<Value> data,
1049      v8::AccessControl settings,
1050      v8::PropertyAttribute attributes) {
1051  i::Handle<i::AccessorInfo> obj = FACTORY->NewAccessorInfo();
1052  ASSERT(getter != NULL);
1053  SET_FIELD_WRAPPED(obj, set_getter, getter);
1054  SET_FIELD_WRAPPED(obj, set_setter, setter);
1055  if (data.IsEmpty()) data = v8::Undefined();
1056  obj->set_data(*Utils::OpenHandle(*data));
1057  obj->set_name(*Utils::OpenHandle(*name));
1058  if (settings & ALL_CAN_READ) obj->set_all_can_read(true);
1059  if (settings & ALL_CAN_WRITE) obj->set_all_can_write(true);
1060  if (settings & PROHIBITS_OVERWRITING) obj->set_prohibits_overwriting(true);
1061  obj->set_property_attributes(static_cast<PropertyAttributes>(attributes));
1062  return obj;
1063}
1064
1065
1066void FunctionTemplate::AddInstancePropertyAccessor(
1067      v8::Handle<String> name,
1068      AccessorGetter getter,
1069      AccessorSetter setter,
1070      v8::Handle<Value> data,
1071      v8::AccessControl settings,
1072      v8::PropertyAttribute attributes) {
1073  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1074  if (IsDeadCheck(isolate,
1075                  "v8::FunctionTemplate::AddInstancePropertyAccessor()")) {
1076    return;
1077  }
1078  ENTER_V8(isolate);
1079  i::HandleScope scope(isolate);
1080
1081  i::Handle<i::AccessorInfo> obj = MakeAccessorInfo(name,
1082                                                    getter, setter, data,
1083                                                    settings, attributes);
1084  i::Handle<i::Object> list(Utils::OpenHandle(this)->property_accessors());
1085  if (list->IsUndefined()) {
1086    list = NeanderArray().value();
1087    Utils::OpenHandle(this)->set_property_accessors(*list);
1088  }
1089  NeanderArray array(list);
1090  array.add(obj);
1091}
1092
1093
1094Local<ObjectTemplate> FunctionTemplate::InstanceTemplate() {
1095  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1096  if (IsDeadCheck(isolate, "v8::FunctionTemplate::InstanceTemplate()")
1097      || EmptyCheck("v8::FunctionTemplate::InstanceTemplate()", this))
1098    return Local<ObjectTemplate>();
1099  ENTER_V8(isolate);
1100  if (Utils::OpenHandle(this)->instance_template()->IsUndefined()) {
1101    Local<ObjectTemplate> templ =
1102        ObjectTemplate::New(v8::Handle<FunctionTemplate>(this));
1103    Utils::OpenHandle(this)->set_instance_template(*Utils::OpenHandle(*templ));
1104  }
1105  i::Handle<i::ObjectTemplateInfo> result(i::ObjectTemplateInfo::cast(
1106        Utils::OpenHandle(this)->instance_template()));
1107  return Utils::ToLocal(result);
1108}
1109
1110
1111void FunctionTemplate::SetClassName(Handle<String> name) {
1112  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1113  if (IsDeadCheck(isolate, "v8::FunctionTemplate::SetClassName()")) return;
1114  ENTER_V8(isolate);
1115  Utils::OpenHandle(this)->set_class_name(*Utils::OpenHandle(*name));
1116}
1117
1118
1119void FunctionTemplate::SetHiddenPrototype(bool value) {
1120  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1121  if (IsDeadCheck(isolate, "v8::FunctionTemplate::SetHiddenPrototype()")) {
1122    return;
1123  }
1124  ENTER_V8(isolate);
1125  Utils::OpenHandle(this)->set_hidden_prototype(value);
1126}
1127
1128
1129void FunctionTemplate::ReadOnlyPrototype() {
1130  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1131  if (IsDeadCheck(isolate, "v8::FunctionTemplate::SetPrototypeAttributes()")) {
1132    return;
1133  }
1134  ENTER_V8(isolate);
1135  Utils::OpenHandle(this)->set_read_only_prototype(true);
1136}
1137
1138
1139void FunctionTemplate::SetNamedInstancePropertyHandler(
1140      NamedPropertyGetter getter,
1141      NamedPropertySetter setter,
1142      NamedPropertyQuery query,
1143      NamedPropertyDeleter remover,
1144      NamedPropertyEnumerator enumerator,
1145      Handle<Value> data) {
1146  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1147  if (IsDeadCheck(isolate,
1148                  "v8::FunctionTemplate::SetNamedInstancePropertyHandler()")) {
1149    return;
1150  }
1151  ENTER_V8(isolate);
1152  i::HandleScope scope(isolate);
1153  i::Handle<i::Struct> struct_obj =
1154      isolate->factory()->NewStruct(i::INTERCEPTOR_INFO_TYPE);
1155  i::Handle<i::InterceptorInfo> obj =
1156      i::Handle<i::InterceptorInfo>::cast(struct_obj);
1157
1158  if (getter != 0) SET_FIELD_WRAPPED(obj, set_getter, getter);
1159  if (setter != 0) SET_FIELD_WRAPPED(obj, set_setter, setter);
1160  if (query != 0) SET_FIELD_WRAPPED(obj, set_query, query);
1161  if (remover != 0) SET_FIELD_WRAPPED(obj, set_deleter, remover);
1162  if (enumerator != 0) SET_FIELD_WRAPPED(obj, set_enumerator, enumerator);
1163
1164  if (data.IsEmpty()) data = v8::Undefined();
1165  obj->set_data(*Utils::OpenHandle(*data));
1166  Utils::OpenHandle(this)->set_named_property_handler(*obj);
1167}
1168
1169
1170void FunctionTemplate::SetIndexedInstancePropertyHandler(
1171      IndexedPropertyGetter getter,
1172      IndexedPropertySetter setter,
1173      IndexedPropertyQuery query,
1174      IndexedPropertyDeleter remover,
1175      IndexedPropertyEnumerator enumerator,
1176      Handle<Value> data) {
1177  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1178  if (IsDeadCheck(isolate,
1179        "v8::FunctionTemplate::SetIndexedInstancePropertyHandler()")) {
1180    return;
1181  }
1182  ENTER_V8(isolate);
1183  i::HandleScope scope(isolate);
1184  i::Handle<i::Struct> struct_obj =
1185      isolate->factory()->NewStruct(i::INTERCEPTOR_INFO_TYPE);
1186  i::Handle<i::InterceptorInfo> obj =
1187      i::Handle<i::InterceptorInfo>::cast(struct_obj);
1188
1189  if (getter != 0) SET_FIELD_WRAPPED(obj, set_getter, getter);
1190  if (setter != 0) SET_FIELD_WRAPPED(obj, set_setter, setter);
1191  if (query != 0) SET_FIELD_WRAPPED(obj, set_query, query);
1192  if (remover != 0) SET_FIELD_WRAPPED(obj, set_deleter, remover);
1193  if (enumerator != 0) SET_FIELD_WRAPPED(obj, set_enumerator, enumerator);
1194
1195  if (data.IsEmpty()) data = v8::Undefined();
1196  obj->set_data(*Utils::OpenHandle(*data));
1197  Utils::OpenHandle(this)->set_indexed_property_handler(*obj);
1198}
1199
1200
1201void FunctionTemplate::SetInstanceCallAsFunctionHandler(
1202      InvocationCallback callback,
1203      Handle<Value> data) {
1204  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1205  if (IsDeadCheck(isolate,
1206                  "v8::FunctionTemplate::SetInstanceCallAsFunctionHandler()")) {
1207    return;
1208  }
1209  ENTER_V8(isolate);
1210  i::HandleScope scope(isolate);
1211  i::Handle<i::Struct> struct_obj =
1212      isolate->factory()->NewStruct(i::CALL_HANDLER_INFO_TYPE);
1213  i::Handle<i::CallHandlerInfo> obj =
1214      i::Handle<i::CallHandlerInfo>::cast(struct_obj);
1215  SET_FIELD_WRAPPED(obj, set_callback, callback);
1216  if (data.IsEmpty()) data = v8::Undefined();
1217  obj->set_data(*Utils::OpenHandle(*data));
1218  Utils::OpenHandle(this)->set_instance_call_handler(*obj);
1219}
1220
1221
1222// --- O b j e c t T e m p l a t e ---
1223
1224
1225Local<ObjectTemplate> ObjectTemplate::New() {
1226  return New(Local<FunctionTemplate>());
1227}
1228
1229
1230Local<ObjectTemplate> ObjectTemplate::New(
1231      v8::Handle<FunctionTemplate> constructor) {
1232  i::Isolate* isolate = i::Isolate::Current();
1233  if (IsDeadCheck(isolate, "v8::ObjectTemplate::New()")) {
1234    return Local<ObjectTemplate>();
1235  }
1236  EnsureInitializedForIsolate(isolate, "v8::ObjectTemplate::New()");
1237  LOG_API(isolate, "ObjectTemplate::New");
1238  ENTER_V8(isolate);
1239  i::Handle<i::Struct> struct_obj =
1240      isolate->factory()->NewStruct(i::OBJECT_TEMPLATE_INFO_TYPE);
1241  i::Handle<i::ObjectTemplateInfo> obj =
1242      i::Handle<i::ObjectTemplateInfo>::cast(struct_obj);
1243  InitializeTemplate(obj, Consts::OBJECT_TEMPLATE);
1244  if (!constructor.IsEmpty())
1245    obj->set_constructor(*Utils::OpenHandle(*constructor));
1246  obj->set_internal_field_count(i::Smi::FromInt(0));
1247  return Utils::ToLocal(obj);
1248}
1249
1250
1251// Ensure that the object template has a constructor.  If no
1252// constructor is available we create one.
1253static void EnsureConstructor(ObjectTemplate* object_template) {
1254  if (Utils::OpenHandle(object_template)->constructor()->IsUndefined()) {
1255    Local<FunctionTemplate> templ = FunctionTemplate::New();
1256    i::Handle<i::FunctionTemplateInfo> constructor = Utils::OpenHandle(*templ);
1257    constructor->set_instance_template(*Utils::OpenHandle(object_template));
1258    Utils::OpenHandle(object_template)->set_constructor(*constructor);
1259  }
1260}
1261
1262
1263void ObjectTemplate::SetAccessor(v8::Handle<String> name,
1264                                 AccessorGetter getter,
1265                                 AccessorSetter setter,
1266                                 v8::Handle<Value> data,
1267                                 AccessControl settings,
1268                                 PropertyAttribute attribute) {
1269  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1270  if (IsDeadCheck(isolate, "v8::ObjectTemplate::SetAccessor()")) return;
1271  ENTER_V8(isolate);
1272  i::HandleScope scope(isolate);
1273  EnsureConstructor(this);
1274  i::FunctionTemplateInfo* constructor =
1275      i::FunctionTemplateInfo::cast(Utils::OpenHandle(this)->constructor());
1276  i::Handle<i::FunctionTemplateInfo> cons(constructor);
1277  Utils::ToLocal(cons)->AddInstancePropertyAccessor(name,
1278                                                    getter,
1279                                                    setter,
1280                                                    data,
1281                                                    settings,
1282                                                    attribute);
1283}
1284
1285
1286void ObjectTemplate::SetNamedPropertyHandler(NamedPropertyGetter getter,
1287                                             NamedPropertySetter setter,
1288                                             NamedPropertyQuery query,
1289                                             NamedPropertyDeleter remover,
1290                                             NamedPropertyEnumerator enumerator,
1291                                             Handle<Value> data) {
1292  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1293  if (IsDeadCheck(isolate, "v8::ObjectTemplate::SetNamedPropertyHandler()")) {
1294    return;
1295  }
1296  ENTER_V8(isolate);
1297  i::HandleScope scope(isolate);
1298  EnsureConstructor(this);
1299  i::FunctionTemplateInfo* constructor =
1300      i::FunctionTemplateInfo::cast(Utils::OpenHandle(this)->constructor());
1301  i::Handle<i::FunctionTemplateInfo> cons(constructor);
1302  Utils::ToLocal(cons)->SetNamedInstancePropertyHandler(getter,
1303                                                        setter,
1304                                                        query,
1305                                                        remover,
1306                                                        enumerator,
1307                                                        data);
1308}
1309
1310
1311void ObjectTemplate::MarkAsUndetectable() {
1312  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1313  if (IsDeadCheck(isolate, "v8::ObjectTemplate::MarkAsUndetectable()")) return;
1314  ENTER_V8(isolate);
1315  i::HandleScope scope(isolate);
1316  EnsureConstructor(this);
1317  i::FunctionTemplateInfo* constructor =
1318      i::FunctionTemplateInfo::cast(Utils::OpenHandle(this)->constructor());
1319  i::Handle<i::FunctionTemplateInfo> cons(constructor);
1320  cons->set_undetectable(true);
1321}
1322
1323
1324void ObjectTemplate::SetAccessCheckCallbacks(
1325      NamedSecurityCallback named_callback,
1326      IndexedSecurityCallback indexed_callback,
1327      Handle<Value> data,
1328      bool turned_on_by_default) {
1329  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1330  if (IsDeadCheck(isolate, "v8::ObjectTemplate::SetAccessCheckCallbacks()")) {
1331    return;
1332  }
1333  ENTER_V8(isolate);
1334  i::HandleScope scope(isolate);
1335  EnsureConstructor(this);
1336
1337  i::Handle<i::Struct> struct_info =
1338      isolate->factory()->NewStruct(i::ACCESS_CHECK_INFO_TYPE);
1339  i::Handle<i::AccessCheckInfo> info =
1340      i::Handle<i::AccessCheckInfo>::cast(struct_info);
1341
1342  SET_FIELD_WRAPPED(info, set_named_callback, named_callback);
1343  SET_FIELD_WRAPPED(info, set_indexed_callback, indexed_callback);
1344
1345  if (data.IsEmpty()) data = v8::Undefined();
1346  info->set_data(*Utils::OpenHandle(*data));
1347
1348  i::FunctionTemplateInfo* constructor =
1349      i::FunctionTemplateInfo::cast(Utils::OpenHandle(this)->constructor());
1350  i::Handle<i::FunctionTemplateInfo> cons(constructor);
1351  cons->set_access_check_info(*info);
1352  cons->set_needs_access_check(turned_on_by_default);
1353}
1354
1355
1356void ObjectTemplate::SetIndexedPropertyHandler(
1357      IndexedPropertyGetter getter,
1358      IndexedPropertySetter setter,
1359      IndexedPropertyQuery query,
1360      IndexedPropertyDeleter remover,
1361      IndexedPropertyEnumerator enumerator,
1362      Handle<Value> data) {
1363  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1364  if (IsDeadCheck(isolate, "v8::ObjectTemplate::SetIndexedPropertyHandler()")) {
1365    return;
1366  }
1367  ENTER_V8(isolate);
1368  i::HandleScope scope(isolate);
1369  EnsureConstructor(this);
1370  i::FunctionTemplateInfo* constructor =
1371      i::FunctionTemplateInfo::cast(Utils::OpenHandle(this)->constructor());
1372  i::Handle<i::FunctionTemplateInfo> cons(constructor);
1373  Utils::ToLocal(cons)->SetIndexedInstancePropertyHandler(getter,
1374                                                          setter,
1375                                                          query,
1376                                                          remover,
1377                                                          enumerator,
1378                                                          data);
1379}
1380
1381
1382void ObjectTemplate::SetCallAsFunctionHandler(InvocationCallback callback,
1383                                              Handle<Value> data) {
1384  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1385  if (IsDeadCheck(isolate,
1386                  "v8::ObjectTemplate::SetCallAsFunctionHandler()")) {
1387    return;
1388  }
1389  ENTER_V8(isolate);
1390  i::HandleScope scope(isolate);
1391  EnsureConstructor(this);
1392  i::FunctionTemplateInfo* constructor =
1393      i::FunctionTemplateInfo::cast(Utils::OpenHandle(this)->constructor());
1394  i::Handle<i::FunctionTemplateInfo> cons(constructor);
1395  Utils::ToLocal(cons)->SetInstanceCallAsFunctionHandler(callback, data);
1396}
1397
1398
1399int ObjectTemplate::InternalFieldCount() {
1400  if (IsDeadCheck(Utils::OpenHandle(this)->GetIsolate(),
1401                  "v8::ObjectTemplate::InternalFieldCount()")) {
1402    return 0;
1403  }
1404  return i::Smi::cast(Utils::OpenHandle(this)->internal_field_count())->value();
1405}
1406
1407
1408void ObjectTemplate::SetInternalFieldCount(int value) {
1409  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1410  if (IsDeadCheck(isolate, "v8::ObjectTemplate::SetInternalFieldCount()")) {
1411    return;
1412  }
1413  if (!ApiCheck(i::Smi::IsValid(value),
1414                "v8::ObjectTemplate::SetInternalFieldCount()",
1415                "Invalid internal field count")) {
1416    return;
1417  }
1418  ENTER_V8(isolate);
1419  if (value > 0) {
1420    // The internal field count is set by the constructor function's
1421    // construct code, so we ensure that there is a constructor
1422    // function to do the setting.
1423    EnsureConstructor(this);
1424  }
1425  Utils::OpenHandle(this)->set_internal_field_count(i::Smi::FromInt(value));
1426}
1427
1428
1429// --- S c r i p t D a t a ---
1430
1431
1432ScriptData* ScriptData::PreCompile(const char* input, int length) {
1433  i::Utf8ToUtf16CharacterStream stream(
1434      reinterpret_cast<const unsigned char*>(input), length);
1435  return i::ParserApi::PreParse(&stream, NULL, i::FLAG_harmony_scoping);
1436}
1437
1438
1439ScriptData* ScriptData::PreCompile(v8::Handle<String> source) {
1440  i::Handle<i::String> str = Utils::OpenHandle(*source);
1441  if (str->IsExternalTwoByteString()) {
1442    i::ExternalTwoByteStringUtf16CharacterStream stream(
1443      i::Handle<i::ExternalTwoByteString>::cast(str), 0, str->length());
1444    return i::ParserApi::PreParse(&stream, NULL, i::FLAG_harmony_scoping);
1445  } else {
1446    i::GenericStringUtf16CharacterStream stream(str, 0, str->length());
1447    return i::ParserApi::PreParse(&stream, NULL, i::FLAG_harmony_scoping);
1448  }
1449}
1450
1451
1452ScriptData* ScriptData::New(const char* data, int length) {
1453  // Return an empty ScriptData if the length is obviously invalid.
1454  if (length % sizeof(unsigned) != 0) {
1455    return new i::ScriptDataImpl();
1456  }
1457
1458  // Copy the data to ensure it is properly aligned.
1459  int deserialized_data_length = length / sizeof(unsigned);
1460  // If aligned, don't create a copy of the data.
1461  if (reinterpret_cast<intptr_t>(data) % sizeof(unsigned) == 0) {
1462    return new i::ScriptDataImpl(data, length);
1463  }
1464  // Copy the data to align it.
1465  unsigned* deserialized_data = i::NewArray<unsigned>(deserialized_data_length);
1466  i::OS::MemCopy(deserialized_data, data, length);
1467
1468  return new i::ScriptDataImpl(
1469      i::Vector<unsigned>(deserialized_data, deserialized_data_length));
1470}
1471
1472
1473// --- S c r i p t ---
1474
1475
1476Local<Script> Script::New(v8::Handle<String> source,
1477                          v8::ScriptOrigin* origin,
1478                          v8::ScriptData* pre_data,
1479                          v8::Handle<String> script_data) {
1480  i::Isolate* isolate = i::Isolate::Current();
1481  ON_BAILOUT(isolate, "v8::Script::New()", return Local<Script>());
1482  LOG_API(isolate, "Script::New");
1483  ENTER_V8(isolate);
1484  i::SharedFunctionInfo* raw_result = NULL;
1485  { i::HandleScope scope(isolate);
1486    i::Handle<i::String> str = Utils::OpenHandle(*source);
1487    i::Handle<i::Object> name_obj;
1488    int line_offset = 0;
1489    int column_offset = 0;
1490    if (origin != NULL) {
1491      if (!origin->ResourceName().IsEmpty()) {
1492        name_obj = Utils::OpenHandle(*origin->ResourceName());
1493      }
1494      if (!origin->ResourceLineOffset().IsEmpty()) {
1495        line_offset = static_cast<int>(origin->ResourceLineOffset()->Value());
1496      }
1497      if (!origin->ResourceColumnOffset().IsEmpty()) {
1498        column_offset =
1499            static_cast<int>(origin->ResourceColumnOffset()->Value());
1500      }
1501    }
1502    EXCEPTION_PREAMBLE(isolate);
1503    i::ScriptDataImpl* pre_data_impl =
1504        static_cast<i::ScriptDataImpl*>(pre_data);
1505    // We assert that the pre-data is sane, even though we can actually
1506    // handle it if it turns out not to be in release mode.
1507    ASSERT(pre_data_impl == NULL || pre_data_impl->SanityCheck());
1508    // If the pre-data isn't sane we simply ignore it
1509    if (pre_data_impl != NULL && !pre_data_impl->SanityCheck()) {
1510      pre_data_impl = NULL;
1511    }
1512    i::Handle<i::SharedFunctionInfo> result =
1513      i::Compiler::Compile(str,
1514                           name_obj,
1515                           line_offset,
1516                           column_offset,
1517                           NULL,
1518                           pre_data_impl,
1519                           Utils::OpenHandle(*script_data),
1520                           i::NOT_NATIVES_CODE);
1521    has_pending_exception = result.is_null();
1522    EXCEPTION_BAILOUT_CHECK(isolate, Local<Script>());
1523    raw_result = *result;
1524  }
1525  i::Handle<i::SharedFunctionInfo> result(raw_result, isolate);
1526  return Local<Script>(ToApi<Script>(result));
1527}
1528
1529
1530Local<Script> Script::New(v8::Handle<String> source,
1531                          v8::Handle<Value> file_name) {
1532  ScriptOrigin origin(file_name);
1533  return New(source, &origin);
1534}
1535
1536
1537Local<Script> Script::Compile(v8::Handle<String> source,
1538                              v8::ScriptOrigin* origin,
1539                              v8::ScriptData* pre_data,
1540                              v8::Handle<String> script_data) {
1541  i::Isolate* isolate = i::Isolate::Current();
1542  ON_BAILOUT(isolate, "v8::Script::Compile()", return Local<Script>());
1543  LOG_API(isolate, "Script::Compile");
1544  ENTER_V8(isolate);
1545  Local<Script> generic = New(source, origin, pre_data, script_data);
1546  if (generic.IsEmpty())
1547    return generic;
1548  i::Handle<i::Object> obj = Utils::OpenHandle(*generic);
1549  i::Handle<i::SharedFunctionInfo> function =
1550      i::Handle<i::SharedFunctionInfo>(i::SharedFunctionInfo::cast(*obj));
1551  i::Handle<i::JSFunction> result =
1552      isolate->factory()->NewFunctionFromSharedFunctionInfo(
1553          function,
1554          isolate->global_context());
1555  return Local<Script>(ToApi<Script>(result));
1556}
1557
1558
1559Local<Script> Script::Compile(v8::Handle<String> source,
1560                              v8::Handle<Value> file_name,
1561                              v8::Handle<String> script_data) {
1562  ScriptOrigin origin(file_name);
1563  return Compile(source, &origin, 0, script_data);
1564}
1565
1566
1567Local<Value> Script::Run() {
1568  i::Isolate* isolate = i::Isolate::Current();
1569  ON_BAILOUT(isolate, "v8::Script::Run()", return Local<Value>());
1570  LOG_API(isolate, "Script::Run");
1571  ENTER_V8(isolate);
1572  i::Object* raw_result = NULL;
1573  {
1574    i::HandleScope scope(isolate);
1575    i::Handle<i::Object> obj = Utils::OpenHandle(this);
1576    i::Handle<i::JSFunction> fun;
1577    if (obj->IsSharedFunctionInfo()) {
1578      i::Handle<i::SharedFunctionInfo>
1579          function_info(i::SharedFunctionInfo::cast(*obj), isolate);
1580      fun = isolate->factory()->NewFunctionFromSharedFunctionInfo(
1581          function_info, isolate->global_context());
1582    } else {
1583      fun = i::Handle<i::JSFunction>(i::JSFunction::cast(*obj), isolate);
1584    }
1585    EXCEPTION_PREAMBLE(isolate);
1586    i::Handle<i::Object> receiver(
1587        isolate->context()->global_proxy(), isolate);
1588    i::Handle<i::Object> result =
1589        i::Execution::Call(fun, receiver, 0, NULL, &has_pending_exception);
1590    EXCEPTION_BAILOUT_CHECK_DO_CALLBACK(isolate, Local<Value>());
1591    raw_result = *result;
1592  }
1593  i::Handle<i::Object> result(raw_result, isolate);
1594  return Utils::ToLocal(result);
1595}
1596
1597
1598static i::Handle<i::SharedFunctionInfo> OpenScript(Script* script) {
1599  i::Handle<i::Object> obj = Utils::OpenHandle(script);
1600  i::Handle<i::SharedFunctionInfo> result;
1601  if (obj->IsSharedFunctionInfo()) {
1602    result =
1603        i::Handle<i::SharedFunctionInfo>(i::SharedFunctionInfo::cast(*obj));
1604  } else {
1605    result =
1606        i::Handle<i::SharedFunctionInfo>(i::JSFunction::cast(*obj)->shared());
1607  }
1608  return result;
1609}
1610
1611
1612Local<Value> Script::Id() {
1613  i::Isolate* isolate = i::Isolate::Current();
1614  ON_BAILOUT(isolate, "v8::Script::Id()", return Local<Value>());
1615  LOG_API(isolate, "Script::Id");
1616  i::Object* raw_id = NULL;
1617  {
1618    i::HandleScope scope(isolate);
1619    i::Handle<i::SharedFunctionInfo> function_info = OpenScript(this);
1620    i::Handle<i::Script> script(i::Script::cast(function_info->script()));
1621    i::Handle<i::Object> id(script->id());
1622    raw_id = *id;
1623  }
1624  i::Handle<i::Object> id(raw_id);
1625  return Utils::ToLocal(id);
1626}
1627
1628
1629void Script::SetData(v8::Handle<String> data) {
1630  i::Isolate* isolate = i::Isolate::Current();
1631  ON_BAILOUT(isolate, "v8::Script::SetData()", return);
1632  LOG_API(isolate, "Script::SetData");
1633  {
1634    i::HandleScope scope(isolate);
1635    i::Handle<i::SharedFunctionInfo> function_info = OpenScript(this);
1636    i::Handle<i::Object> raw_data = Utils::OpenHandle(*data);
1637    i::Handle<i::Script> script(i::Script::cast(function_info->script()));
1638    script->set_data(*raw_data);
1639  }
1640}
1641
1642
1643// --- E x c e p t i o n s ---
1644
1645
1646v8::TryCatch::TryCatch()
1647    : isolate_(i::Isolate::Current()),
1648      next_(isolate_->try_catch_handler_address()),
1649      exception_(isolate_->heap()->the_hole_value()),
1650      message_(i::Smi::FromInt(0)),
1651      is_verbose_(false),
1652      can_continue_(true),
1653      capture_message_(true),
1654      rethrow_(false) {
1655  isolate_->RegisterTryCatchHandler(this);
1656}
1657
1658
1659v8::TryCatch::~TryCatch() {
1660  ASSERT(isolate_ == i::Isolate::Current());
1661  if (rethrow_) {
1662    v8::HandleScope scope;
1663    v8::Local<v8::Value> exc = v8::Local<v8::Value>::New(Exception());
1664    isolate_->UnregisterTryCatchHandler(this);
1665    v8::ThrowException(exc);
1666  } else {
1667    isolate_->UnregisterTryCatchHandler(this);
1668  }
1669}
1670
1671
1672bool v8::TryCatch::HasCaught() const {
1673  return !reinterpret_cast<i::Object*>(exception_)->IsTheHole();
1674}
1675
1676
1677bool v8::TryCatch::CanContinue() const {
1678  return can_continue_;
1679}
1680
1681
1682v8::Handle<v8::Value> v8::TryCatch::ReThrow() {
1683  if (!HasCaught()) return v8::Local<v8::Value>();
1684  rethrow_ = true;
1685  return v8::Undefined();
1686}
1687
1688
1689v8::Local<Value> v8::TryCatch::Exception() const {
1690  ASSERT(isolate_ == i::Isolate::Current());
1691  if (HasCaught()) {
1692    // Check for out of memory exception.
1693    i::Object* exception = reinterpret_cast<i::Object*>(exception_);
1694    return v8::Utils::ToLocal(i::Handle<i::Object>(exception, isolate_));
1695  } else {
1696    return v8::Local<Value>();
1697  }
1698}
1699
1700
1701v8::Local<Value> v8::TryCatch::StackTrace() const {
1702  ASSERT(isolate_ == i::Isolate::Current());
1703  if (HasCaught()) {
1704    i::Object* raw_obj = reinterpret_cast<i::Object*>(exception_);
1705    if (!raw_obj->IsJSObject()) return v8::Local<Value>();
1706    i::HandleScope scope(isolate_);
1707    i::Handle<i::JSObject> obj(i::JSObject::cast(raw_obj), isolate_);
1708    i::Handle<i::String> name = isolate_->factory()->LookupAsciiSymbol("stack");
1709    if (!obj->HasProperty(*name)) return v8::Local<Value>();
1710    i::Handle<i::Object> value = i::GetProperty(obj, name);
1711    if (value.is_null()) return v8::Local<Value>();
1712    return v8::Utils::ToLocal(scope.CloseAndEscape(value));
1713  } else {
1714    return v8::Local<Value>();
1715  }
1716}
1717
1718
1719v8::Local<v8::Message> v8::TryCatch::Message() const {
1720  ASSERT(isolate_ == i::Isolate::Current());
1721  if (HasCaught() && message_ != i::Smi::FromInt(0)) {
1722    i::Object* message = reinterpret_cast<i::Object*>(message_);
1723    return v8::Utils::MessageToLocal(i::Handle<i::Object>(message, isolate_));
1724  } else {
1725    return v8::Local<v8::Message>();
1726  }
1727}
1728
1729
1730void v8::TryCatch::Reset() {
1731  ASSERT(isolate_ == i::Isolate::Current());
1732  exception_ = isolate_->heap()->the_hole_value();
1733  message_ = i::Smi::FromInt(0);
1734}
1735
1736
1737void v8::TryCatch::SetVerbose(bool value) {
1738  is_verbose_ = value;
1739}
1740
1741
1742void v8::TryCatch::SetCaptureMessage(bool value) {
1743  capture_message_ = value;
1744}
1745
1746
1747// --- M e s s a g e ---
1748
1749
1750Local<String> Message::Get() const {
1751  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1752  ON_BAILOUT(isolate, "v8::Message::Get()", return Local<String>());
1753  ENTER_V8(isolate);
1754  HandleScope scope;
1755  i::Handle<i::Object> obj = Utils::OpenHandle(this);
1756  i::Handle<i::String> raw_result = i::MessageHandler::GetMessage(obj);
1757  Local<String> result = Utils::ToLocal(raw_result);
1758  return scope.Close(result);
1759}
1760
1761
1762v8::Handle<Value> Message::GetScriptResourceName() const {
1763  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1764  if (IsDeadCheck(isolate, "v8::Message::GetScriptResourceName()")) {
1765    return Local<String>();
1766  }
1767  ENTER_V8(isolate);
1768  HandleScope scope;
1769  i::Handle<i::JSMessageObject> message =
1770      i::Handle<i::JSMessageObject>::cast(Utils::OpenHandle(this));
1771  // Return this.script.name.
1772  i::Handle<i::JSValue> script =
1773      i::Handle<i::JSValue>::cast(i::Handle<i::Object>(message->script()));
1774  i::Handle<i::Object> resource_name(i::Script::cast(script->value())->name());
1775  return scope.Close(Utils::ToLocal(resource_name));
1776}
1777
1778
1779v8::Handle<Value> Message::GetScriptData() const {
1780  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1781  if (IsDeadCheck(isolate, "v8::Message::GetScriptResourceData()")) {
1782    return Local<Value>();
1783  }
1784  ENTER_V8(isolate);
1785  HandleScope scope;
1786  i::Handle<i::JSMessageObject> message =
1787      i::Handle<i::JSMessageObject>::cast(Utils::OpenHandle(this));
1788  // Return this.script.data.
1789  i::Handle<i::JSValue> script =
1790      i::Handle<i::JSValue>::cast(i::Handle<i::Object>(message->script()));
1791  i::Handle<i::Object> data(i::Script::cast(script->value())->data());
1792  return scope.Close(Utils::ToLocal(data));
1793}
1794
1795
1796v8::Handle<v8::StackTrace> Message::GetStackTrace() const {
1797  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1798  if (IsDeadCheck(isolate, "v8::Message::GetStackTrace()")) {
1799    return Local<v8::StackTrace>();
1800  }
1801  ENTER_V8(isolate);
1802  HandleScope scope;
1803  i::Handle<i::JSMessageObject> message =
1804      i::Handle<i::JSMessageObject>::cast(Utils::OpenHandle(this));
1805  i::Handle<i::Object> stackFramesObj(message->stack_frames());
1806  if (!stackFramesObj->IsJSArray()) return v8::Handle<v8::StackTrace>();
1807  i::Handle<i::JSArray> stackTrace =
1808      i::Handle<i::JSArray>::cast(stackFramesObj);
1809  return scope.Close(Utils::StackTraceToLocal(stackTrace));
1810}
1811
1812
1813static i::Handle<i::Object> CallV8HeapFunction(const char* name,
1814                                               i::Handle<i::Object> recv,
1815                                               int argc,
1816                                               i::Handle<i::Object> argv[],
1817                                               bool* has_pending_exception) {
1818  i::Isolate* isolate = i::Isolate::Current();
1819  i::Handle<i::String> fmt_str = isolate->factory()->LookupAsciiSymbol(name);
1820  i::Object* object_fun =
1821      isolate->js_builtins_object()->GetPropertyNoExceptionThrown(*fmt_str);
1822  i::Handle<i::JSFunction> fun =
1823      i::Handle<i::JSFunction>(i::JSFunction::cast(object_fun));
1824  i::Handle<i::Object> value =
1825      i::Execution::Call(fun, recv, argc, argv, has_pending_exception);
1826  return value;
1827}
1828
1829
1830static i::Handle<i::Object> CallV8HeapFunction(const char* name,
1831                                               i::Handle<i::Object> data,
1832                                               bool* has_pending_exception) {
1833  i::Handle<i::Object> argv[] = { data };
1834  return CallV8HeapFunction(name,
1835                            i::Isolate::Current()->js_builtins_object(),
1836                            ARRAY_SIZE(argv),
1837                            argv,
1838                            has_pending_exception);
1839}
1840
1841
1842int Message::GetLineNumber() const {
1843  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1844  ON_BAILOUT(isolate, "v8::Message::GetLineNumber()", return kNoLineNumberInfo);
1845  ENTER_V8(isolate);
1846  i::HandleScope scope(isolate);
1847
1848  EXCEPTION_PREAMBLE(isolate);
1849  i::Handle<i::Object> result = CallV8HeapFunction("GetLineNumber",
1850                                                   Utils::OpenHandle(this),
1851                                                   &has_pending_exception);
1852  EXCEPTION_BAILOUT_CHECK(isolate, 0);
1853  return static_cast<int>(result->Number());
1854}
1855
1856
1857int Message::GetStartPosition() const {
1858  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1859  if (IsDeadCheck(isolate, "v8::Message::GetStartPosition()")) return 0;
1860  ENTER_V8(isolate);
1861  i::HandleScope scope(isolate);
1862  i::Handle<i::JSMessageObject> message =
1863      i::Handle<i::JSMessageObject>::cast(Utils::OpenHandle(this));
1864  return message->start_position();
1865}
1866
1867
1868int Message::GetEndPosition() const {
1869  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1870  if (IsDeadCheck(isolate, "v8::Message::GetEndPosition()")) return 0;
1871  ENTER_V8(isolate);
1872  i::HandleScope scope(isolate);
1873  i::Handle<i::JSMessageObject> message =
1874      i::Handle<i::JSMessageObject>::cast(Utils::OpenHandle(this));
1875  return message->end_position();
1876}
1877
1878
1879int Message::GetStartColumn() const {
1880  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1881  if (IsDeadCheck(isolate, "v8::Message::GetStartColumn()")) {
1882    return kNoColumnInfo;
1883  }
1884  ENTER_V8(isolate);
1885  i::HandleScope scope(isolate);
1886  i::Handle<i::JSObject> data_obj = Utils::OpenHandle(this);
1887  EXCEPTION_PREAMBLE(isolate);
1888  i::Handle<i::Object> start_col_obj = CallV8HeapFunction(
1889      "GetPositionInLine",
1890      data_obj,
1891      &has_pending_exception);
1892  EXCEPTION_BAILOUT_CHECK(isolate, 0);
1893  return static_cast<int>(start_col_obj->Number());
1894}
1895
1896
1897int Message::GetEndColumn() const {
1898  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1899  if (IsDeadCheck(isolate, "v8::Message::GetEndColumn()")) return kNoColumnInfo;
1900  ENTER_V8(isolate);
1901  i::HandleScope scope(isolate);
1902  i::Handle<i::JSObject> data_obj = Utils::OpenHandle(this);
1903  EXCEPTION_PREAMBLE(isolate);
1904  i::Handle<i::Object> start_col_obj = CallV8HeapFunction(
1905      "GetPositionInLine",
1906      data_obj,
1907      &has_pending_exception);
1908  EXCEPTION_BAILOUT_CHECK(isolate, 0);
1909  i::Handle<i::JSMessageObject> message =
1910      i::Handle<i::JSMessageObject>::cast(data_obj);
1911  int start = message->start_position();
1912  int end = message->end_position();
1913  return static_cast<int>(start_col_obj->Number()) + (end - start);
1914}
1915
1916
1917Local<String> Message::GetSourceLine() const {
1918  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1919  ON_BAILOUT(isolate, "v8::Message::GetSourceLine()", return Local<String>());
1920  ENTER_V8(isolate);
1921  HandleScope scope;
1922  EXCEPTION_PREAMBLE(isolate);
1923  i::Handle<i::Object> result = CallV8HeapFunction("GetSourceLine",
1924                                                   Utils::OpenHandle(this),
1925                                                   &has_pending_exception);
1926  EXCEPTION_BAILOUT_CHECK(isolate, Local<v8::String>());
1927  if (result->IsString()) {
1928    return scope.Close(Utils::ToLocal(i::Handle<i::String>::cast(result)));
1929  } else {
1930    return Local<String>();
1931  }
1932}
1933
1934
1935void Message::PrintCurrentStackTrace(FILE* out) {
1936  i::Isolate* isolate = i::Isolate::Current();
1937  if (IsDeadCheck(isolate, "v8::Message::PrintCurrentStackTrace()")) return;
1938  ENTER_V8(isolate);
1939  isolate->PrintCurrentStackTrace(out);
1940}
1941
1942
1943// --- S t a c k T r a c e ---
1944
1945Local<StackFrame> StackTrace::GetFrame(uint32_t index) const {
1946  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1947  if (IsDeadCheck(isolate, "v8::StackTrace::GetFrame()")) {
1948    return Local<StackFrame>();
1949  }
1950  ENTER_V8(isolate);
1951  HandleScope scope;
1952  i::Handle<i::JSArray> self = Utils::OpenHandle(this);
1953  i::Object* raw_object = self->GetElementNoExceptionThrown(index);
1954  i::Handle<i::JSObject> obj(i::JSObject::cast(raw_object));
1955  return scope.Close(Utils::StackFrameToLocal(obj));
1956}
1957
1958
1959int StackTrace::GetFrameCount() const {
1960  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1961  if (IsDeadCheck(isolate, "v8::StackTrace::GetFrameCount()")) return -1;
1962  ENTER_V8(isolate);
1963  return i::Smi::cast(Utils::OpenHandle(this)->length())->value();
1964}
1965
1966
1967Local<Array> StackTrace::AsArray() {
1968  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1969  if (IsDeadCheck(isolate, "v8::StackTrace::AsArray()")) Local<Array>();
1970  ENTER_V8(isolate);
1971  return Utils::ToLocal(Utils::OpenHandle(this));
1972}
1973
1974
1975Local<StackTrace> StackTrace::CurrentStackTrace(int frame_limit,
1976    StackTraceOptions options) {
1977  i::Isolate* isolate = i::Isolate::Current();
1978  if (IsDeadCheck(isolate, "v8::StackTrace::CurrentStackTrace()")) {
1979    Local<StackTrace>();
1980  }
1981  ENTER_V8(isolate);
1982  i::Handle<i::JSArray> stackTrace =
1983      isolate->CaptureCurrentStackTrace(frame_limit, options);
1984  return Utils::StackTraceToLocal(stackTrace);
1985}
1986
1987
1988// --- S t a c k F r a m e ---
1989
1990int StackFrame::GetLineNumber() const {
1991  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
1992  if (IsDeadCheck(isolate, "v8::StackFrame::GetLineNumber()")) {
1993    return Message::kNoLineNumberInfo;
1994  }
1995  ENTER_V8(isolate);
1996  i::HandleScope scope(isolate);
1997  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
1998  i::Handle<i::Object> line = GetProperty(self, "lineNumber");
1999  if (!line->IsSmi()) {
2000    return Message::kNoLineNumberInfo;
2001  }
2002  return i::Smi::cast(*line)->value();
2003}
2004
2005
2006int StackFrame::GetColumn() const {
2007  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2008  if (IsDeadCheck(isolate, "v8::StackFrame::GetColumn()")) {
2009    return Message::kNoColumnInfo;
2010  }
2011  ENTER_V8(isolate);
2012  i::HandleScope scope(isolate);
2013  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2014  i::Handle<i::Object> column = GetProperty(self, "column");
2015  if (!column->IsSmi()) {
2016    return Message::kNoColumnInfo;
2017  }
2018  return i::Smi::cast(*column)->value();
2019}
2020
2021
2022Local<String> StackFrame::GetScriptName() const {
2023  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2024  if (IsDeadCheck(isolate, "v8::StackFrame::GetScriptName()")) {
2025    return Local<String>();
2026  }
2027  ENTER_V8(isolate);
2028  HandleScope scope;
2029  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2030  i::Handle<i::Object> name = GetProperty(self, "scriptName");
2031  if (!name->IsString()) {
2032    return Local<String>();
2033  }
2034  return scope.Close(Local<String>::Cast(Utils::ToLocal(name)));
2035}
2036
2037
2038Local<String> StackFrame::GetScriptNameOrSourceURL() const {
2039  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2040  if (IsDeadCheck(isolate, "v8::StackFrame::GetScriptNameOrSourceURL()")) {
2041    return Local<String>();
2042  }
2043  ENTER_V8(isolate);
2044  HandleScope scope;
2045  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2046  i::Handle<i::Object> name = GetProperty(self, "scriptNameOrSourceURL");
2047  if (!name->IsString()) {
2048    return Local<String>();
2049  }
2050  return scope.Close(Local<String>::Cast(Utils::ToLocal(name)));
2051}
2052
2053
2054Local<String> StackFrame::GetFunctionName() const {
2055  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2056  if (IsDeadCheck(isolate, "v8::StackFrame::GetFunctionName()")) {
2057    return Local<String>();
2058  }
2059  ENTER_V8(isolate);
2060  HandleScope scope;
2061  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2062  i::Handle<i::Object> name = GetProperty(self, "functionName");
2063  if (!name->IsString()) {
2064    return Local<String>();
2065  }
2066  return scope.Close(Local<String>::Cast(Utils::ToLocal(name)));
2067}
2068
2069
2070bool StackFrame::IsEval() const {
2071  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2072  if (IsDeadCheck(isolate, "v8::StackFrame::IsEval()")) return false;
2073  ENTER_V8(isolate);
2074  i::HandleScope scope(isolate);
2075  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2076  i::Handle<i::Object> is_eval = GetProperty(self, "isEval");
2077  return is_eval->IsTrue();
2078}
2079
2080
2081bool StackFrame::IsConstructor() const {
2082  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2083  if (IsDeadCheck(isolate, "v8::StackFrame::IsConstructor()")) return false;
2084  ENTER_V8(isolate);
2085  i::HandleScope scope(isolate);
2086  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2087  i::Handle<i::Object> is_constructor = GetProperty(self, "isConstructor");
2088  return is_constructor->IsTrue();
2089}
2090
2091
2092// --- D a t a ---
2093
2094bool Value::IsUndefined() const {
2095  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsUndefined()")) {
2096    return false;
2097  }
2098  return Utils::OpenHandle(this)->IsUndefined();
2099}
2100
2101
2102bool Value::IsNull() const {
2103  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsNull()")) return false;
2104  return Utils::OpenHandle(this)->IsNull();
2105}
2106
2107
2108bool Value::IsTrue() const {
2109  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsTrue()")) return false;
2110  return Utils::OpenHandle(this)->IsTrue();
2111}
2112
2113
2114bool Value::IsFalse() const {
2115  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsFalse()")) return false;
2116  return Utils::OpenHandle(this)->IsFalse();
2117}
2118
2119
2120bool Value::IsFunction() const {
2121  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsFunction()")) {
2122    return false;
2123  }
2124  return Utils::OpenHandle(this)->IsJSFunction();
2125}
2126
2127
2128bool Value::FullIsString() const {
2129  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsString()")) return false;
2130  bool result = Utils::OpenHandle(this)->IsString();
2131  ASSERT_EQ(result, QuickIsString());
2132  return result;
2133}
2134
2135
2136bool Value::IsArray() const {
2137  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsArray()")) return false;
2138  return Utils::OpenHandle(this)->IsJSArray();
2139}
2140
2141
2142bool Value::IsObject() const {
2143  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsObject()")) return false;
2144  return Utils::OpenHandle(this)->IsJSObject();
2145}
2146
2147
2148bool Value::IsNumber() const {
2149  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsNumber()")) return false;
2150  return Utils::OpenHandle(this)->IsNumber();
2151}
2152
2153
2154bool Value::IsBoolean() const {
2155  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsBoolean()")) {
2156    return false;
2157  }
2158  return Utils::OpenHandle(this)->IsBoolean();
2159}
2160
2161
2162bool Value::IsExternal() const {
2163  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsExternal()")) {
2164    return false;
2165  }
2166  return Utils::OpenHandle(this)->IsForeign();
2167}
2168
2169
2170bool Value::IsInt32() const {
2171  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsInt32()")) return false;
2172  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2173  if (obj->IsSmi()) return true;
2174  if (obj->IsNumber()) {
2175    double value = obj->Number();
2176    static const i::DoubleRepresentation minus_zero(-0.0);
2177    i::DoubleRepresentation rep(value);
2178    if (rep.bits == minus_zero.bits) {
2179      return false;
2180    }
2181    return i::FastI2D(i::FastD2I(value)) == value;
2182  }
2183  return false;
2184}
2185
2186
2187bool Value::IsUint32() const {
2188  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsUint32()")) return false;
2189  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2190  if (obj->IsSmi()) return i::Smi::cast(*obj)->value() >= 0;
2191  if (obj->IsNumber()) {
2192    double value = obj->Number();
2193    static const i::DoubleRepresentation minus_zero(-0.0);
2194    i::DoubleRepresentation rep(value);
2195    if (rep.bits == minus_zero.bits) {
2196      return false;
2197    }
2198    return i::FastUI2D(i::FastD2UI(value)) == value;
2199  }
2200  return false;
2201}
2202
2203
2204bool Value::IsDate() const {
2205  i::Isolate* isolate = i::Isolate::Current();
2206  if (IsDeadCheck(isolate, "v8::Value::IsDate()")) return false;
2207  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2208  return obj->HasSpecificClassOf(isolate->heap()->Date_symbol());
2209}
2210
2211
2212bool Value::IsStringObject() const {
2213  i::Isolate* isolate = i::Isolate::Current();
2214  if (IsDeadCheck(isolate, "v8::Value::IsStringObject()")) return false;
2215  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2216  return obj->HasSpecificClassOf(isolate->heap()->String_symbol());
2217}
2218
2219
2220bool Value::IsNumberObject() const {
2221  i::Isolate* isolate = i::Isolate::Current();
2222  if (IsDeadCheck(isolate, "v8::Value::IsNumberObject()")) return false;
2223  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2224  return obj->HasSpecificClassOf(isolate->heap()->Number_symbol());
2225}
2226
2227
2228static i::Object* LookupBuiltin(i::Isolate* isolate,
2229                                const char* builtin_name) {
2230  i::Handle<i::String> symbol =
2231      isolate->factory()->LookupAsciiSymbol(builtin_name);
2232  i::Handle<i::JSBuiltinsObject> builtins = isolate->js_builtins_object();
2233  return builtins->GetPropertyNoExceptionThrown(*symbol);
2234}
2235
2236
2237static bool CheckConstructor(i::Isolate* isolate,
2238                             i::Handle<i::JSObject> obj,
2239                             const char* class_name) {
2240  return obj->map()->constructor() == LookupBuiltin(isolate, class_name);
2241}
2242
2243
2244bool Value::IsNativeError() const {
2245  i::Isolate* isolate = i::Isolate::Current();
2246  if (IsDeadCheck(isolate, "v8::Value::IsNativeError()")) return false;
2247  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2248  if (obj->IsJSObject()) {
2249    i::Handle<i::JSObject> js_obj(i::JSObject::cast(*obj));
2250    return CheckConstructor(isolate, js_obj, "$Error") ||
2251        CheckConstructor(isolate, js_obj, "$EvalError") ||
2252        CheckConstructor(isolate, js_obj, "$RangeError") ||
2253        CheckConstructor(isolate, js_obj, "$ReferenceError") ||
2254        CheckConstructor(isolate, js_obj, "$SyntaxError") ||
2255        CheckConstructor(isolate, js_obj, "$TypeError") ||
2256        CheckConstructor(isolate, js_obj, "$URIError");
2257  } else {
2258    return false;
2259  }
2260}
2261
2262
2263bool Value::IsBooleanObject() const {
2264  i::Isolate* isolate = i::Isolate::Current();
2265  if (IsDeadCheck(isolate, "v8::Value::IsBooleanObject()")) return false;
2266  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2267  return obj->HasSpecificClassOf(isolate->heap()->Boolean_symbol());
2268}
2269
2270
2271bool Value::IsRegExp() const {
2272  if (IsDeadCheck(i::Isolate::Current(), "v8::Value::IsRegExp()")) return false;
2273  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2274  return obj->IsJSRegExp();
2275}
2276
2277
2278Local<String> Value::ToString() const {
2279  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2280  i::Handle<i::Object> str;
2281  if (obj->IsString()) {
2282    str = obj;
2283  } else {
2284    i::Isolate* isolate = i::Isolate::Current();
2285    if (IsDeadCheck(isolate, "v8::Value::ToString()")) {
2286      return Local<String>();
2287    }
2288    LOG_API(isolate, "ToString");
2289    ENTER_V8(isolate);
2290    EXCEPTION_PREAMBLE(isolate);
2291    str = i::Execution::ToString(obj, &has_pending_exception);
2292    EXCEPTION_BAILOUT_CHECK(isolate, Local<String>());
2293  }
2294  return Local<String>(ToApi<String>(str));
2295}
2296
2297
2298Local<String> Value::ToDetailString() const {
2299  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2300  i::Handle<i::Object> str;
2301  if (obj->IsString()) {
2302    str = obj;
2303  } else {
2304    i::Isolate* isolate = i::Isolate::Current();
2305    if (IsDeadCheck(isolate, "v8::Value::ToDetailString()")) {
2306      return Local<String>();
2307    }
2308    LOG_API(isolate, "ToDetailString");
2309    ENTER_V8(isolate);
2310    EXCEPTION_PREAMBLE(isolate);
2311    str = i::Execution::ToDetailString(obj, &has_pending_exception);
2312    EXCEPTION_BAILOUT_CHECK(isolate, Local<String>());
2313  }
2314  return Local<String>(ToApi<String>(str));
2315}
2316
2317
2318Local<v8::Object> Value::ToObject() const {
2319  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2320  i::Handle<i::Object> val;
2321  if (obj->IsJSObject()) {
2322    val = obj;
2323  } else {
2324    i::Isolate* isolate = i::Isolate::Current();
2325    if (IsDeadCheck(isolate, "v8::Value::ToObject()")) {
2326      return Local<v8::Object>();
2327    }
2328    LOG_API(isolate, "ToObject");
2329    ENTER_V8(isolate);
2330    EXCEPTION_PREAMBLE(isolate);
2331    val = i::Execution::ToObject(obj, &has_pending_exception);
2332    EXCEPTION_BAILOUT_CHECK(isolate, Local<v8::Object>());
2333  }
2334  return Local<v8::Object>(ToApi<Object>(val));
2335}
2336
2337
2338Local<Boolean> Value::ToBoolean() const {
2339  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2340  if (obj->IsBoolean()) {
2341    return Local<Boolean>(ToApi<Boolean>(obj));
2342  } else {
2343    i::Isolate* isolate = i::Isolate::Current();
2344    if (IsDeadCheck(isolate, "v8::Value::ToBoolean()")) {
2345      return Local<Boolean>();
2346    }
2347    LOG_API(isolate, "ToBoolean");
2348    ENTER_V8(isolate);
2349    i::Handle<i::Object> val = i::Execution::ToBoolean(obj);
2350    return Local<Boolean>(ToApi<Boolean>(val));
2351  }
2352}
2353
2354
2355Local<Number> Value::ToNumber() const {
2356  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2357  i::Handle<i::Object> num;
2358  if (obj->IsNumber()) {
2359    num = obj;
2360  } else {
2361    i::Isolate* isolate = i::Isolate::Current();
2362    if (IsDeadCheck(isolate, "v8::Value::ToNumber()")) {
2363      return Local<Number>();
2364    }
2365    LOG_API(isolate, "ToNumber");
2366    ENTER_V8(isolate);
2367    EXCEPTION_PREAMBLE(isolate);
2368    num = i::Execution::ToNumber(obj, &has_pending_exception);
2369    EXCEPTION_BAILOUT_CHECK(isolate, Local<Number>());
2370  }
2371  return Local<Number>(ToApi<Number>(num));
2372}
2373
2374
2375Local<Integer> Value::ToInteger() const {
2376  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2377  i::Handle<i::Object> num;
2378  if (obj->IsSmi()) {
2379    num = obj;
2380  } else {
2381    i::Isolate* isolate = i::Isolate::Current();
2382    if (IsDeadCheck(isolate, "v8::Value::ToInteger()")) return Local<Integer>();
2383    LOG_API(isolate, "ToInteger");
2384    ENTER_V8(isolate);
2385    EXCEPTION_PREAMBLE(isolate);
2386    num = i::Execution::ToInteger(obj, &has_pending_exception);
2387    EXCEPTION_BAILOUT_CHECK(isolate, Local<Integer>());
2388  }
2389  return Local<Integer>(ToApi<Integer>(num));
2390}
2391
2392
2393void External::CheckCast(v8::Value* that) {
2394  if (IsDeadCheck(i::Isolate::Current(), "v8::External::Cast()")) return;
2395  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2396  ApiCheck(obj->IsForeign(),
2397           "v8::External::Cast()",
2398           "Could not convert to external");
2399}
2400
2401
2402void v8::Object::CheckCast(Value* that) {
2403  if (IsDeadCheck(i::Isolate::Current(), "v8::Object::Cast()")) return;
2404  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2405  ApiCheck(obj->IsJSObject(),
2406           "v8::Object::Cast()",
2407           "Could not convert to object");
2408}
2409
2410
2411void v8::Function::CheckCast(Value* that) {
2412  if (IsDeadCheck(i::Isolate::Current(), "v8::Function::Cast()")) return;
2413  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2414  ApiCheck(obj->IsJSFunction(),
2415           "v8::Function::Cast()",
2416           "Could not convert to function");
2417}
2418
2419
2420void v8::String::CheckCast(v8::Value* that) {
2421  if (IsDeadCheck(i::Isolate::Current(), "v8::String::Cast()")) return;
2422  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2423  ApiCheck(obj->IsString(),
2424           "v8::String::Cast()",
2425           "Could not convert to string");
2426}
2427
2428
2429void v8::Number::CheckCast(v8::Value* that) {
2430  if (IsDeadCheck(i::Isolate::Current(), "v8::Number::Cast()")) return;
2431  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2432  ApiCheck(obj->IsNumber(),
2433           "v8::Number::Cast()",
2434           "Could not convert to number");
2435}
2436
2437
2438void v8::Integer::CheckCast(v8::Value* that) {
2439  if (IsDeadCheck(i::Isolate::Current(), "v8::Integer::Cast()")) return;
2440  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2441  ApiCheck(obj->IsNumber(),
2442           "v8::Integer::Cast()",
2443           "Could not convert to number");
2444}
2445
2446
2447void v8::Array::CheckCast(Value* that) {
2448  if (IsDeadCheck(i::Isolate::Current(), "v8::Array::Cast()")) return;
2449  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2450  ApiCheck(obj->IsJSArray(),
2451           "v8::Array::Cast()",
2452           "Could not convert to array");
2453}
2454
2455
2456void v8::Date::CheckCast(v8::Value* that) {
2457  i::Isolate* isolate = i::Isolate::Current();
2458  if (IsDeadCheck(isolate, "v8::Date::Cast()")) return;
2459  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2460  ApiCheck(obj->HasSpecificClassOf(isolate->heap()->Date_symbol()),
2461           "v8::Date::Cast()",
2462           "Could not convert to date");
2463}
2464
2465
2466void v8::StringObject::CheckCast(v8::Value* that) {
2467  i::Isolate* isolate = i::Isolate::Current();
2468  if (IsDeadCheck(isolate, "v8::StringObject::Cast()")) return;
2469  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2470  ApiCheck(obj->HasSpecificClassOf(isolate->heap()->String_symbol()),
2471           "v8::StringObject::Cast()",
2472           "Could not convert to StringObject");
2473}
2474
2475
2476void v8::NumberObject::CheckCast(v8::Value* that) {
2477  i::Isolate* isolate = i::Isolate::Current();
2478  if (IsDeadCheck(isolate, "v8::NumberObject::Cast()")) return;
2479  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2480  ApiCheck(obj->HasSpecificClassOf(isolate->heap()->Number_symbol()),
2481           "v8::NumberObject::Cast()",
2482           "Could not convert to NumberObject");
2483}
2484
2485
2486void v8::BooleanObject::CheckCast(v8::Value* that) {
2487  i::Isolate* isolate = i::Isolate::Current();
2488  if (IsDeadCheck(isolate, "v8::BooleanObject::Cast()")) return;
2489  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2490  ApiCheck(obj->HasSpecificClassOf(isolate->heap()->Boolean_symbol()),
2491           "v8::BooleanObject::Cast()",
2492           "Could not convert to BooleanObject");
2493}
2494
2495
2496void v8::RegExp::CheckCast(v8::Value* that) {
2497  if (IsDeadCheck(i::Isolate::Current(), "v8::RegExp::Cast()")) return;
2498  i::Handle<i::Object> obj = Utils::OpenHandle(that);
2499  ApiCheck(obj->IsJSRegExp(),
2500           "v8::RegExp::Cast()",
2501           "Could not convert to regular expression");
2502}
2503
2504
2505bool Value::BooleanValue() const {
2506  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2507  if (obj->IsBoolean()) {
2508    return obj->IsTrue();
2509  } else {
2510    i::Isolate* isolate = i::Isolate::Current();
2511    if (IsDeadCheck(isolate, "v8::Value::BooleanValue()")) return false;
2512    LOG_API(isolate, "BooleanValue");
2513    ENTER_V8(isolate);
2514    i::Handle<i::Object> value = i::Execution::ToBoolean(obj);
2515    return value->IsTrue();
2516  }
2517}
2518
2519
2520double Value::NumberValue() const {
2521  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2522  i::Handle<i::Object> num;
2523  if (obj->IsNumber()) {
2524    num = obj;
2525  } else {
2526    i::Isolate* isolate = i::Isolate::Current();
2527    if (IsDeadCheck(isolate, "v8::Value::NumberValue()")) {
2528      return i::OS::nan_value();
2529    }
2530    LOG_API(isolate, "NumberValue");
2531    ENTER_V8(isolate);
2532    EXCEPTION_PREAMBLE(isolate);
2533    num = i::Execution::ToNumber(obj, &has_pending_exception);
2534    EXCEPTION_BAILOUT_CHECK(isolate, i::OS::nan_value());
2535  }
2536  return num->Number();
2537}
2538
2539
2540int64_t Value::IntegerValue() const {
2541  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2542  i::Handle<i::Object> num;
2543  if (obj->IsNumber()) {
2544    num = obj;
2545  } else {
2546    i::Isolate* isolate = i::Isolate::Current();
2547    if (IsDeadCheck(isolate, "v8::Value::IntegerValue()")) return 0;
2548    LOG_API(isolate, "IntegerValue");
2549    ENTER_V8(isolate);
2550    EXCEPTION_PREAMBLE(isolate);
2551    num = i::Execution::ToInteger(obj, &has_pending_exception);
2552    EXCEPTION_BAILOUT_CHECK(isolate, 0);
2553  }
2554  if (num->IsSmi()) {
2555    return i::Smi::cast(*num)->value();
2556  } else {
2557    return static_cast<int64_t>(num->Number());
2558  }
2559}
2560
2561
2562Local<Int32> Value::ToInt32() const {
2563  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2564  i::Handle<i::Object> num;
2565  if (obj->IsSmi()) {
2566    num = obj;
2567  } else {
2568    i::Isolate* isolate = i::Isolate::Current();
2569    if (IsDeadCheck(isolate, "v8::Value::ToInt32()")) return Local<Int32>();
2570    LOG_API(isolate, "ToInt32");
2571    ENTER_V8(isolate);
2572    EXCEPTION_PREAMBLE(isolate);
2573    num = i::Execution::ToInt32(obj, &has_pending_exception);
2574    EXCEPTION_BAILOUT_CHECK(isolate, Local<Int32>());
2575  }
2576  return Local<Int32>(ToApi<Int32>(num));
2577}
2578
2579
2580Local<Uint32> Value::ToUint32() const {
2581  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2582  i::Handle<i::Object> num;
2583  if (obj->IsSmi()) {
2584    num = obj;
2585  } else {
2586    i::Isolate* isolate = i::Isolate::Current();
2587    if (IsDeadCheck(isolate, "v8::Value::ToUint32()")) return Local<Uint32>();
2588    LOG_API(isolate, "ToUInt32");
2589    ENTER_V8(isolate);
2590    EXCEPTION_PREAMBLE(isolate);
2591    num = i::Execution::ToUint32(obj, &has_pending_exception);
2592    EXCEPTION_BAILOUT_CHECK(isolate, Local<Uint32>());
2593  }
2594  return Local<Uint32>(ToApi<Uint32>(num));
2595}
2596
2597
2598Local<Uint32> Value::ToArrayIndex() const {
2599  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2600  if (obj->IsSmi()) {
2601    if (i::Smi::cast(*obj)->value() >= 0) return Utils::Uint32ToLocal(obj);
2602    return Local<Uint32>();
2603  }
2604  i::Isolate* isolate = i::Isolate::Current();
2605  if (IsDeadCheck(isolate, "v8::Value::ToArrayIndex()")) return Local<Uint32>();
2606  LOG_API(isolate, "ToArrayIndex");
2607  ENTER_V8(isolate);
2608  EXCEPTION_PREAMBLE(isolate);
2609  i::Handle<i::Object> string_obj =
2610      i::Execution::ToString(obj, &has_pending_exception);
2611  EXCEPTION_BAILOUT_CHECK(isolate, Local<Uint32>());
2612  i::Handle<i::String> str = i::Handle<i::String>::cast(string_obj);
2613  uint32_t index;
2614  if (str->AsArrayIndex(&index)) {
2615    i::Handle<i::Object> value;
2616    if (index <= static_cast<uint32_t>(i::Smi::kMaxValue)) {
2617      value = i::Handle<i::Object>(i::Smi::FromInt(index));
2618    } else {
2619      value = isolate->factory()->NewNumber(index);
2620    }
2621    return Utils::Uint32ToLocal(value);
2622  }
2623  return Local<Uint32>();
2624}
2625
2626
2627int32_t Value::Int32Value() const {
2628  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2629  if (obj->IsSmi()) {
2630    return i::Smi::cast(*obj)->value();
2631  } else {
2632    i::Isolate* isolate = i::Isolate::Current();
2633    if (IsDeadCheck(isolate, "v8::Value::Int32Value()")) return 0;
2634    LOG_API(isolate, "Int32Value (slow)");
2635    ENTER_V8(isolate);
2636    EXCEPTION_PREAMBLE(isolate);
2637    i::Handle<i::Object> num =
2638        i::Execution::ToInt32(obj, &has_pending_exception);
2639    EXCEPTION_BAILOUT_CHECK(isolate, 0);
2640    if (num->IsSmi()) {
2641      return i::Smi::cast(*num)->value();
2642    } else {
2643      return static_cast<int32_t>(num->Number());
2644    }
2645  }
2646}
2647
2648
2649bool Value::Equals(Handle<Value> that) const {
2650  i::Isolate* isolate = i::Isolate::Current();
2651  if (IsDeadCheck(isolate, "v8::Value::Equals()")
2652      || EmptyCheck("v8::Value::Equals()", this)
2653      || EmptyCheck("v8::Value::Equals()", that)) {
2654    return false;
2655  }
2656  LOG_API(isolate, "Equals");
2657  ENTER_V8(isolate);
2658  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2659  i::Handle<i::Object> other = Utils::OpenHandle(*that);
2660  // If both obj and other are JSObjects, we'd better compare by identity
2661  // immediately when going into JS builtin.  The reason is Invoke
2662  // would overwrite global object receiver with global proxy.
2663  if (obj->IsJSObject() && other->IsJSObject()) {
2664    return *obj == *other;
2665  }
2666  i::Handle<i::Object> args[] = { other };
2667  EXCEPTION_PREAMBLE(isolate);
2668  i::Handle<i::Object> result =
2669      CallV8HeapFunction("EQUALS", obj, ARRAY_SIZE(args), args,
2670                         &has_pending_exception);
2671  EXCEPTION_BAILOUT_CHECK(isolate, false);
2672  return *result == i::Smi::FromInt(i::EQUAL);
2673}
2674
2675
2676bool Value::StrictEquals(Handle<Value> that) const {
2677  i::Isolate* isolate = i::Isolate::Current();
2678  if (IsDeadCheck(isolate, "v8::Value::StrictEquals()")
2679      || EmptyCheck("v8::Value::StrictEquals()", this)
2680      || EmptyCheck("v8::Value::StrictEquals()", that)) {
2681    return false;
2682  }
2683  LOG_API(isolate, "StrictEquals");
2684  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2685  i::Handle<i::Object> other = Utils::OpenHandle(*that);
2686  // Must check HeapNumber first, since NaN !== NaN.
2687  if (obj->IsHeapNumber()) {
2688    if (!other->IsNumber()) return false;
2689    double x = obj->Number();
2690    double y = other->Number();
2691    // Must check explicitly for NaN:s on Windows, but -0 works fine.
2692    return x == y && !isnan(x) && !isnan(y);
2693  } else if (*obj == *other) {  // Also covers Booleans.
2694    return true;
2695  } else if (obj->IsSmi()) {
2696    return other->IsNumber() && obj->Number() == other->Number();
2697  } else if (obj->IsString()) {
2698    return other->IsString() &&
2699      i::String::cast(*obj)->Equals(i::String::cast(*other));
2700  } else if (obj->IsUndefined() || obj->IsUndetectableObject()) {
2701    return other->IsUndefined() || other->IsUndetectableObject();
2702  } else {
2703    return false;
2704  }
2705}
2706
2707
2708uint32_t Value::Uint32Value() const {
2709  i::Handle<i::Object> obj = Utils::OpenHandle(this);
2710  if (obj->IsSmi()) {
2711    return i::Smi::cast(*obj)->value();
2712  } else {
2713    i::Isolate* isolate = i::Isolate::Current();
2714    if (IsDeadCheck(isolate, "v8::Value::Uint32Value()")) return 0;
2715    LOG_API(isolate, "Uint32Value");
2716    ENTER_V8(isolate);
2717    EXCEPTION_PREAMBLE(isolate);
2718    i::Handle<i::Object> num =
2719        i::Execution::ToUint32(obj, &has_pending_exception);
2720    EXCEPTION_BAILOUT_CHECK(isolate, 0);
2721    if (num->IsSmi()) {
2722      return i::Smi::cast(*num)->value();
2723    } else {
2724      return static_cast<uint32_t>(num->Number());
2725    }
2726  }
2727}
2728
2729
2730bool v8::Object::Set(v8::Handle<Value> key, v8::Handle<Value> value,
2731                     v8::PropertyAttribute attribs) {
2732  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2733  ON_BAILOUT(isolate, "v8::Object::Set()", return false);
2734  ENTER_V8(isolate);
2735  i::HandleScope scope(isolate);
2736  i::Handle<i::Object> self = Utils::OpenHandle(this);
2737  i::Handle<i::Object> key_obj = Utils::OpenHandle(*key);
2738  i::Handle<i::Object> value_obj = Utils::OpenHandle(*value);
2739  EXCEPTION_PREAMBLE(isolate);
2740  i::Handle<i::Object> obj = i::SetProperty(
2741      self,
2742      key_obj,
2743      value_obj,
2744      static_cast<PropertyAttributes>(attribs),
2745      i::kNonStrictMode);
2746  has_pending_exception = obj.is_null();
2747  EXCEPTION_BAILOUT_CHECK(isolate, false);
2748  return true;
2749}
2750
2751
2752bool v8::Object::Set(uint32_t index, v8::Handle<Value> value) {
2753  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2754  ON_BAILOUT(isolate, "v8::Object::Set()", return false);
2755  ENTER_V8(isolate);
2756  i::HandleScope scope(isolate);
2757  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2758  i::Handle<i::Object> value_obj = Utils::OpenHandle(*value);
2759  EXCEPTION_PREAMBLE(isolate);
2760  i::Handle<i::Object> obj = i::JSObject::SetElement(
2761      self,
2762      index,
2763      value_obj,
2764      NONE,
2765      i::kNonStrictMode);
2766  has_pending_exception = obj.is_null();
2767  EXCEPTION_BAILOUT_CHECK(isolate, false);
2768  return true;
2769}
2770
2771
2772bool v8::Object::ForceSet(v8::Handle<Value> key,
2773                          v8::Handle<Value> value,
2774                          v8::PropertyAttribute attribs) {
2775  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2776  ON_BAILOUT(isolate, "v8::Object::ForceSet()", return false);
2777  ENTER_V8(isolate);
2778  i::HandleScope scope(isolate);
2779  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2780  i::Handle<i::Object> key_obj = Utils::OpenHandle(*key);
2781  i::Handle<i::Object> value_obj = Utils::OpenHandle(*value);
2782  EXCEPTION_PREAMBLE(isolate);
2783  i::Handle<i::Object> obj = i::ForceSetProperty(
2784      self,
2785      key_obj,
2786      value_obj,
2787      static_cast<PropertyAttributes>(attribs));
2788  has_pending_exception = obj.is_null();
2789  EXCEPTION_BAILOUT_CHECK(isolate, false);
2790  return true;
2791}
2792
2793
2794bool v8::Object::ForceDelete(v8::Handle<Value> key) {
2795  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2796  ON_BAILOUT(isolate, "v8::Object::ForceDelete()", return false);
2797  ENTER_V8(isolate);
2798  i::HandleScope scope(isolate);
2799  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2800  i::Handle<i::Object> key_obj = Utils::OpenHandle(*key);
2801
2802  // When turning on access checks for a global object deoptimize all functions
2803  // as optimized code does not always handle access checks.
2804  i::Deoptimizer::DeoptimizeGlobalObject(*self);
2805
2806  EXCEPTION_PREAMBLE(isolate);
2807  i::Handle<i::Object> obj = i::ForceDeleteProperty(self, key_obj);
2808  has_pending_exception = obj.is_null();
2809  EXCEPTION_BAILOUT_CHECK(isolate, false);
2810  return obj->IsTrue();
2811}
2812
2813
2814Local<Value> v8::Object::Get(v8::Handle<Value> key) {
2815  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2816  ON_BAILOUT(isolate, "v8::Object::Get()", return Local<v8::Value>());
2817  ENTER_V8(isolate);
2818  i::Handle<i::Object> self = Utils::OpenHandle(this);
2819  i::Handle<i::Object> key_obj = Utils::OpenHandle(*key);
2820  EXCEPTION_PREAMBLE(isolate);
2821  i::Handle<i::Object> result = i::GetProperty(self, key_obj);
2822  has_pending_exception = result.is_null();
2823  EXCEPTION_BAILOUT_CHECK(isolate, Local<Value>());
2824  return Utils::ToLocal(result);
2825}
2826
2827
2828Local<Value> v8::Object::Get(uint32_t index) {
2829  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2830  ON_BAILOUT(isolate, "v8::Object::Get()", return Local<v8::Value>());
2831  ENTER_V8(isolate);
2832  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2833  EXCEPTION_PREAMBLE(isolate);
2834  i::Handle<i::Object> result = i::Object::GetElement(self, index);
2835  has_pending_exception = result.is_null();
2836  EXCEPTION_BAILOUT_CHECK(isolate, Local<Value>());
2837  return Utils::ToLocal(result);
2838}
2839
2840
2841PropertyAttribute v8::Object::GetPropertyAttributes(v8::Handle<Value> key) {
2842  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2843  ON_BAILOUT(isolate, "v8::Object::GetPropertyAttribute()",
2844             return static_cast<PropertyAttribute>(NONE));
2845  ENTER_V8(isolate);
2846  i::HandleScope scope(isolate);
2847  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2848  i::Handle<i::Object> key_obj = Utils::OpenHandle(*key);
2849  if (!key_obj->IsString()) {
2850    EXCEPTION_PREAMBLE(isolate);
2851    key_obj = i::Execution::ToString(key_obj, &has_pending_exception);
2852    EXCEPTION_BAILOUT_CHECK(isolate, static_cast<PropertyAttribute>(NONE));
2853  }
2854  i::Handle<i::String> key_string = i::Handle<i::String>::cast(key_obj);
2855  PropertyAttributes result = self->GetPropertyAttribute(*key_string);
2856  if (result == ABSENT) return static_cast<PropertyAttribute>(NONE);
2857  return static_cast<PropertyAttribute>(result);
2858}
2859
2860
2861Local<Value> v8::Object::GetPrototype() {
2862  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2863  ON_BAILOUT(isolate, "v8::Object::GetPrototype()",
2864             return Local<v8::Value>());
2865  ENTER_V8(isolate);
2866  i::Handle<i::Object> self = Utils::OpenHandle(this);
2867  i::Handle<i::Object> result(self->GetPrototype());
2868  return Utils::ToLocal(result);
2869}
2870
2871
2872bool v8::Object::SetPrototype(Handle<Value> value) {
2873  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2874  ON_BAILOUT(isolate, "v8::Object::SetPrototype()", return false);
2875  ENTER_V8(isolate);
2876  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2877  i::Handle<i::Object> value_obj = Utils::OpenHandle(*value);
2878  // We do not allow exceptions thrown while setting the prototype
2879  // to propagate outside.
2880  TryCatch try_catch;
2881  EXCEPTION_PREAMBLE(isolate);
2882  i::Handle<i::Object> result = i::SetPrototype(self, value_obj);
2883  has_pending_exception = result.is_null();
2884  EXCEPTION_BAILOUT_CHECK(isolate, false);
2885  return true;
2886}
2887
2888
2889Local<Object> v8::Object::FindInstanceInPrototypeChain(
2890    v8::Handle<FunctionTemplate> tmpl) {
2891  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2892  ON_BAILOUT(isolate,
2893             "v8::Object::FindInstanceInPrototypeChain()",
2894             return Local<v8::Object>());
2895  ENTER_V8(isolate);
2896  i::JSObject* object = *Utils::OpenHandle(this);
2897  i::FunctionTemplateInfo* tmpl_info = *Utils::OpenHandle(*tmpl);
2898  while (!object->IsInstanceOf(tmpl_info)) {
2899    i::Object* prototype = object->GetPrototype();
2900    if (!prototype->IsJSObject()) return Local<Object>();
2901    object = i::JSObject::cast(prototype);
2902  }
2903  return Utils::ToLocal(i::Handle<i::JSObject>(object));
2904}
2905
2906
2907Local<Array> v8::Object::GetPropertyNames() {
2908  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2909  ON_BAILOUT(isolate, "v8::Object::GetPropertyNames()",
2910             return Local<v8::Array>());
2911  ENTER_V8(isolate);
2912  i::HandleScope scope(isolate);
2913  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2914  bool threw = false;
2915  i::Handle<i::FixedArray> value =
2916      i::GetKeysInFixedArrayFor(self, i::INCLUDE_PROTOS, &threw);
2917  if (threw) return Local<v8::Array>();
2918  // Because we use caching to speed up enumeration it is important
2919  // to never change the result of the basic enumeration function so
2920  // we clone the result.
2921  i::Handle<i::FixedArray> elms = isolate->factory()->CopyFixedArray(value);
2922  i::Handle<i::JSArray> result =
2923      isolate->factory()->NewJSArrayWithElements(elms);
2924  return Utils::ToLocal(scope.CloseAndEscape(result));
2925}
2926
2927
2928Local<Array> v8::Object::GetOwnPropertyNames() {
2929  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2930  ON_BAILOUT(isolate, "v8::Object::GetOwnPropertyNames()",
2931             return Local<v8::Array>());
2932  ENTER_V8(isolate);
2933  i::HandleScope scope(isolate);
2934  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2935  bool threw = false;
2936  i::Handle<i::FixedArray> value =
2937      i::GetKeysInFixedArrayFor(self, i::LOCAL_ONLY, &threw);
2938  if (threw) return Local<v8::Array>();
2939  // Because we use caching to speed up enumeration it is important
2940  // to never change the result of the basic enumeration function so
2941  // we clone the result.
2942  i::Handle<i::FixedArray> elms = isolate->factory()->CopyFixedArray(value);
2943  i::Handle<i::JSArray> result =
2944      isolate->factory()->NewJSArrayWithElements(elms);
2945  return Utils::ToLocal(scope.CloseAndEscape(result));
2946}
2947
2948
2949Local<String> v8::Object::ObjectProtoToString() {
2950  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
2951  ON_BAILOUT(isolate, "v8::Object::ObjectProtoToString()",
2952             return Local<v8::String>());
2953  ENTER_V8(isolate);
2954  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
2955
2956  i::Handle<i::Object> name(self->class_name());
2957
2958  // Native implementation of Object.prototype.toString (v8natives.js):
2959  //   var c = %ClassOf(this);
2960  //   if (c === 'Arguments') c  = 'Object';
2961  //   return "[object " + c + "]";
2962
2963  if (!name->IsString()) {
2964    return v8::String::New("[object ]");
2965
2966  } else {
2967    i::Handle<i::String> class_name = i::Handle<i::String>::cast(name);
2968    if (class_name->IsEqualTo(i::CStrVector("Arguments"))) {
2969      return v8::String::New("[object Object]");
2970
2971    } else {
2972      const char* prefix = "[object ";
2973      Local<String> str = Utils::ToLocal(class_name);
2974      const char* postfix = "]";
2975
2976      int prefix_len = i::StrLength(prefix);
2977      int str_len = str->Length();
2978      int postfix_len = i::StrLength(postfix);
2979
2980      int buf_len = prefix_len + str_len + postfix_len;
2981      i::ScopedVector<char> buf(buf_len);
2982
2983      // Write prefix.
2984      char* ptr = buf.start();
2985      memcpy(ptr, prefix, prefix_len * v8::internal::kCharSize);
2986      ptr += prefix_len;
2987
2988      // Write real content.
2989      str->WriteAscii(ptr, 0, str_len);
2990      ptr += str_len;
2991
2992      // Write postfix.
2993      memcpy(ptr, postfix, postfix_len * v8::internal::kCharSize);
2994
2995      // Copy the buffer into a heap-allocated string and return it.
2996      Local<String> result = v8::String::New(buf.start(), buf_len);
2997      return result;
2998    }
2999  }
3000}
3001
3002
3003Local<String> v8::Object::GetConstructorName() {
3004  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3005  ON_BAILOUT(isolate, "v8::Object::GetConstructorName()",
3006             return Local<v8::String>());
3007  ENTER_V8(isolate);
3008  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3009  i::Handle<i::String> name(self->constructor_name());
3010  return Utils::ToLocal(name);
3011}
3012
3013
3014bool v8::Object::Delete(v8::Handle<String> key) {
3015  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3016  ON_BAILOUT(isolate, "v8::Object::Delete()", return false);
3017  ENTER_V8(isolate);
3018  i::HandleScope scope(isolate);
3019  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3020  i::Handle<i::String> key_obj = Utils::OpenHandle(*key);
3021  return i::JSObject::DeleteProperty(self, key_obj)->IsTrue();
3022}
3023
3024
3025bool v8::Object::Has(v8::Handle<String> key) {
3026  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3027  ON_BAILOUT(isolate, "v8::Object::Has()", return false);
3028  ENTER_V8(isolate);
3029  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3030  i::Handle<i::String> key_obj = Utils::OpenHandle(*key);
3031  return self->HasProperty(*key_obj);
3032}
3033
3034
3035bool v8::Object::Delete(uint32_t index) {
3036  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3037  ON_BAILOUT(isolate, "v8::Object::DeleteProperty()",
3038             return false);
3039  ENTER_V8(isolate);
3040  HandleScope scope;
3041  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3042  return i::JSObject::DeleteElement(self, index)->IsTrue();
3043}
3044
3045
3046bool v8::Object::Has(uint32_t index) {
3047  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3048  ON_BAILOUT(isolate, "v8::Object::HasProperty()", return false);
3049  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3050  return self->HasElement(index);
3051}
3052
3053
3054bool Object::SetAccessor(Handle<String> name,
3055                         AccessorGetter getter,
3056                         AccessorSetter setter,
3057                         v8::Handle<Value> data,
3058                         AccessControl settings,
3059                         PropertyAttribute attributes) {
3060  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3061  ON_BAILOUT(isolate, "v8::Object::SetAccessor()", return false);
3062  ENTER_V8(isolate);
3063  i::HandleScope scope(isolate);
3064  i::Handle<i::AccessorInfo> info = MakeAccessorInfo(name,
3065                                                     getter, setter, data,
3066                                                     settings, attributes);
3067  bool fast = Utils::OpenHandle(this)->HasFastProperties();
3068  i::Handle<i::Object> result = i::SetAccessor(Utils::OpenHandle(this), info);
3069  if (result.is_null() || result->IsUndefined()) return false;
3070  if (fast) i::JSObject::TransformToFastProperties(Utils::OpenHandle(this), 0);
3071  return true;
3072}
3073
3074
3075bool v8::Object::HasOwnProperty(Handle<String> key) {
3076  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3077  ON_BAILOUT(isolate, "v8::Object::HasOwnProperty()",
3078             return false);
3079  return Utils::OpenHandle(this)->HasLocalProperty(
3080      *Utils::OpenHandle(*key));
3081}
3082
3083
3084bool v8::Object::HasRealNamedProperty(Handle<String> key) {
3085  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3086  ON_BAILOUT(isolate, "v8::Object::HasRealNamedProperty()",
3087             return false);
3088  return Utils::OpenHandle(this)->HasRealNamedProperty(
3089      *Utils::OpenHandle(*key));
3090}
3091
3092
3093bool v8::Object::HasRealIndexedProperty(uint32_t index) {
3094  ON_BAILOUT(Utils::OpenHandle(this)->GetIsolate(),
3095             "v8::Object::HasRealIndexedProperty()",
3096             return false);
3097  return Utils::OpenHandle(this)->HasRealElementProperty(index);
3098}
3099
3100
3101bool v8::Object::HasRealNamedCallbackProperty(Handle<String> key) {
3102  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3103  ON_BAILOUT(isolate,
3104             "v8::Object::HasRealNamedCallbackProperty()",
3105             return false);
3106  ENTER_V8(isolate);
3107  return Utils::OpenHandle(this)->HasRealNamedCallbackProperty(
3108      *Utils::OpenHandle(*key));
3109}
3110
3111
3112bool v8::Object::HasNamedLookupInterceptor() {
3113  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3114  ON_BAILOUT(isolate, "v8::Object::HasNamedLookupInterceptor()",
3115             return false);
3116  return Utils::OpenHandle(this)->HasNamedInterceptor();
3117}
3118
3119
3120bool v8::Object::HasIndexedLookupInterceptor() {
3121  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3122  ON_BAILOUT(isolate, "v8::Object::HasIndexedLookupInterceptor()",
3123             return false);
3124  return Utils::OpenHandle(this)->HasIndexedInterceptor();
3125}
3126
3127
3128static Local<Value> GetPropertyByLookup(i::Isolate* isolate,
3129                                        i::Handle<i::JSObject> receiver,
3130                                        i::Handle<i::String> name,
3131                                        i::LookupResult* lookup) {
3132  if (!lookup->IsProperty()) {
3133    // No real property was found.
3134    return Local<Value>();
3135  }
3136
3137  // If the property being looked up is a callback, it can throw
3138  // an exception.
3139  EXCEPTION_PREAMBLE(isolate);
3140  PropertyAttributes ignored;
3141  i::Handle<i::Object> result =
3142      i::Object::GetProperty(receiver, receiver, lookup, name,
3143                             &ignored);
3144  has_pending_exception = result.is_null();
3145  EXCEPTION_BAILOUT_CHECK(isolate, Local<Value>());
3146
3147  return Utils::ToLocal(result);
3148}
3149
3150
3151Local<Value> v8::Object::GetRealNamedPropertyInPrototypeChain(
3152      Handle<String> key) {
3153  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3154  ON_BAILOUT(isolate,
3155             "v8::Object::GetRealNamedPropertyInPrototypeChain()",
3156             return Local<Value>());
3157  ENTER_V8(isolate);
3158  i::Handle<i::JSObject> self_obj = Utils::OpenHandle(this);
3159  i::Handle<i::String> key_obj = Utils::OpenHandle(*key);
3160  i::LookupResult lookup(isolate);
3161  self_obj->LookupRealNamedPropertyInPrototypes(*key_obj, &lookup);
3162  return GetPropertyByLookup(isolate, self_obj, key_obj, &lookup);
3163}
3164
3165
3166Local<Value> v8::Object::GetRealNamedProperty(Handle<String> key) {
3167  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3168  ON_BAILOUT(isolate, "v8::Object::GetRealNamedProperty()",
3169             return Local<Value>());
3170  ENTER_V8(isolate);
3171  i::Handle<i::JSObject> self_obj = Utils::OpenHandle(this);
3172  i::Handle<i::String> key_obj = Utils::OpenHandle(*key);
3173  i::LookupResult lookup(isolate);
3174  self_obj->LookupRealNamedProperty(*key_obj, &lookup);
3175  return GetPropertyByLookup(isolate, self_obj, key_obj, &lookup);
3176}
3177
3178
3179// Turns on access checks by copying the map and setting the check flag.
3180// Because the object gets a new map, existing inline cache caching
3181// the old map of this object will fail.
3182void v8::Object::TurnOnAccessCheck() {
3183  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3184  ON_BAILOUT(isolate, "v8::Object::TurnOnAccessCheck()", return);
3185  ENTER_V8(isolate);
3186  i::HandleScope scope(isolate);
3187  i::Handle<i::JSObject> obj = Utils::OpenHandle(this);
3188
3189  // When turning on access checks for a global object deoptimize all functions
3190  // as optimized code does not always handle access checks.
3191  i::Deoptimizer::DeoptimizeGlobalObject(*obj);
3192
3193  i::Handle<i::Map> new_map =
3194      isolate->factory()->CopyMapDropTransitions(i::Handle<i::Map>(obj->map()));
3195  new_map->set_is_access_check_needed(true);
3196  obj->set_map(*new_map);
3197}
3198
3199
3200bool v8::Object::IsDirty() {
3201  return Utils::OpenHandle(this)->IsDirty();
3202}
3203
3204
3205Local<v8::Object> v8::Object::Clone() {
3206  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3207  ON_BAILOUT(isolate, "v8::Object::Clone()", return Local<Object>());
3208  ENTER_V8(isolate);
3209  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3210  EXCEPTION_PREAMBLE(isolate);
3211  i::Handle<i::JSObject> result = i::Copy(self);
3212  has_pending_exception = result.is_null();
3213  EXCEPTION_BAILOUT_CHECK(isolate, Local<Object>());
3214  return Utils::ToLocal(result);
3215}
3216
3217
3218static i::Context* GetCreationContext(i::JSObject* object) {
3219  i::Object* constructor = object->map()->constructor();
3220  i::JSFunction* function;
3221  if (!constructor->IsJSFunction()) {
3222    // Functions have null as a constructor,
3223    // but any JSFunction knows its context immediately.
3224    ASSERT(object->IsJSFunction());
3225    function = i::JSFunction::cast(object);
3226  } else {
3227    function = i::JSFunction::cast(constructor);
3228  }
3229  return function->context()->global_context();
3230}
3231
3232
3233Local<v8::Context> v8::Object::CreationContext() {
3234  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3235  ON_BAILOUT(isolate,
3236             "v8::Object::CreationContext()", return Local<v8::Context>());
3237  ENTER_V8(isolate);
3238  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3239  i::Context* context = GetCreationContext(*self);
3240  return Utils::ToLocal(i::Handle<i::Context>(context));
3241}
3242
3243
3244int v8::Object::GetIdentityHash() {
3245  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3246  ON_BAILOUT(isolate, "v8::Object::GetIdentityHash()", return 0);
3247  ENTER_V8(isolate);
3248  i::HandleScope scope(isolate);
3249  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3250  return i::JSObject::GetIdentityHash(self);
3251}
3252
3253
3254bool v8::Object::SetHiddenValue(v8::Handle<v8::String> key,
3255                                v8::Handle<v8::Value> value) {
3256  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3257  ON_BAILOUT(isolate, "v8::Object::SetHiddenValue()", return false);
3258  ENTER_V8(isolate);
3259  i::HandleScope scope(isolate);
3260  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3261  i::Handle<i::String> key_obj = Utils::OpenHandle(*key);
3262  i::Handle<i::Object> value_obj = Utils::OpenHandle(*value);
3263  i::Handle<i::Object> result =
3264      i::JSObject::SetHiddenProperty(self, key_obj, value_obj);
3265  return *result == *self;
3266}
3267
3268
3269v8::Local<v8::Value> v8::Object::GetHiddenValue(v8::Handle<v8::String> key) {
3270  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3271  ON_BAILOUT(isolate, "v8::Object::GetHiddenValue()",
3272             return Local<v8::Value>());
3273  ENTER_V8(isolate);
3274  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3275  i::Handle<i::String> key_obj = Utils::OpenHandle(*key);
3276  i::Handle<i::Object> result(self->GetHiddenProperty(*key_obj));
3277  if (result->IsUndefined()) return v8::Local<v8::Value>();
3278  return Utils::ToLocal(result);
3279}
3280
3281
3282bool v8::Object::DeleteHiddenValue(v8::Handle<v8::String> key) {
3283  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3284  ON_BAILOUT(isolate, "v8::DeleteHiddenValue()", return false);
3285  ENTER_V8(isolate);
3286  i::HandleScope scope(isolate);
3287  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3288  i::Handle<i::String> key_obj = Utils::OpenHandle(*key);
3289  self->DeleteHiddenProperty(*key_obj);
3290  return true;
3291}
3292
3293
3294namespace {
3295
3296static i::ElementsKind GetElementsKindFromExternalArrayType(
3297    ExternalArrayType array_type) {
3298  switch (array_type) {
3299    case kExternalByteArray:
3300      return i::EXTERNAL_BYTE_ELEMENTS;
3301      break;
3302    case kExternalUnsignedByteArray:
3303      return i::EXTERNAL_UNSIGNED_BYTE_ELEMENTS;
3304      break;
3305    case kExternalShortArray:
3306      return i::EXTERNAL_SHORT_ELEMENTS;
3307      break;
3308    case kExternalUnsignedShortArray:
3309      return i::EXTERNAL_UNSIGNED_SHORT_ELEMENTS;
3310      break;
3311    case kExternalIntArray:
3312      return i::EXTERNAL_INT_ELEMENTS;
3313      break;
3314    case kExternalUnsignedIntArray:
3315      return i::EXTERNAL_UNSIGNED_INT_ELEMENTS;
3316      break;
3317    case kExternalFloatArray:
3318      return i::EXTERNAL_FLOAT_ELEMENTS;
3319      break;
3320    case kExternalDoubleArray:
3321      return i::EXTERNAL_DOUBLE_ELEMENTS;
3322      break;
3323    case kExternalPixelArray:
3324      return i::EXTERNAL_PIXEL_ELEMENTS;
3325      break;
3326  }
3327  UNREACHABLE();
3328  return i::DICTIONARY_ELEMENTS;
3329}
3330
3331
3332void PrepareExternalArrayElements(i::Handle<i::JSObject> object,
3333                                  void* data,
3334                                  ExternalArrayType array_type,
3335                                  int length) {
3336  i::Isolate* isolate = object->GetIsolate();
3337  i::Handle<i::ExternalArray> array =
3338      isolate->factory()->NewExternalArray(length, array_type, data);
3339
3340  i::Handle<i::Map> external_array_map =
3341      isolate->factory()->GetElementsTransitionMap(
3342          object,
3343          GetElementsKindFromExternalArrayType(array_type));
3344
3345  object->set_map(*external_array_map);
3346  object->set_elements(*array);
3347}
3348
3349}  // namespace
3350
3351
3352void v8::Object::SetIndexedPropertiesToPixelData(uint8_t* data, int length) {
3353  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3354  ON_BAILOUT(isolate, "v8::SetElementsToPixelData()", return);
3355  ENTER_V8(isolate);
3356  i::HandleScope scope(isolate);
3357  if (!ApiCheck(length <= i::ExternalPixelArray::kMaxLength,
3358                "v8::Object::SetIndexedPropertiesToPixelData()",
3359                "length exceeds max acceptable value")) {
3360    return;
3361  }
3362  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3363  if (!ApiCheck(!self->IsJSArray(),
3364                "v8::Object::SetIndexedPropertiesToPixelData()",
3365                "JSArray is not supported")) {
3366    return;
3367  }
3368  PrepareExternalArrayElements(self, data, kExternalPixelArray, length);
3369}
3370
3371
3372bool v8::Object::HasIndexedPropertiesInPixelData() {
3373  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3374  ON_BAILOUT(self->GetIsolate(), "v8::HasIndexedPropertiesInPixelData()",
3375             return false);
3376  return self->HasExternalPixelElements();
3377}
3378
3379
3380uint8_t* v8::Object::GetIndexedPropertiesPixelData() {
3381  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3382  ON_BAILOUT(self->GetIsolate(), "v8::GetIndexedPropertiesPixelData()",
3383             return NULL);
3384  if (self->HasExternalPixelElements()) {
3385    return i::ExternalPixelArray::cast(self->elements())->
3386        external_pixel_pointer();
3387  } else {
3388    return NULL;
3389  }
3390}
3391
3392
3393int v8::Object::GetIndexedPropertiesPixelDataLength() {
3394  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3395  ON_BAILOUT(self->GetIsolate(), "v8::GetIndexedPropertiesPixelDataLength()",
3396             return -1);
3397  if (self->HasExternalPixelElements()) {
3398    return i::ExternalPixelArray::cast(self->elements())->length();
3399  } else {
3400    return -1;
3401  }
3402}
3403
3404
3405void v8::Object::SetIndexedPropertiesToExternalArrayData(
3406    void* data,
3407    ExternalArrayType array_type,
3408    int length) {
3409  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3410  ON_BAILOUT(isolate, "v8::SetIndexedPropertiesToExternalArrayData()", return);
3411  ENTER_V8(isolate);
3412  i::HandleScope scope(isolate);
3413  if (!ApiCheck(length <= i::ExternalArray::kMaxLength,
3414                "v8::Object::SetIndexedPropertiesToExternalArrayData()",
3415                "length exceeds max acceptable value")) {
3416    return;
3417  }
3418  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3419  if (!ApiCheck(!self->IsJSArray(),
3420                "v8::Object::SetIndexedPropertiesToExternalArrayData()",
3421                "JSArray is not supported")) {
3422    return;
3423  }
3424  PrepareExternalArrayElements(self, data, array_type, length);
3425}
3426
3427
3428bool v8::Object::HasIndexedPropertiesInExternalArrayData() {
3429  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3430  ON_BAILOUT(self->GetIsolate(),
3431             "v8::HasIndexedPropertiesInExternalArrayData()",
3432             return false);
3433  return self->HasExternalArrayElements();
3434}
3435
3436
3437void* v8::Object::GetIndexedPropertiesExternalArrayData() {
3438  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3439  ON_BAILOUT(self->GetIsolate(),
3440             "v8::GetIndexedPropertiesExternalArrayData()",
3441             return NULL);
3442  if (self->HasExternalArrayElements()) {
3443    return i::ExternalArray::cast(self->elements())->external_pointer();
3444  } else {
3445    return NULL;
3446  }
3447}
3448
3449
3450ExternalArrayType v8::Object::GetIndexedPropertiesExternalArrayDataType() {
3451  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3452  ON_BAILOUT(self->GetIsolate(),
3453             "v8::GetIndexedPropertiesExternalArrayDataType()",
3454             return static_cast<ExternalArrayType>(-1));
3455  switch (self->elements()->map()->instance_type()) {
3456    case i::EXTERNAL_BYTE_ARRAY_TYPE:
3457      return kExternalByteArray;
3458    case i::EXTERNAL_UNSIGNED_BYTE_ARRAY_TYPE:
3459      return kExternalUnsignedByteArray;
3460    case i::EXTERNAL_SHORT_ARRAY_TYPE:
3461      return kExternalShortArray;
3462    case i::EXTERNAL_UNSIGNED_SHORT_ARRAY_TYPE:
3463      return kExternalUnsignedShortArray;
3464    case i::EXTERNAL_INT_ARRAY_TYPE:
3465      return kExternalIntArray;
3466    case i::EXTERNAL_UNSIGNED_INT_ARRAY_TYPE:
3467      return kExternalUnsignedIntArray;
3468    case i::EXTERNAL_FLOAT_ARRAY_TYPE:
3469      return kExternalFloatArray;
3470    case i::EXTERNAL_DOUBLE_ARRAY_TYPE:
3471      return kExternalDoubleArray;
3472    case i::EXTERNAL_PIXEL_ARRAY_TYPE:
3473      return kExternalPixelArray;
3474    default:
3475      return static_cast<ExternalArrayType>(-1);
3476  }
3477}
3478
3479
3480int v8::Object::GetIndexedPropertiesExternalArrayDataLength() {
3481  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
3482  ON_BAILOUT(self->GetIsolate(),
3483             "v8::GetIndexedPropertiesExternalArrayDataLength()",
3484             return 0);
3485  if (self->HasExternalArrayElements()) {
3486    return i::ExternalArray::cast(self->elements())->length();
3487  } else {
3488    return -1;
3489  }
3490}
3491
3492
3493bool v8::Object::IsCallable() {
3494  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3495  ON_BAILOUT(isolate, "v8::Object::IsCallable()", return false);
3496  ENTER_V8(isolate);
3497  i::HandleScope scope(isolate);
3498  i::Handle<i::JSObject> obj = Utils::OpenHandle(this);
3499  if (obj->IsJSFunction()) return true;
3500  return i::Execution::GetFunctionDelegate(obj)->IsJSFunction();
3501}
3502
3503
3504Local<v8::Value> Object::CallAsFunction(v8::Handle<v8::Object> recv,
3505                                        int argc,
3506                                        v8::Handle<v8::Value> argv[]) {
3507  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3508  ON_BAILOUT(isolate, "v8::Object::CallAsFunction()",
3509             return Local<v8::Value>());
3510  LOG_API(isolate, "Object::CallAsFunction");
3511  ENTER_V8(isolate);
3512  i::HandleScope scope(isolate);
3513  i::Handle<i::JSObject> obj = Utils::OpenHandle(this);
3514  i::Handle<i::Object> recv_obj = Utils::OpenHandle(*recv);
3515  STATIC_ASSERT(sizeof(v8::Handle<v8::Value>) == sizeof(i::Object**));
3516  i::Handle<i::Object>* args = reinterpret_cast<i::Handle<i::Object>*>(argv);
3517  i::Handle<i::JSFunction> fun = i::Handle<i::JSFunction>();
3518  if (obj->IsJSFunction()) {
3519    fun = i::Handle<i::JSFunction>::cast(obj);
3520  } else {
3521    EXCEPTION_PREAMBLE(isolate);
3522    i::Handle<i::Object> delegate =
3523        i::Execution::TryGetFunctionDelegate(obj, &has_pending_exception);
3524    EXCEPTION_BAILOUT_CHECK(isolate, Local<Value>());
3525    fun = i::Handle<i::JSFunction>::cast(delegate);
3526    recv_obj = obj;
3527  }
3528  EXCEPTION_PREAMBLE(isolate);
3529  i::Handle<i::Object> returned =
3530      i::Execution::Call(fun, recv_obj, argc, args, &has_pending_exception);
3531  EXCEPTION_BAILOUT_CHECK_DO_CALLBACK(isolate, Local<Value>());
3532  return Utils::ToLocal(scope.CloseAndEscape(returned));
3533}
3534
3535
3536Local<v8::Value> Object::CallAsConstructor(int argc,
3537                                           v8::Handle<v8::Value> argv[]) {
3538  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3539  ON_BAILOUT(isolate, "v8::Object::CallAsConstructor()",
3540             return Local<v8::Object>());
3541  LOG_API(isolate, "Object::CallAsConstructor");
3542  ENTER_V8(isolate);
3543  i::HandleScope scope(isolate);
3544  i::Handle<i::JSObject> obj = Utils::OpenHandle(this);
3545  STATIC_ASSERT(sizeof(v8::Handle<v8::Value>) == sizeof(i::Object**));
3546  i::Handle<i::Object>* args = reinterpret_cast<i::Handle<i::Object>*>(argv);
3547  if (obj->IsJSFunction()) {
3548    i::Handle<i::JSFunction> fun = i::Handle<i::JSFunction>::cast(obj);
3549    EXCEPTION_PREAMBLE(isolate);
3550    i::Handle<i::Object> returned =
3551        i::Execution::New(fun, argc, args, &has_pending_exception);
3552    EXCEPTION_BAILOUT_CHECK_DO_CALLBACK(isolate, Local<v8::Object>());
3553    return Utils::ToLocal(scope.CloseAndEscape(
3554        i::Handle<i::JSObject>::cast(returned)));
3555  }
3556  EXCEPTION_PREAMBLE(isolate);
3557  i::Handle<i::Object> delegate =
3558      i::Execution::TryGetConstructorDelegate(obj, &has_pending_exception);
3559  EXCEPTION_BAILOUT_CHECK(isolate, Local<v8::Object>());
3560  if (!delegate->IsUndefined()) {
3561    i::Handle<i::JSFunction> fun = i::Handle<i::JSFunction>::cast(delegate);
3562    EXCEPTION_PREAMBLE(isolate);
3563    i::Handle<i::Object> returned =
3564        i::Execution::Call(fun, obj, argc, args, &has_pending_exception);
3565    EXCEPTION_BAILOUT_CHECK_DO_CALLBACK(isolate, Local<v8::Object>());
3566    ASSERT(!delegate->IsUndefined());
3567    return Utils::ToLocal(scope.CloseAndEscape(returned));
3568  }
3569  return Local<v8::Object>();
3570}
3571
3572
3573Local<v8::Object> Function::NewInstance() const {
3574  return NewInstance(0, NULL);
3575}
3576
3577
3578Local<v8::Object> Function::NewInstance(int argc,
3579                                        v8::Handle<v8::Value> argv[]) const {
3580  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3581  ON_BAILOUT(isolate, "v8::Function::NewInstance()",
3582             return Local<v8::Object>());
3583  LOG_API(isolate, "Function::NewInstance");
3584  ENTER_V8(isolate);
3585  HandleScope scope;
3586  i::Handle<i::JSFunction> function = Utils::OpenHandle(this);
3587  STATIC_ASSERT(sizeof(v8::Handle<v8::Value>) == sizeof(i::Object**));
3588  i::Handle<i::Object>* args = reinterpret_cast<i::Handle<i::Object>*>(argv);
3589  EXCEPTION_PREAMBLE(isolate);
3590  i::Handle<i::Object> returned =
3591      i::Execution::New(function, argc, args, &has_pending_exception);
3592  EXCEPTION_BAILOUT_CHECK_DO_CALLBACK(isolate, Local<v8::Object>());
3593  return scope.Close(Utils::ToLocal(i::Handle<i::JSObject>::cast(returned)));
3594}
3595
3596
3597Local<v8::Value> Function::Call(v8::Handle<v8::Object> recv, int argc,
3598                                v8::Handle<v8::Value> argv[]) {
3599  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3600  ON_BAILOUT(isolate, "v8::Function::Call()", return Local<v8::Value>());
3601  LOG_API(isolate, "Function::Call");
3602  ENTER_V8(isolate);
3603  i::Object* raw_result = NULL;
3604  {
3605    i::HandleScope scope(isolate);
3606    i::Handle<i::JSFunction> fun = Utils::OpenHandle(this);
3607    i::Handle<i::Object> recv_obj = Utils::OpenHandle(*recv);
3608    STATIC_ASSERT(sizeof(v8::Handle<v8::Value>) == sizeof(i::Object**));
3609    i::Handle<i::Object>* args = reinterpret_cast<i::Handle<i::Object>*>(argv);
3610    EXCEPTION_PREAMBLE(isolate);
3611    i::Handle<i::Object> returned =
3612        i::Execution::Call(fun, recv_obj, argc, args, &has_pending_exception);
3613    EXCEPTION_BAILOUT_CHECK_DO_CALLBACK(isolate, Local<Object>());
3614    raw_result = *returned;
3615  }
3616  i::Handle<i::Object> result(raw_result);
3617  return Utils::ToLocal(result);
3618}
3619
3620
3621void Function::SetName(v8::Handle<v8::String> name) {
3622  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3623  ENTER_V8(isolate);
3624  USE(isolate);
3625  i::Handle<i::JSFunction> func = Utils::OpenHandle(this);
3626  func->shared()->set_name(*Utils::OpenHandle(*name));
3627}
3628
3629
3630Handle<Value> Function::GetName() const {
3631  i::Handle<i::JSFunction> func = Utils::OpenHandle(this);
3632  return Utils::ToLocal(i::Handle<i::Object>(func->shared()->name()));
3633}
3634
3635
3636Handle<Value> Function::GetInferredName() const {
3637  i::Handle<i::JSFunction> func = Utils::OpenHandle(this);
3638  return Utils::ToLocal(i::Handle<i::Object>(func->shared()->inferred_name()));
3639}
3640
3641
3642ScriptOrigin Function::GetScriptOrigin() const {
3643  i::Handle<i::JSFunction> func = Utils::OpenHandle(this);
3644  if (func->shared()->script()->IsScript()) {
3645    i::Handle<i::Script> script(i::Script::cast(func->shared()->script()));
3646    v8::ScriptOrigin origin(
3647      Utils::ToLocal(i::Handle<i::Object>(script->name())),
3648      v8::Integer::New(script->line_offset()->value()),
3649      v8::Integer::New(script->column_offset()->value()));
3650    return origin;
3651  }
3652  return v8::ScriptOrigin(Handle<Value>());
3653}
3654
3655
3656const int Function::kLineOffsetNotFound = -1;
3657
3658
3659int Function::GetScriptLineNumber() const {
3660  i::Handle<i::JSFunction> func = Utils::OpenHandle(this);
3661  if (func->shared()->script()->IsScript()) {
3662    i::Handle<i::Script> script(i::Script::cast(func->shared()->script()));
3663    return i::GetScriptLineNumber(script, func->shared()->start_position());
3664  }
3665  return kLineOffsetNotFound;
3666}
3667
3668
3669int Function::GetScriptColumnNumber() const {
3670  i::Handle<i::JSFunction> func = Utils::OpenHandle(this);
3671  if (func->shared()->script()->IsScript()) {
3672    i::Handle<i::Script> script(i::Script::cast(func->shared()->script()));
3673    return i::GetScriptColumnNumber(script, func->shared()->start_position());
3674  }
3675  return kLineOffsetNotFound;
3676}
3677
3678Handle<Value> Function::GetScriptId() const {
3679  i::Handle<i::JSFunction> func = Utils::OpenHandle(this);
3680  if (!func->shared()->script()->IsScript())
3681    return v8::Undefined();
3682  i::Handle<i::Script> script(i::Script::cast(func->shared()->script()));
3683  return Utils::ToLocal(i::Handle<i::Object>(script->id()));
3684}
3685
3686int String::Length() const {
3687  i::Handle<i::String> str = Utils::OpenHandle(this);
3688  if (IsDeadCheck(str->GetIsolate(), "v8::String::Length()")) return 0;
3689  return str->length();
3690}
3691
3692
3693int String::Utf8Length() const {
3694  i::Handle<i::String> str = Utils::OpenHandle(this);
3695  if (IsDeadCheck(str->GetIsolate(), "v8::String::Utf8Length()")) return 0;
3696  return i::Utf8Length(str);
3697}
3698
3699
3700// Will fail with a negative answer if the recursion depth is too high.
3701static int RecursivelySerializeToUtf8(i::String* string,
3702                                      char* buffer,
3703                                      int start,
3704                                      int end,
3705                                      int recursion_budget,
3706                                      int32_t previous_character,
3707                                      int32_t* last_character) {
3708  int utf8_bytes = 0;
3709  while (true) {
3710    if (string->IsAsciiRepresentation()) {
3711      i::String::WriteToFlat(string, buffer, start, end);
3712      *last_character = unibrow::Utf16::kNoPreviousCharacter;
3713      return utf8_bytes + end - start;
3714    }
3715    switch (i::StringShape(string).representation_tag()) {
3716      case i::kExternalStringTag: {
3717        const uint16_t* data = i::ExternalTwoByteString::cast(string)->
3718          ExternalTwoByteStringGetData(0);
3719        char* current = buffer;
3720        for (int i = start; i < end; i++) {
3721          uint16_t character = data[i];
3722          current +=
3723              unibrow::Utf8::Encode(current, character, previous_character);
3724          previous_character = character;
3725        }
3726        *last_character = previous_character;
3727        return static_cast<int>(utf8_bytes + current - buffer);
3728      }
3729      case i::kSeqStringTag: {
3730        const uint16_t* data =
3731            i::SeqTwoByteString::cast(string)->SeqTwoByteStringGetData(0);
3732        char* current = buffer;
3733        for (int i = start; i < end; i++) {
3734          uint16_t character = data[i];
3735          current +=
3736              unibrow::Utf8::Encode(current, character, previous_character);
3737          previous_character = character;
3738        }
3739        *last_character = previous_character;
3740        return static_cast<int>(utf8_bytes + current - buffer);
3741      }
3742      case i::kSlicedStringTag: {
3743        i::SlicedString* slice = i::SlicedString::cast(string);
3744        unsigned offset = slice->offset();
3745        string = slice->parent();
3746        start += offset;
3747        end += offset;
3748        continue;
3749      }
3750      case i::kConsStringTag: {
3751        i::ConsString* cons_string = i::ConsString::cast(string);
3752        i::String* first = cons_string->first();
3753        int boundary = first->length();
3754        if (start >= boundary) {
3755          // Only need RHS.
3756          string = cons_string->second();
3757          start -= boundary;
3758          end -= boundary;
3759          continue;
3760        } else if (end <= boundary) {
3761          // Only need LHS.
3762          string = first;
3763        } else {
3764          if (recursion_budget == 0) return -1;
3765          int extra_utf8_bytes =
3766              RecursivelySerializeToUtf8(first,
3767                                         buffer,
3768                                         start,
3769                                         boundary,
3770                                         recursion_budget - 1,
3771                                         previous_character,
3772                                         &previous_character);
3773          if (extra_utf8_bytes < 0) return extra_utf8_bytes;
3774          buffer += extra_utf8_bytes;
3775          utf8_bytes += extra_utf8_bytes;
3776          string = cons_string->second();
3777          start = 0;
3778          end -= boundary;
3779        }
3780      }
3781    }
3782  }
3783  UNREACHABLE();
3784  return 0;
3785}
3786
3787
3788bool String::MayContainNonAscii() const {
3789  i::Handle<i::String> str = Utils::OpenHandle(this);
3790  if (IsDeadCheck(str->GetIsolate(), "v8::String::MayContainNonAscii()")) {
3791    return false;
3792  }
3793  return !str->HasOnlyAsciiChars();
3794}
3795
3796
3797int String::WriteUtf8(char* buffer,
3798                      int capacity,
3799                      int* nchars_ref,
3800                      int options) const {
3801  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3802  if (IsDeadCheck(isolate, "v8::String::WriteUtf8()")) return 0;
3803  LOG_API(isolate, "String::WriteUtf8");
3804  ENTER_V8(isolate);
3805  i::Handle<i::String> str = Utils::OpenHandle(this);
3806  int string_length = str->length();
3807  if (str->IsAsciiRepresentation()) {
3808    int len;
3809    if (capacity == -1) {
3810      capacity = str->length() + 1;
3811      len = string_length;
3812    } else {
3813      len = i::Min(capacity, str->length());
3814    }
3815    i::String::WriteToFlat(*str, buffer, 0, len);
3816    if (nchars_ref != NULL) *nchars_ref = len;
3817    if (!(options & NO_NULL_TERMINATION) && capacity > len) {
3818      buffer[len] = '\0';
3819      return len + 1;
3820    }
3821    return len;
3822  }
3823
3824  if (capacity == -1 || capacity / 3 >= string_length) {
3825    int32_t previous = unibrow::Utf16::kNoPreviousCharacter;
3826    const int kMaxRecursion = 100;
3827    int utf8_bytes =
3828        RecursivelySerializeToUtf8(*str,
3829                                   buffer,
3830                                   0,
3831                                   string_length,
3832                                   kMaxRecursion,
3833                                   previous,
3834                                   &previous);
3835    if (utf8_bytes >= 0) {
3836      // Success serializing with recursion.
3837      if ((options & NO_NULL_TERMINATION) == 0 &&
3838          (capacity > utf8_bytes || capacity == -1)) {
3839        buffer[utf8_bytes++] = '\0';
3840      }
3841      if (nchars_ref != NULL) *nchars_ref = string_length;
3842      return utf8_bytes;
3843    }
3844    FlattenString(str);
3845    // Recurse once.  This time around the string is flat and the serializing
3846    // with recursion will certainly succeed.
3847    return WriteUtf8(buffer, capacity, nchars_ref, options);
3848  } else if (capacity >= string_length) {
3849    // First check that the buffer is large enough.  If it is, then recurse
3850    // once without a capacity limit, which will get into the other branch of
3851    // this 'if'.
3852    int utf8_bytes = i::Utf8Length(str);
3853    if ((options & NO_NULL_TERMINATION) == 0) utf8_bytes++;
3854    if (utf8_bytes <= capacity) {
3855      return WriteUtf8(buffer, -1, nchars_ref, options);
3856    }
3857  }
3858
3859  // Slow case.
3860  i::StringInputBuffer& write_input_buffer = *isolate->write_input_buffer();
3861  isolate->string_tracker()->RecordWrite(str);
3862  if (options & HINT_MANY_WRITES_EXPECTED) {
3863    // Flatten the string for efficiency.  This applies whether we are
3864    // using StringInputBuffer or Get(i) to access the characters.
3865    FlattenString(str);
3866  }
3867  write_input_buffer.Reset(0, *str);
3868  int len = str->length();
3869  // Encode the first K - 3 bytes directly into the buffer since we
3870  // know there's room for them.  If no capacity is given we copy all
3871  // of them here.
3872  int fast_end = capacity - (unibrow::Utf8::kMaxEncodedSize - 1);
3873  int i;
3874  int pos = 0;
3875  int nchars = 0;
3876  int previous = unibrow::Utf16::kNoPreviousCharacter;
3877  for (i = 0; i < len && (capacity == -1 || pos < fast_end); i++) {
3878    i::uc32 c = write_input_buffer.GetNext();
3879    int written = unibrow::Utf8::Encode(buffer + pos, c, previous);
3880    pos += written;
3881    nchars++;
3882    previous = c;
3883  }
3884  if (i < len) {
3885    // For the last characters we need to check the length for each one
3886    // because they may be longer than the remaining space in the
3887    // buffer.
3888    char intermediate[unibrow::Utf8::kMaxEncodedSize];
3889    for (; i < len && pos < capacity; i++) {
3890      i::uc32 c = write_input_buffer.GetNext();
3891      if (unibrow::Utf16::IsTrailSurrogate(c) &&
3892          unibrow::Utf16::IsLeadSurrogate(previous)) {
3893        // We can't use the intermediate buffer here because the encoding
3894        // of surrogate pairs is done under assumption that you can step
3895        // back and fix the UTF8 stream.  Luckily we only need space for one
3896        // more byte, so there is always space.
3897        ASSERT(pos < capacity);
3898        int written = unibrow::Utf8::Encode(buffer + pos, c, previous);
3899        ASSERT(written == 1);
3900        pos += written;
3901        nchars++;
3902      } else {
3903        int written =
3904            unibrow::Utf8::Encode(intermediate,
3905                                  c,
3906                                  unibrow::Utf16::kNoPreviousCharacter);
3907        if (pos + written <= capacity) {
3908          for (int j = 0; j < written; j++)
3909            buffer[pos + j] = intermediate[j];
3910          pos += written;
3911          nchars++;
3912        } else {
3913          // We've reached the end of the buffer
3914          break;
3915        }
3916      }
3917      previous = c;
3918    }
3919  }
3920  if (nchars_ref != NULL) *nchars_ref = nchars;
3921  if (!(options & NO_NULL_TERMINATION) &&
3922      (i == len && (capacity == -1 || pos < capacity)))
3923    buffer[pos++] = '\0';
3924  return pos;
3925}
3926
3927
3928int String::WriteAscii(char* buffer,
3929                       int start,
3930                       int length,
3931                       int options) const {
3932  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3933  if (IsDeadCheck(isolate, "v8::String::WriteAscii()")) return 0;
3934  LOG_API(isolate, "String::WriteAscii");
3935  ENTER_V8(isolate);
3936  i::StringInputBuffer& write_input_buffer = *isolate->write_input_buffer();
3937  ASSERT(start >= 0 && length >= -1);
3938  i::Handle<i::String> str = Utils::OpenHandle(this);
3939  isolate->string_tracker()->RecordWrite(str);
3940  if (options & HINT_MANY_WRITES_EXPECTED) {
3941    // Flatten the string for efficiency.  This applies whether we are
3942    // using StringInputBuffer or Get(i) to access the characters.
3943    str->TryFlatten();
3944  }
3945  int end = length;
3946  if ( (length == -1) || (length > str->length() - start) )
3947    end = str->length() - start;
3948  if (end < 0) return 0;
3949  write_input_buffer.Reset(start, *str);
3950  int i;
3951  for (i = 0; i < end; i++) {
3952    char c = static_cast<char>(write_input_buffer.GetNext());
3953    if (c == '\0') c = ' ';
3954    buffer[i] = c;
3955  }
3956  if (!(options & NO_NULL_TERMINATION) && (length == -1 || i < length))
3957    buffer[i] = '\0';
3958  return i;
3959}
3960
3961
3962int String::Write(uint16_t* buffer,
3963                  int start,
3964                  int length,
3965                  int options) const {
3966  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
3967  if (IsDeadCheck(isolate, "v8::String::Write()")) return 0;
3968  LOG_API(isolate, "String::Write");
3969  ENTER_V8(isolate);
3970  ASSERT(start >= 0 && length >= -1);
3971  i::Handle<i::String> str = Utils::OpenHandle(this);
3972  isolate->string_tracker()->RecordWrite(str);
3973  if (options & HINT_MANY_WRITES_EXPECTED) {
3974    // Flatten the string for efficiency.  This applies whether we are
3975    // using StringInputBuffer or Get(i) to access the characters.
3976    str->TryFlatten();
3977  }
3978  int end = start + length;
3979  if ((length == -1) || (length > str->length() - start) )
3980    end = str->length();
3981  if (end < 0) return 0;
3982  i::String::WriteToFlat(*str, buffer, start, end);
3983  if (!(options & NO_NULL_TERMINATION) &&
3984      (length == -1 || end - start < length)) {
3985    buffer[end - start] = '\0';
3986  }
3987  return end - start;
3988}
3989
3990
3991bool v8::String::IsExternal() const {
3992  i::Handle<i::String> str = Utils::OpenHandle(this);
3993  if (IsDeadCheck(str->GetIsolate(), "v8::String::IsExternal()")) {
3994    return false;
3995  }
3996  EnsureInitializedForIsolate(str->GetIsolate(), "v8::String::IsExternal()");
3997  return i::StringShape(*str).IsExternalTwoByte();
3998}
3999
4000
4001bool v8::String::IsExternalAscii() const {
4002  i::Handle<i::String> str = Utils::OpenHandle(this);
4003  if (IsDeadCheck(str->GetIsolate(), "v8::String::IsExternalAscii()")) {
4004    return false;
4005  }
4006  return i::StringShape(*str).IsExternalAscii();
4007}
4008
4009
4010void v8::String::VerifyExternalStringResource(
4011    v8::String::ExternalStringResource* value) const {
4012  i::Handle<i::String> str = Utils::OpenHandle(this);
4013  const v8::String::ExternalStringResource* expected;
4014  if (i::StringShape(*str).IsExternalTwoByte()) {
4015    const void* resource =
4016        i::Handle<i::ExternalTwoByteString>::cast(str)->resource();
4017    expected = reinterpret_cast<const ExternalStringResource*>(resource);
4018  } else {
4019    expected = NULL;
4020  }
4021  CHECK_EQ(expected, value);
4022}
4023
4024
4025const v8::String::ExternalAsciiStringResource*
4026      v8::String::GetExternalAsciiStringResource() const {
4027  i::Handle<i::String> str = Utils::OpenHandle(this);
4028  if (IsDeadCheck(str->GetIsolate(),
4029                  "v8::String::GetExternalAsciiStringResource()")) {
4030    return NULL;
4031  }
4032  if (i::StringShape(*str).IsExternalAscii()) {
4033    const void* resource =
4034        i::Handle<i::ExternalAsciiString>::cast(str)->resource();
4035    return reinterpret_cast<const ExternalAsciiStringResource*>(resource);
4036  } else {
4037    return NULL;
4038  }
4039}
4040
4041
4042double Number::Value() const {
4043  if (IsDeadCheck(i::Isolate::Current(), "v8::Number::Value()")) return 0;
4044  i::Handle<i::Object> obj = Utils::OpenHandle(this);
4045  return obj->Number();
4046}
4047
4048
4049bool Boolean::Value() const {
4050  if (IsDeadCheck(i::Isolate::Current(), "v8::Boolean::Value()")) return false;
4051  i::Handle<i::Object> obj = Utils::OpenHandle(this);
4052  return obj->IsTrue();
4053}
4054
4055
4056int64_t Integer::Value() const {
4057  if (IsDeadCheck(i::Isolate::Current(), "v8::Integer::Value()")) return 0;
4058  i::Handle<i::Object> obj = Utils::OpenHandle(this);
4059  if (obj->IsSmi()) {
4060    return i::Smi::cast(*obj)->value();
4061  } else {
4062    return static_cast<int64_t>(obj->Number());
4063  }
4064}
4065
4066
4067int32_t Int32::Value() const {
4068  if (IsDeadCheck(i::Isolate::Current(), "v8::Int32::Value()")) return 0;
4069  i::Handle<i::Object> obj = Utils::OpenHandle(this);
4070  if (obj->IsSmi()) {
4071    return i::Smi::cast(*obj)->value();
4072  } else {
4073    return static_cast<int32_t>(obj->Number());
4074  }
4075}
4076
4077
4078uint32_t Uint32::Value() const {
4079  if (IsDeadCheck(i::Isolate::Current(), "v8::Uint32::Value()")) return 0;
4080  i::Handle<i::Object> obj = Utils::OpenHandle(this);
4081  if (obj->IsSmi()) {
4082    return i::Smi::cast(*obj)->value();
4083  } else {
4084    return static_cast<uint32_t>(obj->Number());
4085  }
4086}
4087
4088
4089int v8::Object::InternalFieldCount() {
4090  i::Handle<i::JSObject> obj = Utils::OpenHandle(this);
4091  if (IsDeadCheck(obj->GetIsolate(), "v8::Object::InternalFieldCount()")) {
4092    return 0;
4093  }
4094  return obj->GetInternalFieldCount();
4095}
4096
4097
4098Local<Value> v8::Object::CheckedGetInternalField(int index) {
4099  i::Handle<i::JSObject> obj = Utils::OpenHandle(this);
4100  if (IsDeadCheck(obj->GetIsolate(), "v8::Object::GetInternalField()")) {
4101    return Local<Value>();
4102  }
4103  if (!ApiCheck(index < obj->GetInternalFieldCount(),
4104                "v8::Object::GetInternalField()",
4105                "Reading internal field out of bounds")) {
4106    return Local<Value>();
4107  }
4108  i::Handle<i::Object> value(obj->GetInternalField(index));
4109  Local<Value> result = Utils::ToLocal(value);
4110#ifdef DEBUG
4111  Local<Value> unchecked = UncheckedGetInternalField(index);
4112  ASSERT(unchecked.IsEmpty() || (unchecked == result));
4113#endif
4114  return result;
4115}
4116
4117
4118void v8::Object::SetInternalField(int index, v8::Handle<Value> value) {
4119  i::Handle<i::JSObject> obj = Utils::OpenHandle(this);
4120  i::Isolate* isolate = obj->GetIsolate();
4121  if (IsDeadCheck(isolate, "v8::Object::SetInternalField()")) {
4122    return;
4123  }
4124  if (!ApiCheck(index < obj->GetInternalFieldCount(),
4125                "v8::Object::SetInternalField()",
4126                "Writing internal field out of bounds")) {
4127    return;
4128  }
4129  ENTER_V8(isolate);
4130  i::Handle<i::Object> val = Utils::OpenHandle(*value);
4131  obj->SetInternalField(index, *val);
4132}
4133
4134
4135static bool CanBeEncodedAsSmi(void* ptr) {
4136  const uintptr_t address = reinterpret_cast<uintptr_t>(ptr);
4137  return ((address & i::kEncodablePointerMask) == 0);
4138}
4139
4140
4141static i::Smi* EncodeAsSmi(void* ptr) {
4142  ASSERT(CanBeEncodedAsSmi(ptr));
4143  const uintptr_t address = reinterpret_cast<uintptr_t>(ptr);
4144  i::Smi* result = reinterpret_cast<i::Smi*>(address << i::kPointerToSmiShift);
4145  ASSERT(i::Internals::HasSmiTag(result));
4146  ASSERT_EQ(result, i::Smi::FromInt(result->value()));
4147  ASSERT_EQ(ptr, i::Internals::GetExternalPointerFromSmi(result));
4148  return result;
4149}
4150
4151
4152void v8::Object::SetPointerInInternalField(int index, void* value) {
4153  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
4154  ENTER_V8(isolate);
4155  if (CanBeEncodedAsSmi(value)) {
4156    Utils::OpenHandle(this)->SetInternalField(index, EncodeAsSmi(value));
4157  } else {
4158    HandleScope scope;
4159    i::Handle<i::Foreign> foreign =
4160        isolate->factory()->NewForeign(
4161            reinterpret_cast<i::Address>(value), i::TENURED);
4162    if (!foreign.is_null())
4163        Utils::OpenHandle(this)->SetInternalField(index, *foreign);
4164  }
4165  ASSERT_EQ(value, GetPointerFromInternalField(index));
4166}
4167
4168
4169// --- E n v i r o n m e n t ---
4170
4171
4172bool v8::V8::Initialize() {
4173  i::Isolate* isolate = i::Isolate::UncheckedCurrent();
4174  if (isolate != NULL && isolate->IsInitialized()) {
4175    return true;
4176  }
4177  return InitializeHelper();
4178}
4179
4180
4181void v8::V8::SetEntropySource(EntropySource source) {
4182  i::V8::SetEntropySource(source);
4183}
4184
4185
4186void v8::V8::SetReturnAddressLocationResolver(
4187      ReturnAddressLocationResolver return_address_resolver) {
4188  i::V8::SetReturnAddressLocationResolver(return_address_resolver);
4189}
4190
4191
4192bool v8::V8::Dispose() {
4193  i::Isolate* isolate = i::Isolate::Current();
4194  if (!ApiCheck(isolate != NULL && isolate->IsDefaultIsolate(),
4195                "v8::V8::Dispose()",
4196                "Use v8::Isolate::Dispose() for a non-default isolate.")) {
4197    return false;
4198  }
4199  i::V8::TearDown();
4200  return true;
4201}
4202
4203
4204HeapStatistics::HeapStatistics(): total_heap_size_(0),
4205                                  total_heap_size_executable_(0),
4206                                  used_heap_size_(0),
4207                                  heap_size_limit_(0) { }
4208
4209
4210void v8::V8::GetHeapStatistics(HeapStatistics* heap_statistics) {
4211  if (!i::Isolate::Current()->IsInitialized()) {
4212    // Isolate is unitialized thus heap is not configured yet.
4213    heap_statistics->set_total_heap_size(0);
4214    heap_statistics->set_total_heap_size_executable(0);
4215    heap_statistics->set_used_heap_size(0);
4216    heap_statistics->set_heap_size_limit(0);
4217    return;
4218  }
4219
4220  i::Heap* heap = i::Isolate::Current()->heap();
4221  heap_statistics->set_total_heap_size(heap->CommittedMemory());
4222  heap_statistics->set_total_heap_size_executable(
4223      heap->CommittedMemoryExecutable());
4224  heap_statistics->set_used_heap_size(heap->SizeOfObjects());
4225  heap_statistics->set_heap_size_limit(heap->MaxReserved());
4226}
4227
4228
4229void v8::V8::VisitExternalResources(ExternalResourceVisitor* visitor) {
4230  i::Isolate* isolate = i::Isolate::Current();
4231  IsDeadCheck(isolate, "v8::V8::VisitExternalResources");
4232  isolate->heap()->VisitExternalResources(visitor);
4233}
4234
4235
4236bool v8::V8::IdleNotification(int hint) {
4237  // Returning true tells the caller that it need not
4238  // continue to call IdleNotification.
4239  i::Isolate* isolate = i::Isolate::Current();
4240  if (isolate == NULL || !isolate->IsInitialized()) return true;
4241  return i::V8::IdleNotification(hint);
4242}
4243
4244
4245void v8::V8::LowMemoryNotification() {
4246  i::Isolate* isolate = i::Isolate::Current();
4247  if (isolate == NULL || !isolate->IsInitialized()) return;
4248  isolate->heap()->CollectAllAvailableGarbage("low memory notification");
4249}
4250
4251
4252int v8::V8::ContextDisposedNotification() {
4253  i::Isolate* isolate = i::Isolate::Current();
4254  if (!isolate->IsInitialized()) return 0;
4255  return isolate->heap()->NotifyContextDisposed();
4256}
4257
4258
4259const char* v8::V8::GetVersion() {
4260  return i::Version::GetVersion();
4261}
4262
4263
4264static i::Handle<i::FunctionTemplateInfo>
4265    EnsureConstructor(i::Handle<i::ObjectTemplateInfo> templ) {
4266  if (templ->constructor()->IsUndefined()) {
4267    Local<FunctionTemplate> constructor = FunctionTemplate::New();
4268    Utils::OpenHandle(*constructor)->set_instance_template(*templ);
4269    templ->set_constructor(*Utils::OpenHandle(*constructor));
4270  }
4271  return i::Handle<i::FunctionTemplateInfo>(
4272    i::FunctionTemplateInfo::cast(templ->constructor()));
4273}
4274
4275
4276Persistent<Context> v8::Context::New(
4277    v8::ExtensionConfiguration* extensions,
4278    v8::Handle<ObjectTemplate> global_template,
4279    v8::Handle<Value> global_object) {
4280  i::Isolate::EnsureDefaultIsolate();
4281  i::Isolate* isolate = i::Isolate::Current();
4282  EnsureInitializedForIsolate(isolate, "v8::Context::New()");
4283  LOG_API(isolate, "Context::New");
4284  ON_BAILOUT(isolate, "v8::Context::New()", return Persistent<Context>());
4285
4286  // Enter V8 via an ENTER_V8 scope.
4287  i::Handle<i::Context> env;
4288  {
4289    ENTER_V8(isolate);
4290    v8::Handle<ObjectTemplate> proxy_template = global_template;
4291    i::Handle<i::FunctionTemplateInfo> proxy_constructor;
4292    i::Handle<i::FunctionTemplateInfo> global_constructor;
4293
4294    if (!global_template.IsEmpty()) {
4295      // Make sure that the global_template has a constructor.
4296      global_constructor =
4297          EnsureConstructor(Utils::OpenHandle(*global_template));
4298
4299      // Create a fresh template for the global proxy object.
4300      proxy_template = ObjectTemplate::New();
4301      proxy_constructor =
4302          EnsureConstructor(Utils::OpenHandle(*proxy_template));
4303
4304      // Set the global template to be the prototype template of
4305      // global proxy template.
4306      proxy_constructor->set_prototype_template(
4307          *Utils::OpenHandle(*global_template));
4308
4309      // Migrate security handlers from global_template to
4310      // proxy_template.  Temporarily removing access check
4311      // information from the global template.
4312      if (!global_constructor->access_check_info()->IsUndefined()) {
4313        proxy_constructor->set_access_check_info(
4314            global_constructor->access_check_info());
4315        proxy_constructor->set_needs_access_check(
4316            global_constructor->needs_access_check());
4317        global_constructor->set_needs_access_check(false);
4318        global_constructor->set_access_check_info(
4319            isolate->heap()->undefined_value());
4320      }
4321    }
4322
4323    // Create the environment.
4324    env = isolate->bootstrapper()->CreateEnvironment(
4325        isolate,
4326        Utils::OpenHandle(*global_object),
4327        proxy_template,
4328        extensions);
4329
4330    // Restore the access check info on the global template.
4331    if (!global_template.IsEmpty()) {
4332      ASSERT(!global_constructor.is_null());
4333      ASSERT(!proxy_constructor.is_null());
4334      global_constructor->set_access_check_info(
4335          proxy_constructor->access_check_info());
4336      global_constructor->set_needs_access_check(
4337          proxy_constructor->needs_access_check());
4338    }
4339    isolate->runtime_profiler()->Reset();
4340  }
4341  // Leave V8.
4342
4343  if (env.is_null()) {
4344    return Persistent<Context>();
4345  }
4346  return Persistent<Context>(Utils::ToLocal(env));
4347}
4348
4349
4350void v8::Context::SetSecurityToken(Handle<Value> token) {
4351  i::Isolate* isolate = i::Isolate::Current();
4352  if (IsDeadCheck(isolate, "v8::Context::SetSecurityToken()")) {
4353    return;
4354  }
4355  ENTER_V8(isolate);
4356  i::Handle<i::Context> env = Utils::OpenHandle(this);
4357  i::Handle<i::Object> token_handle = Utils::OpenHandle(*token);
4358  env->set_security_token(*token_handle);
4359}
4360
4361
4362void v8::Context::UseDefaultSecurityToken() {
4363  i::Isolate* isolate = i::Isolate::Current();
4364  if (IsDeadCheck(isolate,
4365                  "v8::Context::UseDefaultSecurityToken()")) {
4366    return;
4367  }
4368  ENTER_V8(isolate);
4369  i::Handle<i::Context> env = Utils::OpenHandle(this);
4370  env->set_security_token(env->global());
4371}
4372
4373
4374Handle<Value> v8::Context::GetSecurityToken() {
4375  i::Isolate* isolate = i::Isolate::Current();
4376  if (IsDeadCheck(isolate, "v8::Context::GetSecurityToken()")) {
4377    return Handle<Value>();
4378  }
4379  i::Handle<i::Context> env = Utils::OpenHandle(this);
4380  i::Object* security_token = env->security_token();
4381  i::Handle<i::Object> token_handle(security_token);
4382  return Utils::ToLocal(token_handle);
4383}
4384
4385
4386bool Context::HasOutOfMemoryException() {
4387  i::Handle<i::Context> env = Utils::OpenHandle(this);
4388  return env->has_out_of_memory();
4389}
4390
4391
4392bool Context::InContext() {
4393  return i::Isolate::Current()->context() != NULL;
4394}
4395
4396
4397v8::Local<v8::Context> Context::GetEntered() {
4398  i::Isolate* isolate = i::Isolate::Current();
4399  if (!EnsureInitializedForIsolate(isolate, "v8::Context::GetEntered()")) {
4400    return Local<Context>();
4401  }
4402  i::Handle<i::Object> last =
4403      isolate->handle_scope_implementer()->LastEnteredContext();
4404  if (last.is_null()) return Local<Context>();
4405  i::Handle<i::Context> context = i::Handle<i::Context>::cast(last);
4406  return Utils::ToLocal(context);
4407}
4408
4409
4410v8::Local<v8::Context> Context::GetCurrent() {
4411  i::Isolate* isolate = i::Isolate::Current();
4412  if (IsDeadCheck(isolate, "v8::Context::GetCurrent()")) {
4413    return Local<Context>();
4414  }
4415  i::Handle<i::Object> current = isolate->global_context();
4416  if (current.is_null()) return Local<Context>();
4417  i::Handle<i::Context> context = i::Handle<i::Context>::cast(current);
4418  return Utils::ToLocal(context);
4419}
4420
4421
4422v8::Local<v8::Context> Context::GetCalling() {
4423  i::Isolate* isolate = i::Isolate::Current();
4424  if (IsDeadCheck(isolate, "v8::Context::GetCalling()")) {
4425    return Local<Context>();
4426  }
4427  i::Handle<i::Object> calling =
4428      isolate->GetCallingGlobalContext();
4429  if (calling.is_null()) return Local<Context>();
4430  i::Handle<i::Context> context = i::Handle<i::Context>::cast(calling);
4431  return Utils::ToLocal(context);
4432}
4433
4434
4435v8::Local<v8::Object> Context::Global() {
4436  if (IsDeadCheck(i::Isolate::Current(), "v8::Context::Global()")) {
4437    return Local<v8::Object>();
4438  }
4439  i::Object** ctx = reinterpret_cast<i::Object**>(this);
4440  i::Handle<i::Context> context =
4441      i::Handle<i::Context>::cast(i::Handle<i::Object>(ctx));
4442  i::Handle<i::Object> global(context->global_proxy());
4443  return Utils::ToLocal(i::Handle<i::JSObject>::cast(global));
4444}
4445
4446
4447void Context::DetachGlobal() {
4448  i::Isolate* isolate = i::Isolate::Current();
4449  if (IsDeadCheck(isolate, "v8::Context::DetachGlobal()")) return;
4450  ENTER_V8(isolate);
4451  i::Object** ctx = reinterpret_cast<i::Object**>(this);
4452  i::Handle<i::Context> context =
4453      i::Handle<i::Context>::cast(i::Handle<i::Object>(ctx));
4454  isolate->bootstrapper()->DetachGlobal(context);
4455}
4456
4457
4458void Context::ReattachGlobal(Handle<Object> global_object) {
4459  i::Isolate* isolate = i::Isolate::Current();
4460  if (IsDeadCheck(isolate, "v8::Context::ReattachGlobal()")) return;
4461  ENTER_V8(isolate);
4462  i::Object** ctx = reinterpret_cast<i::Object**>(this);
4463  i::Handle<i::Context> context =
4464      i::Handle<i::Context>::cast(i::Handle<i::Object>(ctx));
4465  isolate->bootstrapper()->ReattachGlobal(
4466      context,
4467      Utils::OpenHandle(*global_object));
4468}
4469
4470
4471void Context::AllowCodeGenerationFromStrings(bool allow) {
4472  i::Isolate* isolate = i::Isolate::Current();
4473  if (IsDeadCheck(isolate, "v8::Context::AllowCodeGenerationFromStrings()")) {
4474    return;
4475  }
4476  ENTER_V8(isolate);
4477  i::Object** ctx = reinterpret_cast<i::Object**>(this);
4478  i::Handle<i::Context> context =
4479      i::Handle<i::Context>::cast(i::Handle<i::Object>(ctx));
4480  context->set_allow_code_gen_from_strings(
4481      allow ? isolate->heap()->true_value() : isolate->heap()->false_value());
4482}
4483
4484
4485bool Context::IsCodeGenerationFromStringsAllowed() {
4486  i::Isolate* isolate = i::Isolate::Current();
4487  if (IsDeadCheck(isolate,
4488                  "v8::Context::IsCodeGenerationFromStringsAllowed()")) {
4489    return false;
4490  }
4491  ENTER_V8(isolate);
4492  i::Object** ctx = reinterpret_cast<i::Object**>(this);
4493  i::Handle<i::Context> context =
4494      i::Handle<i::Context>::cast(i::Handle<i::Object>(ctx));
4495  return !context->allow_code_gen_from_strings()->IsFalse();
4496}
4497
4498
4499void V8::SetWrapperClassId(i::Object** global_handle, uint16_t class_id) {
4500  i::GlobalHandles::SetWrapperClassId(global_handle, class_id);
4501}
4502
4503
4504Local<v8::Object> ObjectTemplate::NewInstance() {
4505  i::Isolate* isolate = i::Isolate::Current();
4506  ON_BAILOUT(isolate, "v8::ObjectTemplate::NewInstance()",
4507             return Local<v8::Object>());
4508  LOG_API(isolate, "ObjectTemplate::NewInstance");
4509  ENTER_V8(isolate);
4510  EXCEPTION_PREAMBLE(isolate);
4511  i::Handle<i::Object> obj =
4512      i::Execution::InstantiateObject(Utils::OpenHandle(this),
4513                                      &has_pending_exception);
4514  EXCEPTION_BAILOUT_CHECK(isolate, Local<v8::Object>());
4515  return Utils::ToLocal(i::Handle<i::JSObject>::cast(obj));
4516}
4517
4518
4519Local<v8::Function> FunctionTemplate::GetFunction() {
4520  i::Isolate* isolate = i::Isolate::Current();
4521  ON_BAILOUT(isolate, "v8::FunctionTemplate::GetFunction()",
4522             return Local<v8::Function>());
4523  LOG_API(isolate, "FunctionTemplate::GetFunction");
4524  ENTER_V8(isolate);
4525  EXCEPTION_PREAMBLE(isolate);
4526  i::Handle<i::Object> obj =
4527      i::Execution::InstantiateFunction(Utils::OpenHandle(this),
4528                                        &has_pending_exception);
4529  EXCEPTION_BAILOUT_CHECK(isolate, Local<v8::Function>());
4530  return Utils::ToLocal(i::Handle<i::JSFunction>::cast(obj));
4531}
4532
4533
4534bool FunctionTemplate::HasInstance(v8::Handle<v8::Value> value) {
4535  ON_BAILOUT(i::Isolate::Current(), "v8::FunctionTemplate::HasInstanceOf()",
4536             return false);
4537  i::Object* obj = *Utils::OpenHandle(*value);
4538  return obj->IsInstanceOf(*Utils::OpenHandle(this));
4539}
4540
4541
4542static Local<External> ExternalNewImpl(void* data) {
4543  return Utils::ToLocal(FACTORY->NewForeign(static_cast<i::Address>(data)));
4544}
4545
4546static void* ExternalValueImpl(i::Handle<i::Object> obj) {
4547  return reinterpret_cast<void*>(i::Foreign::cast(*obj)->foreign_address());
4548}
4549
4550
4551Local<Value> v8::External::Wrap(void* data) {
4552  i::Isolate* isolate = i::Isolate::Current();
4553  STATIC_ASSERT(sizeof(data) == sizeof(i::Address));
4554  EnsureInitializedForIsolate(isolate, "v8::External::Wrap()");
4555  LOG_API(isolate, "External::Wrap");
4556  ENTER_V8(isolate);
4557
4558  v8::Local<v8::Value> result = CanBeEncodedAsSmi(data)
4559      ? Utils::ToLocal(i::Handle<i::Object>(EncodeAsSmi(data)))
4560      : v8::Local<v8::Value>(ExternalNewImpl(data));
4561
4562  ASSERT_EQ(data, Unwrap(result));
4563  return result;
4564}
4565
4566
4567void* v8::Object::SlowGetPointerFromInternalField(int index) {
4568  i::Handle<i::JSObject> obj = Utils::OpenHandle(this);
4569  i::Object* value = obj->GetInternalField(index);
4570  if (value->IsSmi()) {
4571    return i::Internals::GetExternalPointerFromSmi(value);
4572  } else if (value->IsForeign()) {
4573    return reinterpret_cast<void*>(i::Foreign::cast(value)->foreign_address());
4574  } else {
4575    return NULL;
4576  }
4577}
4578
4579
4580void* v8::External::FullUnwrap(v8::Handle<v8::Value> wrapper) {
4581  if (IsDeadCheck(i::Isolate::Current(), "v8::External::Unwrap()")) return 0;
4582  i::Handle<i::Object> obj = Utils::OpenHandle(*wrapper);
4583  void* result;
4584  if (obj->IsSmi()) {
4585    result = i::Internals::GetExternalPointerFromSmi(*obj);
4586  } else if (obj->IsForeign()) {
4587    result = ExternalValueImpl(obj);
4588  } else {
4589    result = NULL;
4590  }
4591  ASSERT_EQ(result, QuickUnwrap(wrapper));
4592  return result;
4593}
4594
4595
4596Local<External> v8::External::New(void* data) {
4597  STATIC_ASSERT(sizeof(data) == sizeof(i::Address));
4598  i::Isolate* isolate = i::Isolate::Current();
4599  EnsureInitializedForIsolate(isolate, "v8::External::New()");
4600  LOG_API(isolate, "External::New");
4601  ENTER_V8(isolate);
4602  return ExternalNewImpl(data);
4603}
4604
4605
4606void* External::Value() const {
4607  if (IsDeadCheck(i::Isolate::Current(), "v8::External::Value()")) return 0;
4608  i::Handle<i::Object> obj = Utils::OpenHandle(this);
4609  return ExternalValueImpl(obj);
4610}
4611
4612
4613Local<String> v8::String::Empty() {
4614  i::Isolate* isolate = i::Isolate::Current();
4615  EnsureInitializedForIsolate(isolate, "v8::String::Empty()");
4616  LOG_API(isolate, "String::Empty()");
4617  return Utils::ToLocal(isolate->factory()->empty_symbol());
4618}
4619
4620
4621Local<String> v8::String::New(const char* data, int length) {
4622  i::Isolate* isolate = i::Isolate::Current();
4623  EnsureInitializedForIsolate(isolate, "v8::String::New()");
4624  LOG_API(isolate, "String::New(char)");
4625  if (length == 0) return Empty();
4626  ENTER_V8(isolate);
4627  if (length == -1) length = i::StrLength(data);
4628  i::Handle<i::String> result =
4629      isolate->factory()->NewStringFromUtf8(
4630          i::Vector<const char>(data, length));
4631  return Utils::ToLocal(result);
4632}
4633
4634
4635Local<String> v8::String::Concat(Handle<String> left, Handle<String> right) {
4636  i::Handle<i::String> left_string = Utils::OpenHandle(*left);
4637  i::Isolate* isolate = left_string->GetIsolate();
4638  EnsureInitializedForIsolate(isolate, "v8::String::New()");
4639  LOG_API(isolate, "String::New(char)");
4640  ENTER_V8(isolate);
4641  i::Handle<i::String> right_string = Utils::OpenHandle(*right);
4642  i::Handle<i::String> result = isolate->factory()->NewConsString(left_string,
4643                                                                  right_string);
4644  return Utils::ToLocal(result);
4645}
4646
4647
4648Local<String> v8::String::NewUndetectable(const char* data, int length) {
4649  i::Isolate* isolate = i::Isolate::Current();
4650  EnsureInitializedForIsolate(isolate, "v8::String::NewUndetectable()");
4651  LOG_API(isolate, "String::NewUndetectable(char)");
4652  ENTER_V8(isolate);
4653  if (length == -1) length = i::StrLength(data);
4654  i::Handle<i::String> result =
4655      isolate->factory()->NewStringFromUtf8(
4656          i::Vector<const char>(data, length));
4657  result->MarkAsUndetectable();
4658  return Utils::ToLocal(result);
4659}
4660
4661
4662static int TwoByteStringLength(const uint16_t* data) {
4663  int length = 0;
4664  while (data[length] != '\0') length++;
4665  return length;
4666}
4667
4668
4669Local<String> v8::String::New(const uint16_t* data, int length) {
4670  i::Isolate* isolate = i::Isolate::Current();
4671  EnsureInitializedForIsolate(isolate, "v8::String::New()");
4672  LOG_API(isolate, "String::New(uint16_)");
4673  if (length == 0) return Empty();
4674  ENTER_V8(isolate);
4675  if (length == -1) length = TwoByteStringLength(data);
4676  i::Handle<i::String> result =
4677      isolate->factory()->NewStringFromTwoByte(
4678          i::Vector<const uint16_t>(data, length));
4679  return Utils::ToLocal(result);
4680}
4681
4682
4683Local<String> v8::String::NewUndetectable(const uint16_t* data, int length) {
4684  i::Isolate* isolate = i::Isolate::Current();
4685  EnsureInitializedForIsolate(isolate, "v8::String::NewUndetectable()");
4686  LOG_API(isolate, "String::NewUndetectable(uint16_)");
4687  ENTER_V8(isolate);
4688  if (length == -1) length = TwoByteStringLength(data);
4689  i::Handle<i::String> result =
4690      isolate->factory()->NewStringFromTwoByte(
4691          i::Vector<const uint16_t>(data, length));
4692  result->MarkAsUndetectable();
4693  return Utils::ToLocal(result);
4694}
4695
4696
4697i::Handle<i::String> NewExternalStringHandle(i::Isolate* isolate,
4698      v8::String::ExternalStringResource* resource) {
4699  i::Handle<i::String> result =
4700      isolate->factory()->NewExternalStringFromTwoByte(resource);
4701  return result;
4702}
4703
4704
4705i::Handle<i::String> NewExternalAsciiStringHandle(i::Isolate* isolate,
4706      v8::String::ExternalAsciiStringResource* resource) {
4707  i::Handle<i::String> result =
4708      isolate->factory()->NewExternalStringFromAscii(resource);
4709  return result;
4710}
4711
4712
4713Local<String> v8::String::NewExternal(
4714      v8::String::ExternalStringResource* resource) {
4715  i::Isolate* isolate = i::Isolate::Current();
4716  EnsureInitializedForIsolate(isolate, "v8::String::NewExternal()");
4717  LOG_API(isolate, "String::NewExternal");
4718  ENTER_V8(isolate);
4719  i::Handle<i::String> result = NewExternalStringHandle(isolate, resource);
4720  isolate->heap()->external_string_table()->AddString(*result);
4721  return Utils::ToLocal(result);
4722}
4723
4724
4725bool v8::String::MakeExternal(v8::String::ExternalStringResource* resource) {
4726  i::Handle<i::String> obj = Utils::OpenHandle(this);
4727  i::Isolate* isolate = obj->GetIsolate();
4728  if (IsDeadCheck(isolate, "v8::String::MakeExternal()")) return false;
4729  if (i::StringShape(*obj).IsExternalTwoByte()) {
4730    return false;  // Already an external string.
4731  }
4732  ENTER_V8(isolate);
4733  if (isolate->string_tracker()->IsFreshUnusedString(obj)) {
4734    return false;
4735  }
4736  if (isolate->heap()->IsInGCPostProcessing()) {
4737    return false;
4738  }
4739  bool result = obj->MakeExternal(resource);
4740  if (result && !obj->IsSymbol()) {
4741    isolate->heap()->external_string_table()->AddString(*obj);
4742  }
4743  return result;
4744}
4745
4746
4747Local<String> v8::String::NewExternal(
4748      v8::String::ExternalAsciiStringResource* resource) {
4749  i::Isolate* isolate = i::Isolate::Current();
4750  EnsureInitializedForIsolate(isolate, "v8::String::NewExternal()");
4751  LOG_API(isolate, "String::NewExternal");
4752  ENTER_V8(isolate);
4753  i::Handle<i::String> result = NewExternalAsciiStringHandle(isolate, resource);
4754  isolate->heap()->external_string_table()->AddString(*result);
4755  return Utils::ToLocal(result);
4756}
4757
4758
4759bool v8::String::MakeExternal(
4760    v8::String::ExternalAsciiStringResource* resource) {
4761  i::Handle<i::String> obj = Utils::OpenHandle(this);
4762  i::Isolate* isolate = obj->GetIsolate();
4763  if (IsDeadCheck(isolate, "v8::String::MakeExternal()")) return false;
4764  if (i::StringShape(*obj).IsExternalTwoByte()) {
4765    return false;  // Already an external string.
4766  }
4767  ENTER_V8(isolate);
4768  if (isolate->string_tracker()->IsFreshUnusedString(obj)) {
4769    return false;
4770  }
4771  if (isolate->heap()->IsInGCPostProcessing()) {
4772    return false;
4773  }
4774  bool result = obj->MakeExternal(resource);
4775  if (result && !obj->IsSymbol()) {
4776    isolate->heap()->external_string_table()->AddString(*obj);
4777  }
4778  return result;
4779}
4780
4781
4782bool v8::String::CanMakeExternal() {
4783  if (!internal::FLAG_clever_optimizations) return false;
4784  i::Handle<i::String> obj = Utils::OpenHandle(this);
4785  i::Isolate* isolate = obj->GetIsolate();
4786  if (IsDeadCheck(isolate, "v8::String::CanMakeExternal()")) return false;
4787  if (isolate->string_tracker()->IsFreshUnusedString(obj)) return false;
4788  int size = obj->Size();  // Byte size of the original string.
4789  if (size < i::ExternalString::kShortSize) return false;
4790  i::StringShape shape(*obj);
4791  return !shape.IsExternal();
4792}
4793
4794
4795Local<v8::Object> v8::Object::New() {
4796  i::Isolate* isolate = i::Isolate::Current();
4797  EnsureInitializedForIsolate(isolate, "v8::Object::New()");
4798  LOG_API(isolate, "Object::New");
4799  ENTER_V8(isolate);
4800  i::Handle<i::JSObject> obj =
4801      isolate->factory()->NewJSObject(isolate->object_function());
4802  return Utils::ToLocal(obj);
4803}
4804
4805
4806Local<v8::Value> v8::NumberObject::New(double value) {
4807  i::Isolate* isolate = i::Isolate::Current();
4808  EnsureInitializedForIsolate(isolate, "v8::NumberObject::New()");
4809  LOG_API(isolate, "NumberObject::New");
4810  ENTER_V8(isolate);
4811  i::Handle<i::Object> number = isolate->factory()->NewNumber(value);
4812  i::Handle<i::Object> obj = isolate->factory()->ToObject(number);
4813  return Utils::ToLocal(obj);
4814}
4815
4816
4817double v8::NumberObject::NumberValue() const {
4818  i::Isolate* isolate = i::Isolate::Current();
4819  if (IsDeadCheck(isolate, "v8::NumberObject::NumberValue()")) return 0;
4820  LOG_API(isolate, "NumberObject::NumberValue");
4821  i::Handle<i::Object> obj = Utils::OpenHandle(this);
4822  i::Handle<i::JSValue> jsvalue = i::Handle<i::JSValue>::cast(obj);
4823  return jsvalue->value()->Number();
4824}
4825
4826
4827Local<v8::Value> v8::BooleanObject::New(bool value) {
4828  i::Isolate* isolate = i::Isolate::Current();
4829  EnsureInitializedForIsolate(isolate, "v8::BooleanObject::New()");
4830  LOG_API(isolate, "BooleanObject::New");
4831  ENTER_V8(isolate);
4832  i::Handle<i::Object> boolean(value ? isolate->heap()->true_value()
4833                                     : isolate->heap()->false_value());
4834  i::Handle<i::Object> obj = isolate->factory()->ToObject(boolean);
4835  return Utils::ToLocal(obj);
4836}
4837
4838
4839bool v8::BooleanObject::BooleanValue() const {
4840  i::Isolate* isolate = i::Isolate::Current();
4841  if (IsDeadCheck(isolate, "v8::BooleanObject::BooleanValue()")) return 0;
4842  LOG_API(isolate, "BooleanObject::BooleanValue");
4843  i::Handle<i::Object> obj = Utils::OpenHandle(this);
4844  i::Handle<i::JSValue> jsvalue = i::Handle<i::JSValue>::cast(obj);
4845  return jsvalue->value()->IsTrue();
4846}
4847
4848
4849Local<v8::Value> v8::StringObject::New(Handle<String> value) {
4850  i::Isolate* isolate = i::Isolate::Current();
4851  EnsureInitializedForIsolate(isolate, "v8::StringObject::New()");
4852  LOG_API(isolate, "StringObject::New");
4853  ENTER_V8(isolate);
4854  i::Handle<i::Object> obj =
4855      isolate->factory()->ToObject(Utils::OpenHandle(*value));
4856  return Utils::ToLocal(obj);
4857}
4858
4859
4860Local<v8::String> v8::StringObject::StringValue() const {
4861  i::Isolate* isolate = i::Isolate::Current();
4862  if (IsDeadCheck(isolate, "v8::StringObject::StringValue()")) {
4863    return Local<v8::String>();
4864  }
4865  LOG_API(isolate, "StringObject::StringValue");
4866  i::Handle<i::Object> obj = Utils::OpenHandle(this);
4867  i::Handle<i::JSValue> jsvalue = i::Handle<i::JSValue>::cast(obj);
4868  return Utils::ToLocal(
4869      i::Handle<i::String>(i::String::cast(jsvalue->value())));
4870}
4871
4872
4873Local<v8::Value> v8::Date::New(double time) {
4874  i::Isolate* isolate = i::Isolate::Current();
4875  EnsureInitializedForIsolate(isolate, "v8::Date::New()");
4876  LOG_API(isolate, "Date::New");
4877  if (isnan(time)) {
4878    // Introduce only canonical NaN value into the VM, to avoid signaling NaNs.
4879    time = i::OS::nan_value();
4880  }
4881  ENTER_V8(isolate);
4882  EXCEPTION_PREAMBLE(isolate);
4883  i::Handle<i::Object> obj =
4884      i::Execution::NewDate(time, &has_pending_exception);
4885  EXCEPTION_BAILOUT_CHECK(isolate, Local<v8::Value>());
4886  return Utils::ToLocal(obj);
4887}
4888
4889
4890double v8::Date::NumberValue() const {
4891  i::Isolate* isolate = i::Isolate::Current();
4892  if (IsDeadCheck(isolate, "v8::Date::NumberValue()")) return 0;
4893  LOG_API(isolate, "Date::NumberValue");
4894  i::Handle<i::Object> obj = Utils::OpenHandle(this);
4895  i::Handle<i::JSDate> jsdate = i::Handle<i::JSDate>::cast(obj);
4896  return jsdate->value()->Number();
4897}
4898
4899
4900void v8::Date::DateTimeConfigurationChangeNotification() {
4901  i::Isolate* isolate = i::Isolate::Current();
4902  ON_BAILOUT(isolate, "v8::Date::DateTimeConfigurationChangeNotification()",
4903             return);
4904  LOG_API(isolate, "Date::DateTimeConfigurationChangeNotification");
4905  ENTER_V8(isolate);
4906
4907  isolate->date_cache()->ResetDateCache();
4908
4909  i::HandleScope scope(isolate);
4910  // Get the function ResetDateCache (defined in date.js).
4911  i::Handle<i::String> func_name_str =
4912      isolate->factory()->LookupAsciiSymbol("ResetDateCache");
4913  i::MaybeObject* result =
4914      isolate->js_builtins_object()->GetProperty(*func_name_str);
4915  i::Object* object_func;
4916  if (!result->ToObject(&object_func)) {
4917    return;
4918  }
4919
4920  if (object_func->IsJSFunction()) {
4921    i::Handle<i::JSFunction> func =
4922        i::Handle<i::JSFunction>(i::JSFunction::cast(object_func));
4923
4924    // Call ResetDateCache(0 but expect no exceptions:
4925    bool caught_exception = false;
4926    i::Execution::TryCall(func,
4927                          isolate->js_builtins_object(),
4928                          0,
4929                          NULL,
4930                          &caught_exception);
4931  }
4932}
4933
4934
4935static i::Handle<i::String> RegExpFlagsToString(RegExp::Flags flags) {
4936  char flags_buf[3];
4937  int num_flags = 0;
4938  if ((flags & RegExp::kGlobal) != 0) flags_buf[num_flags++] = 'g';
4939  if ((flags & RegExp::kMultiline) != 0) flags_buf[num_flags++] = 'm';
4940  if ((flags & RegExp::kIgnoreCase) != 0) flags_buf[num_flags++] = 'i';
4941  ASSERT(num_flags <= static_cast<int>(ARRAY_SIZE(flags_buf)));
4942  return FACTORY->LookupSymbol(
4943      i::Vector<const char>(flags_buf, num_flags));
4944}
4945
4946
4947Local<v8::RegExp> v8::RegExp::New(Handle<String> pattern,
4948                                  Flags flags) {
4949  i::Isolate* isolate = Utils::OpenHandle(*pattern)->GetIsolate();
4950  EnsureInitializedForIsolate(isolate, "v8::RegExp::New()");
4951  LOG_API(isolate, "RegExp::New");
4952  ENTER_V8(isolate);
4953  EXCEPTION_PREAMBLE(isolate);
4954  i::Handle<i::JSRegExp> obj = i::Execution::NewJSRegExp(
4955      Utils::OpenHandle(*pattern),
4956      RegExpFlagsToString(flags),
4957      &has_pending_exception);
4958  EXCEPTION_BAILOUT_CHECK(isolate, Local<v8::RegExp>());
4959  return Utils::ToLocal(i::Handle<i::JSRegExp>::cast(obj));
4960}
4961
4962
4963Local<v8::String> v8::RegExp::GetSource() const {
4964  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
4965  if (IsDeadCheck(isolate, "v8::RegExp::GetSource()")) {
4966    return Local<v8::String>();
4967  }
4968  i::Handle<i::JSRegExp> obj = Utils::OpenHandle(this);
4969  return Utils::ToLocal(i::Handle<i::String>(obj->Pattern()));
4970}
4971
4972
4973// Assert that the static flags cast in GetFlags is valid.
4974#define REGEXP_FLAG_ASSERT_EQ(api_flag, internal_flag)        \
4975  STATIC_ASSERT(static_cast<int>(v8::RegExp::api_flag) ==     \
4976                static_cast<int>(i::JSRegExp::internal_flag))
4977REGEXP_FLAG_ASSERT_EQ(kNone, NONE);
4978REGEXP_FLAG_ASSERT_EQ(kGlobal, GLOBAL);
4979REGEXP_FLAG_ASSERT_EQ(kIgnoreCase, IGNORE_CASE);
4980REGEXP_FLAG_ASSERT_EQ(kMultiline, MULTILINE);
4981#undef REGEXP_FLAG_ASSERT_EQ
4982
4983v8::RegExp::Flags v8::RegExp::GetFlags() const {
4984  if (IsDeadCheck(i::Isolate::Current(), "v8::RegExp::GetFlags()")) {
4985    return v8::RegExp::kNone;
4986  }
4987  i::Handle<i::JSRegExp> obj = Utils::OpenHandle(this);
4988  return static_cast<RegExp::Flags>(obj->GetFlags().value());
4989}
4990
4991
4992Local<v8::Array> v8::Array::New(int length) {
4993  i::Isolate* isolate = i::Isolate::Current();
4994  EnsureInitializedForIsolate(isolate, "v8::Array::New()");
4995  LOG_API(isolate, "Array::New");
4996  ENTER_V8(isolate);
4997  int real_length = length > 0 ? length : 0;
4998  i::Handle<i::JSArray> obj = isolate->factory()->NewJSArray(real_length);
4999  i::Handle<i::Object> length_obj =
5000      isolate->factory()->NewNumberFromInt(real_length);
5001  obj->set_length(*length_obj);
5002  return Utils::ToLocal(obj);
5003}
5004
5005
5006uint32_t v8::Array::Length() const {
5007  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
5008  if (IsDeadCheck(isolate, "v8::Array::Length()")) return 0;
5009  i::Handle<i::JSArray> obj = Utils::OpenHandle(this);
5010  i::Object* length = obj->length();
5011  if (length->IsSmi()) {
5012    return i::Smi::cast(length)->value();
5013  } else {
5014    return static_cast<uint32_t>(length->Number());
5015  }
5016}
5017
5018
5019Local<Object> Array::CloneElementAt(uint32_t index) {
5020  i::Isolate* isolate = Utils::OpenHandle(this)->GetIsolate();
5021  ON_BAILOUT(isolate, "v8::Array::CloneElementAt()", return Local<Object>());
5022  i::Handle<i::JSObject> self = Utils::OpenHandle(this);
5023  if (!self->HasFastElements()) {
5024    return Local<Object>();
5025  }
5026  i::FixedArray* elms = i::FixedArray::cast(self->elements());
5027  i::Object* paragon = elms->get(index);
5028  if (!paragon->IsJSObject()) {
5029    return Local<Object>();
5030  }
5031  i::Handle<i::JSObject> paragon_handle(i::JSObject::cast(paragon));
5032  EXCEPTION_PREAMBLE(isolate);
5033  ENTER_V8(isolate);
5034  i::Handle<i::JSObject> result = i::Copy(paragon_handle);
5035  has_pending_exception = result.is_null();
5036  EXCEPTION_BAILOUT_CHECK(isolate, Local<Object>());
5037  return Utils::ToLocal(result);
5038}
5039
5040
5041Local<String> v8::String::NewSymbol(const char* data, int length) {
5042  i::Isolate* isolate = i::Isolate::Current();
5043  EnsureInitializedForIsolate(isolate, "v8::String::NewSymbol()");
5044  LOG_API(isolate, "String::NewSymbol(char)");
5045  ENTER_V8(isolate);
5046  if (length == -1) length = i::StrLength(data);
5047  i::Handle<i::String> result =
5048      isolate->factory()->LookupSymbol(i::Vector<const char>(data, length));
5049  return Utils::ToLocal(result);
5050}
5051
5052
5053Local<Number> v8::Number::New(double value) {
5054  i::Isolate* isolate = i::Isolate::Current();
5055  EnsureInitializedForIsolate(isolate, "v8::Number::New()");
5056  if (isnan(value)) {
5057    // Introduce only canonical NaN value into the VM, to avoid signaling NaNs.
5058    value = i::OS::nan_value();
5059  }
5060  ENTER_V8(isolate);
5061  i::Handle<i::Object> result = isolate->factory()->NewNumber(value);
5062  return Utils::NumberToLocal(result);
5063}
5064
5065
5066Local<Integer> v8::Integer::New(int32_t value) {
5067  i::Isolate* isolate = i::Isolate::UncheckedCurrent();
5068  EnsureInitializedForIsolate(isolate, "v8::Integer::New()");
5069  if (i::Smi::IsValid(value)) {
5070    return Utils::IntegerToLocal(i::Handle<i::Object>(i::Smi::FromInt(value),
5071                                                      isolate));
5072  }
5073  ENTER_V8(isolate);
5074  i::Handle<i::Object> result = isolate->factory()->NewNumber(value);
5075  return Utils::IntegerToLocal(result);
5076}
5077
5078
5079Local<Integer> Integer::NewFromUnsigned(uint32_t value) {
5080  bool fits_into_int32_t = (value & (1 << 31)) == 0;
5081  if (fits_into_int32_t) {
5082    return Integer::New(static_cast<int32_t>(value));
5083  }
5084  i::Isolate* isolate = i::Isolate::Current();
5085  ENTER_V8(isolate);
5086  i::Handle<i::Object> result = isolate->factory()->NewNumber(value);
5087  return Utils::IntegerToLocal(result);
5088}
5089
5090
5091void V8::IgnoreOutOfMemoryException() {
5092  EnterIsolateIfNeeded()->set_ignore_out_of_memory(true);
5093}
5094
5095
5096bool V8::AddMessageListener(MessageCallback that, Handle<Value> data) {
5097  i::Isolate* isolate = i::Isolate::Current();
5098  EnsureInitializedForIsolate(isolate, "v8::V8::AddMessageListener()");
5099  ON_BAILOUT(isolate, "v8::V8::AddMessageListener()", return false);
5100  ENTER_V8(isolate);
5101  i::HandleScope scope(isolate);
5102  NeanderArray listeners(isolate->factory()->message_listeners());
5103  NeanderObject obj(2);
5104  obj.set(0, *isolate->factory()->NewForeign(FUNCTION_ADDR(that)));
5105  obj.set(1, data.IsEmpty() ?
5106             isolate->heap()->undefined_value() :
5107             *Utils::OpenHandle(*data));
5108  listeners.add(obj.value());
5109  return true;
5110}
5111
5112
5113void V8::RemoveMessageListeners(MessageCallback that) {
5114  i::Isolate* isolate = i::Isolate::Current();
5115  EnsureInitializedForIsolate(isolate, "v8::V8::RemoveMessageListener()");
5116  ON_BAILOUT(isolate, "v8::V8::RemoveMessageListeners()", return);
5117  ENTER_V8(isolate);
5118  i::HandleScope scope(isolate);
5119  NeanderArray listeners(isolate->factory()->message_listeners());
5120  for (int i = 0; i < listeners.length(); i++) {
5121    if (listeners.get(i)->IsUndefined()) continue;  // skip deleted ones
5122
5123    NeanderObject listener(i::JSObject::cast(listeners.get(i)));
5124    i::Handle<i::Foreign> callback_obj(i::Foreign::cast(listener.get(0)));
5125    if (callback_obj->foreign_address() == FUNCTION_ADDR(that)) {
5126      listeners.set(i, isolate->heap()->undefined_value());
5127    }
5128  }
5129}
5130
5131
5132void V8::SetCaptureStackTraceForUncaughtExceptions(
5133      bool capture,
5134      int frame_limit,
5135      StackTrace::StackTraceOptions options) {
5136  i::Isolate::Current()->SetCaptureStackTraceForUncaughtExceptions(
5137      capture,
5138      frame_limit,
5139      options);
5140}
5141
5142
5143void V8::SetCounterFunction(CounterLookupCallback callback) {
5144  i::Isolate* isolate = EnterIsolateIfNeeded();
5145  if (IsDeadCheck(isolate, "v8::V8::SetCounterFunction()")) return;
5146  isolate->stats_table()->SetCounterFunction(callback);
5147}
5148
5149void V8::SetCreateHistogramFunction(CreateHistogramCallback callback) {
5150  i::Isolate* isolate = EnterIsolateIfNeeded();
5151  if (IsDeadCheck(isolate, "v8::V8::SetCreateHistogramFunction()")) return;
5152  isolate->stats_table()->SetCreateHistogramFunction(callback);
5153}
5154
5155void V8::SetAddHistogramSampleFunction(AddHistogramSampleCallback callback) {
5156  i::Isolate* isolate = EnterIsolateIfNeeded();
5157  if (IsDeadCheck(isolate, "v8::V8::SetAddHistogramSampleFunction()")) return;
5158  isolate->stats_table()->
5159      SetAddHistogramSampleFunction(callback);
5160}
5161
5162void V8::EnableSlidingStateWindow() {
5163  i::Isolate* isolate = i::Isolate::Current();
5164  if (IsDeadCheck(isolate, "v8::V8::EnableSlidingStateWindow()")) return;
5165  isolate->logger()->EnableSlidingStateWindow();
5166}
5167
5168
5169void V8::SetFailedAccessCheckCallbackFunction(
5170      FailedAccessCheckCallback callback) {
5171  i::Isolate* isolate = i::Isolate::Current();
5172  if (IsDeadCheck(isolate, "v8::V8::SetFailedAccessCheckCallbackFunction()")) {
5173    return;
5174  }
5175  isolate->SetFailedAccessCheckCallback(callback);
5176}
5177
5178void V8::AddObjectGroup(Persistent<Value>* objects,
5179                        size_t length,
5180                        RetainedObjectInfo* info) {
5181  i::Isolate* isolate = i::Isolate::Current();
5182  if (IsDeadCheck(isolate, "v8::V8::AddObjectGroup()")) return;
5183  STATIC_ASSERT(sizeof(Persistent<Value>) == sizeof(i::Object**));
5184  isolate->global_handles()->AddObjectGroup(
5185      reinterpret_cast<i::Object***>(objects), length, info);
5186}
5187
5188
5189void V8::AddImplicitReferences(Persistent<Object> parent,
5190                               Persistent<Value>* children,
5191                               size_t length) {
5192  i::Isolate* isolate = i::Isolate::Current();
5193  if (IsDeadCheck(isolate, "v8::V8::AddImplicitReferences()")) return;
5194  STATIC_ASSERT(sizeof(Persistent<Value>) == sizeof(i::Object**));
5195  isolate->global_handles()->AddImplicitReferences(
5196      i::Handle<i::HeapObject>::cast(Utils::OpenHandle(*parent)).location(),
5197      reinterpret_cast<i::Object***>(children), length);
5198}
5199
5200
5201int V8::AdjustAmountOfExternalAllocatedMemory(int change_in_bytes) {
5202  i::Isolate* isolate = i::Isolate::Current();
5203  if (IsDeadCheck(isolate, "v8::V8::AdjustAmountOfExternalAllocatedMemory()")) {
5204    return 0;
5205  }
5206  return isolate->heap()->AdjustAmountOfExternalAllocatedMemory(
5207      change_in_bytes);
5208}
5209
5210
5211void V8::SetGlobalGCPrologueCallback(GCCallback callback) {
5212  i::Isolate* isolate = i::Isolate::Current();
5213  if (IsDeadCheck(isolate, "v8::V8::SetGlobalGCPrologueCallback()")) return;
5214  isolate->heap()->SetGlobalGCPrologueCallback(callback);
5215}
5216
5217
5218void V8::SetGlobalGCEpilogueCallback(GCCallback callback) {
5219  i::Isolate* isolate = i::Isolate::Current();
5220  if (IsDeadCheck(isolate, "v8::V8::SetGlobalGCEpilogueCallback()")) return;
5221  isolate->heap()->SetGlobalGCEpilogueCallback(callback);
5222}
5223
5224
5225void V8::AddGCPrologueCallback(GCPrologueCallback callback, GCType gc_type) {
5226  i::Isolate* isolate = i::Isolate::Current();
5227  if (IsDeadCheck(isolate, "v8::V8::AddGCPrologueCallback()")) return;
5228  isolate->heap()->AddGCPrologueCallback(callback, gc_type);
5229}
5230
5231
5232void V8::RemoveGCPrologueCallback(GCPrologueCallback callback) {
5233  i::Isolate* isolate = i::Isolate::Current();
5234  if (IsDeadCheck(isolate, "v8::V8::RemoveGCPrologueCallback()")) return;
5235  isolate->heap()->RemoveGCPrologueCallback(callback);
5236}
5237
5238
5239void V8::AddGCEpilogueCallback(GCEpilogueCallback callback, GCType gc_type) {
5240  i::Isolate* isolate = i::Isolate::Current();
5241  if (IsDeadCheck(isolate, "v8::V8::AddGCEpilogueCallback()")) return;
5242  isolate->heap()->AddGCEpilogueCallback(callback, gc_type);
5243}
5244
5245
5246void V8::RemoveGCEpilogueCallback(GCEpilogueCallback callback) {
5247  i::Isolate* isolate = i::Isolate::Current();
5248  if (IsDeadCheck(isolate, "v8::V8::RemoveGCEpilogueCallback()")) return;
5249  isolate->heap()->RemoveGCEpilogueCallback(callback);
5250}
5251
5252
5253void V8::AddMemoryAllocationCallback(MemoryAllocationCallback callback,
5254                                     ObjectSpace space,
5255                                     AllocationAction action) {
5256  i::Isolate* isolate = i::Isolate::Current();
5257  if (IsDeadCheck(isolate, "v8::V8::AddMemoryAllocationCallback()")) return;
5258  isolate->memory_allocator()->AddMemoryAllocationCallback(
5259      callback, space, action);
5260}
5261
5262
5263void V8::RemoveMemoryAllocationCallback(MemoryAllocationCallback callback) {
5264  i::Isolate* isolate = i::Isolate::Current();
5265  if (IsDeadCheck(isolate, "v8::V8::RemoveMemoryAllocationCallback()")) return;
5266  isolate->memory_allocator()->RemoveMemoryAllocationCallback(
5267      callback);
5268}
5269
5270
5271void V8::AddCallCompletedCallback(CallCompletedCallback callback) {
5272  if (callback == NULL) return;
5273  i::Isolate::EnsureDefaultIsolate();
5274  i::Isolate* isolate = i::Isolate::Current();
5275  if (IsDeadCheck(isolate, "v8::V8::AddLeaveScriptCallback()")) return;
5276  i::V8::AddCallCompletedCallback(callback);
5277}
5278
5279
5280void V8::RemoveCallCompletedCallback(CallCompletedCallback callback) {
5281  i::Isolate::EnsureDefaultIsolate();
5282  i::Isolate* isolate = i::Isolate::Current();
5283  if (IsDeadCheck(isolate, "v8::V8::RemoveLeaveScriptCallback()")) return;
5284  i::V8::RemoveCallCompletedCallback(callback);
5285}
5286
5287
5288void V8::PauseProfiler() {
5289  i::Isolate* isolate = i::Isolate::Current();
5290  isolate->logger()->PauseProfiler();
5291}
5292
5293
5294void V8::ResumeProfiler() {
5295  i::Isolate* isolate = i::Isolate::Current();
5296  isolate->logger()->ResumeProfiler();
5297}
5298
5299
5300bool V8::IsProfilerPaused() {
5301  i::Isolate* isolate = i::Isolate::Current();
5302  return isolate->logger()->IsProfilerPaused();
5303}
5304
5305
5306int V8::GetCurrentThreadId() {
5307  i::Isolate* isolate = i::Isolate::Current();
5308  EnsureInitializedForIsolate(isolate, "V8::GetCurrentThreadId()");
5309  return isolate->thread_id().ToInteger();
5310}
5311
5312
5313void V8::TerminateExecution(int thread_id) {
5314  i::Isolate* isolate = i::Isolate::Current();
5315  if (!isolate->IsInitialized()) return;
5316  API_ENTRY_CHECK(isolate, "V8::TerminateExecution()");
5317  // If the thread_id identifies the current thread just terminate
5318  // execution right away.  Otherwise, ask the thread manager to
5319  // terminate the thread with the given id if any.
5320  i::ThreadId internal_tid = i::ThreadId::FromInteger(thread_id);
5321  if (isolate->thread_id().Equals(internal_tid)) {
5322    isolate->stack_guard()->TerminateExecution();
5323  } else {
5324    isolate->thread_manager()->TerminateExecution(internal_tid);
5325  }
5326}
5327
5328
5329void V8::TerminateExecution(Isolate* isolate) {
5330  // If no isolate is supplied, use the default isolate.
5331  if (isolate != NULL) {
5332    reinterpret_cast<i::Isolate*>(isolate)->stack_guard()->TerminateExecution();
5333  } else {
5334    i::Isolate::GetDefaultIsolateStackGuard()->TerminateExecution();
5335  }
5336}
5337
5338
5339bool V8::IsExecutionTerminating(Isolate* isolate) {
5340  i::Isolate* i_isolate = isolate != NULL ?
5341      reinterpret_cast<i::Isolate*>(isolate) : i::Isolate::Current();
5342  return IsExecutionTerminatingCheck(i_isolate);
5343}
5344
5345
5346Isolate* Isolate::GetCurrent() {
5347  i::Isolate* isolate = i::Isolate::UncheckedCurrent();
5348  return reinterpret_cast<Isolate*>(isolate);
5349}
5350
5351
5352Isolate* Isolate::New() {
5353  i::Isolate* isolate = new i::Isolate();
5354  return reinterpret_cast<Isolate*>(isolate);
5355}
5356
5357
5358void Isolate::Dispose() {
5359  i::Isolate* isolate = reinterpret_cast<i::Isolate*>(this);
5360  if (!ApiCheck(!isolate->IsInUse(),
5361                "v8::Isolate::Dispose()",
5362                "Disposing the isolate that is entered by a thread.")) {
5363    return;
5364  }
5365  isolate->TearDown();
5366}
5367
5368
5369void Isolate::Enter() {
5370  i::Isolate* isolate = reinterpret_cast<i::Isolate*>(this);
5371  isolate->Enter();
5372}
5373
5374
5375void Isolate::Exit() {
5376  i::Isolate* isolate = reinterpret_cast<i::Isolate*>(this);
5377  isolate->Exit();
5378}
5379
5380
5381void Isolate::SetData(void* data) {
5382  i::Isolate* isolate = reinterpret_cast<i::Isolate*>(this);
5383  isolate->SetData(data);
5384}
5385
5386void* Isolate::GetData() {
5387  i::Isolate* isolate = reinterpret_cast<i::Isolate*>(this);
5388  return isolate->GetData();
5389}
5390
5391
5392String::Utf8Value::Utf8Value(v8::Handle<v8::Value> obj)
5393    : str_(NULL), length_(0) {
5394  i::Isolate* isolate = i::Isolate::Current();
5395  if (IsDeadCheck(isolate, "v8::String::Utf8Value::Utf8Value()")) return;
5396  if (obj.IsEmpty()) return;
5397  ENTER_V8(isolate);
5398  i::HandleScope scope(isolate);
5399  TryCatch try_catch;
5400  Handle<String> str = obj->ToString();
5401  if (str.IsEmpty()) return;
5402  i::Handle<i::String> i_str = Utils::OpenHandle(*str);
5403  length_ = i::Utf8Length(i_str);
5404  str_ = i::NewArray<char>(length_ + 1);
5405  str->WriteUtf8(str_);
5406}
5407
5408
5409String::Utf8Value::~Utf8Value() {
5410  i::DeleteArray(str_);
5411}
5412
5413
5414String::AsciiValue::AsciiValue(v8::Handle<v8::Value> obj)
5415    : str_(NULL), length_(0) {
5416  i::Isolate* isolate = i::Isolate::Current();
5417  if (IsDeadCheck(isolate, "v8::String::AsciiValue::AsciiValue()")) return;
5418  if (obj.IsEmpty()) return;
5419  ENTER_V8(isolate);
5420  i::HandleScope scope(isolate);
5421  TryCatch try_catch;
5422  Handle<String> str = obj->ToString();
5423  if (str.IsEmpty()) return;
5424  length_ = str->Length();
5425  str_ = i::NewArray<char>(length_ + 1);
5426  str->WriteAscii(str_);
5427}
5428
5429
5430String::AsciiValue::~AsciiValue() {
5431  i::DeleteArray(str_);
5432}
5433
5434
5435String::Value::Value(v8::Handle<v8::Value> obj)
5436    : str_(NULL), length_(0) {
5437  i::Isolate* isolate = i::Isolate::Current();
5438  if (IsDeadCheck(isolate, "v8::String::Value::Value()")) return;
5439  if (obj.IsEmpty()) return;
5440  ENTER_V8(isolate);
5441  i::HandleScope scope(isolate);
5442  TryCatch try_catch;
5443  Handle<String> str = obj->ToString();
5444  if (str.IsEmpty()) return;
5445  length_ = str->Length();
5446  str_ = i::NewArray<uint16_t>(length_ + 1);
5447  str->Write(str_);
5448}
5449
5450
5451String::Value::~Value() {
5452  i::DeleteArray(str_);
5453}
5454
5455Local<Value> Exception::RangeError(v8::Handle<v8::String> raw_message) {
5456  i::Isolate* isolate = i::Isolate::Current();
5457  LOG_API(isolate, "RangeError");
5458  ON_BAILOUT(isolate, "v8::Exception::RangeError()", return Local<Value>());
5459  ENTER_V8(isolate);
5460  i::Object* error;
5461  {
5462    i::HandleScope scope(isolate);
5463    i::Handle<i::String> message = Utils::OpenHandle(*raw_message);
5464    i::Handle<i::Object> result = isolate->factory()->NewRangeError(message);
5465    error = *result;
5466  }
5467  i::Handle<i::Object> result(error);
5468  return Utils::ToLocal(result);
5469}
5470
5471Local<Value> Exception::ReferenceError(v8::Handle<v8::String> raw_message) {
5472  i::Isolate* isolate = i::Isolate::Current();
5473  LOG_API(isolate, "ReferenceError");
5474  ON_BAILOUT(isolate, "v8::Exception::ReferenceError()", return Local<Value>());
5475  ENTER_V8(isolate);
5476  i::Object* error;
5477  {
5478    i::HandleScope scope(isolate);
5479    i::Handle<i::String> message = Utils::OpenHandle(*raw_message);
5480    i::Handle<i::Object> result =
5481        isolate->factory()->NewReferenceError(message);
5482    error = *result;
5483  }
5484  i::Handle<i::Object> result(error);
5485  return Utils::ToLocal(result);
5486}
5487
5488Local<Value> Exception::SyntaxError(v8::Handle<v8::String> raw_message) {
5489  i::Isolate* isolate = i::Isolate::Current();
5490  LOG_API(isolate, "SyntaxError");
5491  ON_BAILOUT(isolate, "v8::Exception::SyntaxError()", return Local<Value>());
5492  ENTER_V8(isolate);
5493  i::Object* error;
5494  {
5495    i::HandleScope scope(isolate);
5496    i::Handle<i::String> message = Utils::OpenHandle(*raw_message);
5497    i::Handle<i::Object> result = isolate->factory()->NewSyntaxError(message);
5498    error = *result;
5499  }
5500  i::Handle<i::Object> result(error);
5501  return Utils::ToLocal(result);
5502}
5503
5504Local<Value> Exception::TypeError(v8::Handle<v8::String> raw_message) {
5505  i::Isolate* isolate = i::Isolate::Current();
5506  LOG_API(isolate, "TypeError");
5507  ON_BAILOUT(isolate, "v8::Exception::TypeError()", return Local<Value>());
5508  ENTER_V8(isolate);
5509  i::Object* error;
5510  {
5511    i::HandleScope scope(isolate);
5512    i::Handle<i::String> message = Utils::OpenHandle(*raw_message);
5513    i::Handle<i::Object> result = isolate->factory()->NewTypeError(message);
5514    error = *result;
5515  }
5516  i::Handle<i::Object> result(error);
5517  return Utils::ToLocal(result);
5518}
5519
5520Local<Value> Exception::Error(v8::Handle<v8::String> raw_message) {
5521  i::Isolate* isolate = i::Isolate::Current();
5522  LOG_API(isolate, "Error");
5523  ON_BAILOUT(isolate, "v8::Exception::Error()", return Local<Value>());
5524  ENTER_V8(isolate);
5525  i::Object* error;
5526  {
5527    i::HandleScope scope(isolate);
5528    i::Handle<i::String> message = Utils::OpenHandle(*raw_message);
5529    i::Handle<i::Object> result = isolate->factory()->NewError(message);
5530    error = *result;
5531  }
5532  i::Handle<i::Object> result(error);
5533  return Utils::ToLocal(result);
5534}
5535
5536
5537// --- D e b u g   S u p p o r t ---
5538
5539#ifdef ENABLE_DEBUGGER_SUPPORT
5540
5541static void EventCallbackWrapper(const v8::Debug::EventDetails& event_details) {
5542  i::Isolate* isolate = i::Isolate::Current();
5543  if (isolate->debug_event_callback() != NULL) {
5544    isolate->debug_event_callback()(event_details.GetEvent(),
5545                                    event_details.GetExecutionState(),
5546                                    event_details.GetEventData(),
5547                                    event_details.GetCallbackData());
5548  }
5549}
5550
5551
5552bool Debug::SetDebugEventListener(EventCallback that, Handle<Value> data) {
5553  i::Isolate* isolate = i::Isolate::Current();
5554  EnsureInitializedForIsolate(isolate, "v8::Debug::SetDebugEventListener()");
5555  ON_BAILOUT(isolate, "v8::Debug::SetDebugEventListener()", return false);
5556  ENTER_V8(isolate);
5557
5558  isolate->set_debug_event_callback(that);
5559
5560  i::HandleScope scope(isolate);
5561  i::Handle<i::Object> foreign = isolate->factory()->undefined_value();
5562  if (that != NULL) {
5563    foreign =
5564        isolate->factory()->NewForeign(FUNCTION_ADDR(EventCallbackWrapper));
5565  }
5566  isolate->debugger()->SetEventListener(foreign, Utils::OpenHandle(*data));
5567  return true;
5568}
5569
5570
5571bool Debug::SetDebugEventListener2(EventCallback2 that, Handle<Value> data) {
5572  i::Isolate* isolate = i::Isolate::Current();
5573  EnsureInitializedForIsolate(isolate, "v8::Debug::SetDebugEventListener2()");
5574  ON_BAILOUT(isolate, "v8::Debug::SetDebugEventListener2()", return false);
5575  ENTER_V8(isolate);
5576  i::HandleScope scope(isolate);
5577  i::Handle<i::Object> foreign = isolate->factory()->undefined_value();
5578  if (that != NULL) {
5579    foreign = isolate->factory()->NewForeign(FUNCTION_ADDR(that));
5580  }
5581  isolate->debugger()->SetEventListener(foreign, Utils::OpenHandle(*data));
5582  return true;
5583}
5584
5585
5586bool Debug::SetDebugEventListener(v8::Handle<v8::Object> that,
5587                                  Handle<Value> data) {
5588  i::Isolate* isolate = i::Isolate::Current();
5589  ON_BAILOUT(isolate, "v8::Debug::SetDebugEventListener()", return false);
5590  ENTER_V8(isolate);
5591  isolate->debugger()->SetEventListener(Utils::OpenHandle(*that),
5592                                                      Utils::OpenHandle(*data));
5593  return true;
5594}
5595
5596
5597void Debug::DebugBreak(Isolate* isolate) {
5598  // If no isolate is supplied, use the default isolate.
5599  if (isolate != NULL) {
5600    reinterpret_cast<i::Isolate*>(isolate)->stack_guard()->DebugBreak();
5601  } else {
5602    i::Isolate::GetDefaultIsolateStackGuard()->DebugBreak();
5603  }
5604}
5605
5606
5607void Debug::CancelDebugBreak(Isolate* isolate) {
5608  // If no isolate is supplied, use the default isolate.
5609  if (isolate != NULL) {
5610    i::Isolate* internal_isolate = reinterpret_cast<i::Isolate*>(isolate);
5611    internal_isolate->stack_guard()->Continue(i::DEBUGBREAK);
5612  } else {
5613    i::Isolate::GetDefaultIsolateStackGuard()->Continue(i::DEBUGBREAK);
5614  }
5615}
5616
5617
5618void Debug::DebugBreakForCommand(ClientData* data, Isolate* isolate) {
5619  // If no isolate is supplied, use the default isolate.
5620  if (isolate != NULL) {
5621    i::Isolate* internal_isolate = reinterpret_cast<i::Isolate*>(isolate);
5622    internal_isolate->debugger()->EnqueueDebugCommand(data);
5623  } else {
5624    i::Isolate::GetDefaultIsolateDebugger()->EnqueueDebugCommand(data);
5625  }
5626}
5627
5628
5629static void MessageHandlerWrapper(const v8::Debug::Message& message) {
5630  i::Isolate* isolate = i::Isolate::Current();
5631  if (isolate->message_handler()) {
5632    v8::String::Value json(message.GetJSON());
5633    (isolate->message_handler())(*json, json.length(), message.GetClientData());
5634  }
5635}
5636
5637
5638void Debug::SetMessageHandler(v8::Debug::MessageHandler handler,
5639                              bool message_handler_thread) {
5640  i::Isolate* isolate = i::Isolate::Current();
5641  EnsureInitializedForIsolate(isolate, "v8::Debug::SetMessageHandler");
5642  ENTER_V8(isolate);
5643
5644  // Message handler thread not supported any more. Parameter temporally left in
5645  // the API for client compatibility reasons.
5646  CHECK(!message_handler_thread);
5647
5648  // TODO(sgjesse) support the old message handler API through a simple wrapper.
5649  isolate->set_message_handler(handler);
5650  if (handler != NULL) {
5651    isolate->debugger()->SetMessageHandler(MessageHandlerWrapper);
5652  } else {
5653    isolate->debugger()->SetMessageHandler(NULL);
5654  }
5655}
5656
5657
5658void Debug::SetMessageHandler2(v8::Debug::MessageHandler2 handler) {
5659  i::Isolate* isolate = i::Isolate::Current();
5660  EnsureInitializedForIsolate(isolate, "v8::Debug::SetMessageHandler");
5661  ENTER_V8(isolate);
5662  isolate->debugger()->SetMessageHandler(handler);
5663}
5664
5665
5666void Debug::SendCommand(const uint16_t* command, int length,
5667                        ClientData* client_data,
5668                        Isolate* isolate) {
5669  // If no isolate is supplied, use the default isolate.
5670  if (isolate != NULL) {
5671    i::Isolate* internal_isolate = reinterpret_cast<i::Isolate*>(isolate);
5672    internal_isolate->debugger()->ProcessCommand(
5673        i::Vector<const uint16_t>(command, length), client_data);
5674  } else {
5675    i::Isolate::GetDefaultIsolateDebugger()->ProcessCommand(
5676        i::Vector<const uint16_t>(command, length), client_data);
5677  }
5678}
5679
5680
5681void Debug::SetHostDispatchHandler(HostDispatchHandler handler,
5682                                   int period) {
5683  i::Isolate* isolate = i::Isolate::Current();
5684  EnsureInitializedForIsolate(isolate, "v8::Debug::SetHostDispatchHandler");
5685  ENTER_V8(isolate);
5686  isolate->debugger()->SetHostDispatchHandler(handler, period);
5687}
5688
5689
5690void Debug::SetDebugMessageDispatchHandler(
5691    DebugMessageDispatchHandler handler, bool provide_locker) {
5692  i::Isolate* isolate = i::Isolate::Current();
5693  EnsureInitializedForIsolate(isolate,
5694                              "v8::Debug::SetDebugMessageDispatchHandler");
5695  ENTER_V8(isolate);
5696  isolate->debugger()->SetDebugMessageDispatchHandler(
5697      handler, provide_locker);
5698}
5699
5700
5701Local<Value> Debug::Call(v8::Handle<v8::Function> fun,
5702                         v8::Handle<v8::Value> data) {
5703  i::Isolate* isolate = i::Isolate::Current();
5704  if (!isolate->IsInitialized()) return Local<Value>();
5705  ON_BAILOUT(isolate, "v8::Debug::Call()", return Local<Value>());
5706  ENTER_V8(isolate);
5707  i::Handle<i::Object> result;
5708  EXCEPTION_PREAMBLE(isolate);
5709  if (data.IsEmpty()) {
5710    result = isolate->debugger()->Call(Utils::OpenHandle(*fun),
5711                                       isolate->factory()->undefined_value(),
5712                                       &has_pending_exception);
5713  } else {
5714    result = isolate->debugger()->Call(Utils::OpenHandle(*fun),
5715                                       Utils::OpenHandle(*data),
5716                                       &has_pending_exception);
5717  }
5718  EXCEPTION_BAILOUT_CHECK(isolate, Local<Value>());
5719  return Utils::ToLocal(result);
5720}
5721
5722
5723Local<Value> Debug::GetMirror(v8::Handle<v8::Value> obj) {
5724  i::Isolate* isolate = i::Isolate::Current();
5725  if (!isolate->IsInitialized()) return Local<Value>();
5726  ON_BAILOUT(isolate, "v8::Debug::GetMirror()", return Local<Value>());
5727  ENTER_V8(isolate);
5728  v8::HandleScope scope;
5729  i::Debug* isolate_debug = isolate->debug();
5730  isolate_debug->Load();
5731  i::Handle<i::JSObject> debug(isolate_debug->debug_context()->global());
5732  i::Handle<i::String> name =
5733      isolate->factory()->LookupAsciiSymbol("MakeMirror");
5734  i::Handle<i::Object> fun_obj = i::GetProperty(debug, name);
5735  i::Handle<i::JSFunction> fun = i::Handle<i::JSFunction>::cast(fun_obj);
5736  v8::Handle<v8::Function> v8_fun = Utils::ToLocal(fun);
5737  const int kArgc = 1;
5738  v8::Handle<v8::Value> argv[kArgc] = { obj };
5739  EXCEPTION_PREAMBLE(isolate);
5740  v8::Handle<v8::Value> result = v8_fun->Call(Utils::ToLocal(debug),
5741                                              kArgc,
5742                                              argv);
5743  EXCEPTION_BAILOUT_CHECK(isolate, Local<Value>());
5744  return scope.Close(result);
5745}
5746
5747
5748bool Debug::EnableAgent(const char* name, int port, bool wait_for_connection) {
5749  return i::Isolate::Current()->debugger()->StartAgent(name, port,
5750                                                       wait_for_connection);
5751}
5752
5753
5754void Debug::DisableAgent() {
5755  return i::Isolate::Current()->debugger()->StopAgent();
5756}
5757
5758
5759void Debug::ProcessDebugMessages() {
5760  i::Execution::ProcessDebugMessages(true);
5761}
5762
5763Local<Context> Debug::GetDebugContext() {
5764  i::Isolate* isolate = i::Isolate::Current();
5765  EnsureInitializedForIsolate(isolate, "v8::Debug::GetDebugContext()");
5766  ENTER_V8(isolate);
5767  return Utils::ToLocal(i::Isolate::Current()->debugger()->GetDebugContext());
5768}
5769
5770#endif  // ENABLE_DEBUGGER_SUPPORT
5771
5772
5773Handle<String> CpuProfileNode::GetFunctionName() const {
5774  i::Isolate* isolate = i::Isolate::Current();
5775  IsDeadCheck(isolate, "v8::CpuProfileNode::GetFunctionName");
5776  const i::ProfileNode* node = reinterpret_cast<const i::ProfileNode*>(this);
5777  const i::CodeEntry* entry = node->entry();
5778  if (!entry->has_name_prefix()) {
5779    return Handle<String>(ToApi<String>(
5780        isolate->factory()->LookupAsciiSymbol(entry->name())));
5781  } else {
5782    return Handle<String>(ToApi<String>(isolate->factory()->NewConsString(
5783        isolate->factory()->LookupAsciiSymbol(entry->name_prefix()),
5784        isolate->factory()->LookupAsciiSymbol(entry->name()))));
5785  }
5786}
5787
5788
5789Handle<String> CpuProfileNode::GetScriptResourceName() const {
5790  i::Isolate* isolate = i::Isolate::Current();
5791  IsDeadCheck(isolate, "v8::CpuProfileNode::GetScriptResourceName");
5792  const i::ProfileNode* node = reinterpret_cast<const i::ProfileNode*>(this);
5793  return Handle<String>(ToApi<String>(isolate->factory()->LookupAsciiSymbol(
5794      node->entry()->resource_name())));
5795}
5796
5797
5798int CpuProfileNode::GetLineNumber() const {
5799  i::Isolate* isolate = i::Isolate::Current();
5800  IsDeadCheck(isolate, "v8::CpuProfileNode::GetLineNumber");
5801  return reinterpret_cast<const i::ProfileNode*>(this)->entry()->line_number();
5802}
5803
5804
5805double CpuProfileNode::GetTotalTime() const {
5806  i::Isolate* isolate = i::Isolate::Current();
5807  IsDeadCheck(isolate, "v8::CpuProfileNode::GetTotalTime");
5808  return reinterpret_cast<const i::ProfileNode*>(this)->GetTotalMillis();
5809}
5810
5811
5812double CpuProfileNode::GetSelfTime() const {
5813  i::Isolate* isolate = i::Isolate::Current();
5814  IsDeadCheck(isolate, "v8::CpuProfileNode::GetSelfTime");
5815  return reinterpret_cast<const i::ProfileNode*>(this)->GetSelfMillis();
5816}
5817
5818
5819double CpuProfileNode::GetTotalSamplesCount() const {
5820  i::Isolate* isolate = i::Isolate::Current();
5821  IsDeadCheck(isolate, "v8::CpuProfileNode::GetTotalSamplesCount");
5822  return reinterpret_cast<const i::ProfileNode*>(this)->total_ticks();
5823}
5824
5825
5826double CpuProfileNode::GetSelfSamplesCount() const {
5827  i::Isolate* isolate = i::Isolate::Current();
5828  IsDeadCheck(isolate, "v8::CpuProfileNode::GetSelfSamplesCount");
5829  return reinterpret_cast<const i::ProfileNode*>(this)->self_ticks();
5830}
5831
5832
5833unsigned CpuProfileNode::GetCallUid() const {
5834  i::Isolate* isolate = i::Isolate::Current();
5835  IsDeadCheck(isolate, "v8::CpuProfileNode::GetCallUid");
5836  return reinterpret_cast<const i::ProfileNode*>(this)->entry()->GetCallUid();
5837}
5838
5839
5840int CpuProfileNode::GetChildrenCount() const {
5841  i::Isolate* isolate = i::Isolate::Current();
5842  IsDeadCheck(isolate, "v8::CpuProfileNode::GetChildrenCount");
5843  return reinterpret_cast<const i::ProfileNode*>(this)->children()->length();
5844}
5845
5846
5847const CpuProfileNode* CpuProfileNode::GetChild(int index) const {
5848  i::Isolate* isolate = i::Isolate::Current();
5849  IsDeadCheck(isolate, "v8::CpuProfileNode::GetChild");
5850  const i::ProfileNode* child =
5851      reinterpret_cast<const i::ProfileNode*>(this)->children()->at(index);
5852  return reinterpret_cast<const CpuProfileNode*>(child);
5853}
5854
5855
5856void CpuProfile::Delete() {
5857  i::Isolate* isolate = i::Isolate::Current();
5858  IsDeadCheck(isolate, "v8::CpuProfile::Delete");
5859  i::CpuProfiler::DeleteProfile(reinterpret_cast<i::CpuProfile*>(this));
5860  if (i::CpuProfiler::GetProfilesCount() == 0 &&
5861      !i::CpuProfiler::HasDetachedProfiles()) {
5862    // If this was the last profile, clean up all accessory data as well.
5863    i::CpuProfiler::DeleteAllProfiles();
5864  }
5865}
5866
5867
5868unsigned CpuProfile::GetUid() const {
5869  i::Isolate* isolate = i::Isolate::Current();
5870  IsDeadCheck(isolate, "v8::CpuProfile::GetUid");
5871  return reinterpret_cast<const i::CpuProfile*>(this)->uid();
5872}
5873
5874
5875Handle<String> CpuProfile::GetTitle() const {
5876  i::Isolate* isolate = i::Isolate::Current();
5877  IsDeadCheck(isolate, "v8::CpuProfile::GetTitle");
5878  const i::CpuProfile* profile = reinterpret_cast<const i::CpuProfile*>(this);
5879  return Handle<String>(ToApi<String>(isolate->factory()->LookupAsciiSymbol(
5880      profile->title())));
5881}
5882
5883
5884const CpuProfileNode* CpuProfile::GetBottomUpRoot() const {
5885  i::Isolate* isolate = i::Isolate::Current();
5886  IsDeadCheck(isolate, "v8::CpuProfile::GetBottomUpRoot");
5887  const i::CpuProfile* profile = reinterpret_cast<const i::CpuProfile*>(this);
5888  return reinterpret_cast<const CpuProfileNode*>(profile->bottom_up()->root());
5889}
5890
5891
5892const CpuProfileNode* CpuProfile::GetTopDownRoot() const {
5893  i::Isolate* isolate = i::Isolate::Current();
5894  IsDeadCheck(isolate, "v8::CpuProfile::GetTopDownRoot");
5895  const i::CpuProfile* profile = reinterpret_cast<const i::CpuProfile*>(this);
5896  return reinterpret_cast<const CpuProfileNode*>(profile->top_down()->root());
5897}
5898
5899
5900int CpuProfiler::GetProfilesCount() {
5901  i::Isolate* isolate = i::Isolate::Current();
5902  IsDeadCheck(isolate, "v8::CpuProfiler::GetProfilesCount");
5903  return i::CpuProfiler::GetProfilesCount();
5904}
5905
5906
5907const CpuProfile* CpuProfiler::GetProfile(int index,
5908                                          Handle<Value> security_token) {
5909  i::Isolate* isolate = i::Isolate::Current();
5910  IsDeadCheck(isolate, "v8::CpuProfiler::GetProfile");
5911  return reinterpret_cast<const CpuProfile*>(
5912      i::CpuProfiler::GetProfile(
5913          security_token.IsEmpty() ? NULL : *Utils::OpenHandle(*security_token),
5914          index));
5915}
5916
5917
5918const CpuProfile* CpuProfiler::FindProfile(unsigned uid,
5919                                           Handle<Value> security_token) {
5920  i::Isolate* isolate = i::Isolate::Current();
5921  IsDeadCheck(isolate, "v8::CpuProfiler::FindProfile");
5922  return reinterpret_cast<const CpuProfile*>(
5923      i::CpuProfiler::FindProfile(
5924          security_token.IsEmpty() ? NULL : *Utils::OpenHandle(*security_token),
5925          uid));
5926}
5927
5928
5929void CpuProfiler::StartProfiling(Handle<String> title) {
5930  i::Isolate* isolate = i::Isolate::Current();
5931  IsDeadCheck(isolate, "v8::CpuProfiler::StartProfiling");
5932  i::CpuProfiler::StartProfiling(*Utils::OpenHandle(*title));
5933}
5934
5935
5936const CpuProfile* CpuProfiler::StopProfiling(Handle<String> title,
5937                                             Handle<Value> security_token) {
5938  i::Isolate* isolate = i::Isolate::Current();
5939  IsDeadCheck(isolate, "v8::CpuProfiler::StopProfiling");
5940  return reinterpret_cast<const CpuProfile*>(
5941      i::CpuProfiler::StopProfiling(
5942          security_token.IsEmpty() ? NULL : *Utils::OpenHandle(*security_token),
5943          *Utils::OpenHandle(*title)));
5944}
5945
5946
5947void CpuProfiler::DeleteAllProfiles() {
5948  i::Isolate* isolate = i::Isolate::Current();
5949  IsDeadCheck(isolate, "v8::CpuProfiler::DeleteAllProfiles");
5950  i::CpuProfiler::DeleteAllProfiles();
5951}
5952
5953
5954static i::HeapGraphEdge* ToInternal(const HeapGraphEdge* edge) {
5955  return const_cast<i::HeapGraphEdge*>(
5956      reinterpret_cast<const i::HeapGraphEdge*>(edge));
5957}
5958
5959
5960HeapGraphEdge::Type HeapGraphEdge::GetType() const {
5961  i::Isolate* isolate = i::Isolate::Current();
5962  IsDeadCheck(isolate, "v8::HeapGraphEdge::GetType");
5963  return static_cast<HeapGraphEdge::Type>(ToInternal(this)->type());
5964}
5965
5966
5967Handle<Value> HeapGraphEdge::GetName() const {
5968  i::Isolate* isolate = i::Isolate::Current();
5969  IsDeadCheck(isolate, "v8::HeapGraphEdge::GetName");
5970  i::HeapGraphEdge* edge = ToInternal(this);
5971  switch (edge->type()) {
5972    case i::HeapGraphEdge::kContextVariable:
5973    case i::HeapGraphEdge::kInternal:
5974    case i::HeapGraphEdge::kProperty:
5975    case i::HeapGraphEdge::kShortcut:
5976      return Handle<String>(ToApi<String>(isolate->factory()->LookupAsciiSymbol(
5977          edge->name())));
5978    case i::HeapGraphEdge::kElement:
5979    case i::HeapGraphEdge::kHidden:
5980      return Handle<Number>(ToApi<Number>(isolate->factory()->NewNumberFromInt(
5981          edge->index())));
5982    default: UNREACHABLE();
5983  }
5984  return v8::Undefined();
5985}
5986
5987
5988const HeapGraphNode* HeapGraphEdge::GetFromNode() const {
5989  i::Isolate* isolate = i::Isolate::Current();
5990  IsDeadCheck(isolate, "v8::HeapGraphEdge::GetFromNode");
5991  const i::HeapEntry* from = ToInternal(this)->From();
5992  return reinterpret_cast<const HeapGraphNode*>(from);
5993}
5994
5995
5996const HeapGraphNode* HeapGraphEdge::GetToNode() const {
5997  i::Isolate* isolate = i::Isolate::Current();
5998  IsDeadCheck(isolate, "v8::HeapGraphEdge::GetToNode");
5999  const i::HeapEntry* to = ToInternal(this)->to();
6000  return reinterpret_cast<const HeapGraphNode*>(to);
6001}
6002
6003
6004static i::HeapEntry* ToInternal(const HeapGraphNode* entry) {
6005  return const_cast<i::HeapEntry*>(
6006      reinterpret_cast<const i::HeapEntry*>(entry));
6007}
6008
6009
6010HeapGraphNode::Type HeapGraphNode::GetType() const {
6011  i::Isolate* isolate = i::Isolate::Current();
6012  IsDeadCheck(isolate, "v8::HeapGraphNode::GetType");
6013  return static_cast<HeapGraphNode::Type>(ToInternal(this)->type());
6014}
6015
6016
6017Handle<String> HeapGraphNode::GetName() const {
6018  i::Isolate* isolate = i::Isolate::Current();
6019  IsDeadCheck(isolate, "v8::HeapGraphNode::GetName");
6020  return Handle<String>(ToApi<String>(isolate->factory()->LookupAsciiSymbol(
6021      ToInternal(this)->name())));
6022}
6023
6024
6025uint64_t HeapGraphNode::GetId() const {
6026  i::Isolate* isolate = i::Isolate::Current();
6027  IsDeadCheck(isolate, "v8::HeapGraphNode::GetId");
6028  return ToInternal(this)->id();
6029}
6030
6031
6032int HeapGraphNode::GetSelfSize() const {
6033  i::Isolate* isolate = i::Isolate::Current();
6034  IsDeadCheck(isolate, "v8::HeapGraphNode::GetSelfSize");
6035  return ToInternal(this)->self_size();
6036}
6037
6038
6039int HeapGraphNode::GetRetainedSize() const {
6040  i::Isolate* isolate = i::Isolate::Current();
6041  IsDeadCheck(isolate, "v8::HeapSnapshot::GetRetainedSize");
6042  return ToInternal(this)->retained_size();
6043}
6044
6045
6046int HeapGraphNode::GetChildrenCount() const {
6047  i::Isolate* isolate = i::Isolate::Current();
6048  IsDeadCheck(isolate, "v8::HeapSnapshot::GetChildrenCount");
6049  return ToInternal(this)->children().length();
6050}
6051
6052
6053const HeapGraphEdge* HeapGraphNode::GetChild(int index) const {
6054  i::Isolate* isolate = i::Isolate::Current();
6055  IsDeadCheck(isolate, "v8::HeapSnapshot::GetChild");
6056  return reinterpret_cast<const HeapGraphEdge*>(
6057      &ToInternal(this)->children()[index]);
6058}
6059
6060
6061int HeapGraphNode::GetRetainersCount() const {
6062  i::Isolate* isolate = i::Isolate::Current();
6063  IsDeadCheck(isolate, "v8::HeapSnapshot::GetRetainersCount");
6064  return ToInternal(this)->retainers().length();
6065}
6066
6067
6068const HeapGraphEdge* HeapGraphNode::GetRetainer(int index) const {
6069  i::Isolate* isolate = i::Isolate::Current();
6070  IsDeadCheck(isolate, "v8::HeapSnapshot::GetRetainer");
6071  return reinterpret_cast<const HeapGraphEdge*>(
6072      ToInternal(this)->retainers()[index]);
6073}
6074
6075
6076const HeapGraphNode* HeapGraphNode::GetDominatorNode() const {
6077  i::Isolate* isolate = i::Isolate::Current();
6078  IsDeadCheck(isolate, "v8::HeapSnapshot::GetDominatorNode");
6079  return reinterpret_cast<const HeapGraphNode*>(ToInternal(this)->dominator());
6080}
6081
6082
6083v8::Handle<v8::Value> HeapGraphNode::GetHeapValue() const {
6084  i::Isolate* isolate = i::Isolate::Current();
6085  IsDeadCheck(isolate, "v8::HeapGraphNode::GetHeapValue");
6086  i::Handle<i::HeapObject> object = ToInternal(this)->GetHeapObject();
6087  return v8::Handle<Value>(!object.is_null() ?
6088                           ToApi<Value>(object) : ToApi<Value>(
6089                               isolate->factory()->undefined_value()));
6090}
6091
6092
6093static i::HeapSnapshot* ToInternal(const HeapSnapshot* snapshot) {
6094  return const_cast<i::HeapSnapshot*>(
6095      reinterpret_cast<const i::HeapSnapshot*>(snapshot));
6096}
6097
6098
6099void HeapSnapshot::Delete() {
6100  i::Isolate* isolate = i::Isolate::Current();
6101  IsDeadCheck(isolate, "v8::HeapSnapshot::Delete");
6102  if (i::HeapProfiler::GetSnapshotsCount() > 1) {
6103    ToInternal(this)->Delete();
6104  } else {
6105    // If this is the last snapshot, clean up all accessory data as well.
6106    i::HeapProfiler::DeleteAllSnapshots();
6107  }
6108}
6109
6110
6111HeapSnapshot::Type HeapSnapshot::GetType() const {
6112  i::Isolate* isolate = i::Isolate::Current();
6113  IsDeadCheck(isolate, "v8::HeapSnapshot::GetType");
6114  return static_cast<HeapSnapshot::Type>(ToInternal(this)->type());
6115}
6116
6117
6118unsigned HeapSnapshot::GetUid() const {
6119  i::Isolate* isolate = i::Isolate::Current();
6120  IsDeadCheck(isolate, "v8::HeapSnapshot::GetUid");
6121  return ToInternal(this)->uid();
6122}
6123
6124
6125Handle<String> HeapSnapshot::GetTitle() const {
6126  i::Isolate* isolate = i::Isolate::Current();
6127  IsDeadCheck(isolate, "v8::HeapSnapshot::GetTitle");
6128  return Handle<String>(ToApi<String>(isolate->factory()->LookupAsciiSymbol(
6129      ToInternal(this)->title())));
6130}
6131
6132
6133const HeapGraphNode* HeapSnapshot::GetRoot() const {
6134  i::Isolate* isolate = i::Isolate::Current();
6135  IsDeadCheck(isolate, "v8::HeapSnapshot::GetHead");
6136  return reinterpret_cast<const HeapGraphNode*>(ToInternal(this)->root());
6137}
6138
6139
6140const HeapGraphNode* HeapSnapshot::GetNodeById(uint64_t id) const {
6141  i::Isolate* isolate = i::Isolate::Current();
6142  IsDeadCheck(isolate, "v8::HeapSnapshot::GetNodeById");
6143  return reinterpret_cast<const HeapGraphNode*>(
6144      ToInternal(this)->GetEntryById(static_cast<i::SnapshotObjectId>(id)));
6145}
6146
6147
6148int HeapSnapshot::GetNodesCount() const {
6149  i::Isolate* isolate = i::Isolate::Current();
6150  IsDeadCheck(isolate, "v8::HeapSnapshot::GetNodesCount");
6151  return ToInternal(this)->entries()->length();
6152}
6153
6154
6155const HeapGraphNode* HeapSnapshot::GetNode(int index) const {
6156  i::Isolate* isolate = i::Isolate::Current();
6157  IsDeadCheck(isolate, "v8::HeapSnapshot::GetNode");
6158  return reinterpret_cast<const HeapGraphNode*>(
6159      ToInternal(this)->entries()->at(index));
6160}
6161
6162
6163void HeapSnapshot::Serialize(OutputStream* stream,
6164                             HeapSnapshot::SerializationFormat format) const {
6165  i::Isolate* isolate = i::Isolate::Current();
6166  IsDeadCheck(isolate, "v8::HeapSnapshot::Serialize");
6167  ApiCheck(format == kJSON,
6168           "v8::HeapSnapshot::Serialize",
6169           "Unknown serialization format");
6170  ApiCheck(stream->GetOutputEncoding() == OutputStream::kAscii,
6171           "v8::HeapSnapshot::Serialize",
6172           "Unsupported output encoding");
6173  ApiCheck(stream->GetChunkSize() > 0,
6174           "v8::HeapSnapshot::Serialize",
6175           "Invalid stream chunk size");
6176  i::HeapSnapshotJSONSerializer serializer(ToInternal(this));
6177  serializer.Serialize(stream);
6178}
6179
6180
6181int HeapProfiler::GetSnapshotsCount() {
6182  i::Isolate* isolate = i::Isolate::Current();
6183  IsDeadCheck(isolate, "v8::HeapProfiler::GetSnapshotsCount");
6184  return i::HeapProfiler::GetSnapshotsCount();
6185}
6186
6187
6188const HeapSnapshot* HeapProfiler::GetSnapshot(int index) {
6189  i::Isolate* isolate = i::Isolate::Current();
6190  IsDeadCheck(isolate, "v8::HeapProfiler::GetSnapshot");
6191  return reinterpret_cast<const HeapSnapshot*>(
6192      i::HeapProfiler::GetSnapshot(index));
6193}
6194
6195
6196const HeapSnapshot* HeapProfiler::FindSnapshot(unsigned uid) {
6197  i::Isolate* isolate = i::Isolate::Current();
6198  IsDeadCheck(isolate, "v8::HeapProfiler::FindSnapshot");
6199  return reinterpret_cast<const HeapSnapshot*>(
6200      i::HeapProfiler::FindSnapshot(uid));
6201}
6202
6203
6204const HeapSnapshot* HeapProfiler::TakeSnapshot(Handle<String> title,
6205                                               HeapSnapshot::Type type,
6206                                               ActivityControl* control) {
6207  i::Isolate* isolate = i::Isolate::Current();
6208  IsDeadCheck(isolate, "v8::HeapProfiler::TakeSnapshot");
6209  i::HeapSnapshot::Type internal_type = i::HeapSnapshot::kFull;
6210  switch (type) {
6211    case HeapSnapshot::kFull:
6212      internal_type = i::HeapSnapshot::kFull;
6213      break;
6214    default:
6215      UNREACHABLE();
6216  }
6217  return reinterpret_cast<const HeapSnapshot*>(
6218      i::HeapProfiler::TakeSnapshot(
6219          *Utils::OpenHandle(*title), internal_type, control));
6220}
6221
6222
6223void HeapProfiler::DeleteAllSnapshots() {
6224  i::Isolate* isolate = i::Isolate::Current();
6225  IsDeadCheck(isolate, "v8::HeapProfiler::DeleteAllSnapshots");
6226  i::HeapProfiler::DeleteAllSnapshots();
6227}
6228
6229
6230void HeapProfiler::DefineWrapperClass(uint16_t class_id,
6231                                      WrapperInfoCallback callback) {
6232  i::Isolate::Current()->heap_profiler()->DefineWrapperClass(class_id,
6233                                                             callback);
6234}
6235
6236
6237int HeapProfiler::GetPersistentHandleCount() {
6238  i::Isolate* isolate = i::Isolate::Current();
6239  return isolate->global_handles()->NumberOfGlobalHandles();
6240}
6241
6242
6243v8::Testing::StressType internal::Testing::stress_type_ =
6244    v8::Testing::kStressTypeOpt;
6245
6246
6247void Testing::SetStressRunType(Testing::StressType type) {
6248  internal::Testing::set_stress_type(type);
6249}
6250
6251int Testing::GetStressRuns() {
6252  if (internal::FLAG_stress_runs != 0) return internal::FLAG_stress_runs;
6253#ifdef DEBUG
6254  // In debug mode the code runs much slower so stressing will only make two
6255  // runs.
6256  return 2;
6257#else
6258  return 5;
6259#endif
6260}
6261
6262
6263static void SetFlagsFromString(const char* flags) {
6264  V8::SetFlagsFromString(flags, i::StrLength(flags));
6265}
6266
6267
6268void Testing::PrepareStressRun(int run) {
6269  static const char* kLazyOptimizations =
6270      "--prepare-always-opt --nolimit-inlining --noalways-opt";
6271  static const char* kForcedOptimizations = "--always-opt";
6272
6273  // If deoptimization stressed turn on frequent deoptimization. If no value
6274  // is spefified through --deopt-every-n-times use a default default value.
6275  static const char* kDeoptEvery13Times = "--deopt-every-n-times=13";
6276  if (internal::Testing::stress_type() == Testing::kStressTypeDeopt &&
6277      internal::FLAG_deopt_every_n_times == 0) {
6278    SetFlagsFromString(kDeoptEvery13Times);
6279  }
6280
6281#ifdef DEBUG
6282  // As stressing in debug mode only make two runs skip the deopt stressing
6283  // here.
6284  if (run == GetStressRuns() - 1) {
6285    SetFlagsFromString(kForcedOptimizations);
6286  } else {
6287    SetFlagsFromString(kLazyOptimizations);
6288  }
6289#else
6290  if (run == GetStressRuns() - 1) {
6291    SetFlagsFromString(kForcedOptimizations);
6292  } else if (run != GetStressRuns() - 2) {
6293    SetFlagsFromString(kLazyOptimizations);
6294  }
6295#endif
6296}
6297
6298
6299void Testing::DeoptimizeAll() {
6300  internal::Deoptimizer::DeoptimizeAll();
6301}
6302
6303
6304namespace internal {
6305
6306
6307void HandleScopeImplementer::FreeThreadResources() {
6308  Free();
6309}
6310
6311
6312char* HandleScopeImplementer::ArchiveThread(char* storage) {
6313  v8::ImplementationUtilities::HandleScopeData* current =
6314      isolate_->handle_scope_data();
6315  handle_scope_data_ = *current;
6316  memcpy(storage, this, sizeof(*this));
6317
6318  ResetAfterArchive();
6319  current->Initialize();
6320
6321  return storage + ArchiveSpacePerThread();
6322}
6323
6324
6325int HandleScopeImplementer::ArchiveSpacePerThread() {
6326  return sizeof(HandleScopeImplementer);
6327}
6328
6329
6330char* HandleScopeImplementer::RestoreThread(char* storage) {
6331  memcpy(this, storage, sizeof(*this));
6332  *isolate_->handle_scope_data() = handle_scope_data_;
6333  return storage + ArchiveSpacePerThread();
6334}
6335
6336
6337void HandleScopeImplementer::IterateThis(ObjectVisitor* v) {
6338  // Iterate over all handles in the blocks except for the last.
6339  for (int i = blocks()->length() - 2; i >= 0; --i) {
6340    Object** block = blocks()->at(i);
6341    v->VisitPointers(block, &block[kHandleBlockSize]);
6342  }
6343
6344  // Iterate over live handles in the last block (if any).
6345  if (!blocks()->is_empty()) {
6346    v->VisitPointers(blocks()->last(), handle_scope_data_.next);
6347  }
6348
6349  if (!saved_contexts_.is_empty()) {
6350    Object** start = reinterpret_cast<Object**>(&saved_contexts_.first());
6351    v->VisitPointers(start, start + saved_contexts_.length());
6352  }
6353}
6354
6355
6356void HandleScopeImplementer::Iterate(ObjectVisitor* v) {
6357  v8::ImplementationUtilities::HandleScopeData* current =
6358      isolate_->handle_scope_data();
6359  handle_scope_data_ = *current;
6360  IterateThis(v);
6361}
6362
6363
6364char* HandleScopeImplementer::Iterate(ObjectVisitor* v, char* storage) {
6365  HandleScopeImplementer* scope_implementer =
6366      reinterpret_cast<HandleScopeImplementer*>(storage);
6367  scope_implementer->IterateThis(v);
6368  return storage + ArchiveSpacePerThread();
6369}
6370
6371} }  // namespace v8::internal
6372