v8/test/cctest/cctest.h

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// Copyright 2008 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#ifndef CCTEST_H_
#define CCTEST_H_
#include "src/v8.h"
#ifndef TEST
#define TEST(Name) \
static void Test##Name(); \
CcTest register_test_##Name(Test##Name, __FILE__, #Name, NULL, true, true); \
static void Test##Name()
#endif
#ifndef UNINITIALIZED_TEST
#define UNINITIALIZED_TEST(Name) \
static void Test##Name(); \
CcTest register_test_##Name(Test##Name, __FILE__, #Name, NULL, true, false); \
static void Test##Name()
#endif
#ifndef DEPENDENT_TEST
#define DEPENDENT_TEST(Name, Dep) \
static void Test##Name(); \
CcTest register_test_##Name(Test##Name, __FILE__, #Name, #Dep, true, true); \
static void Test##Name()
#endif
#ifndef UNINITIALIZED_DEPENDENT_TEST
#define UNINITIALIZED_DEPENDENT_TEST(Name, Dep) \
static void Test##Name(); \
CcTest register_test_##Name(Test##Name, __FILE__, #Name, #Dep, true, false); \
static void Test##Name()
#endif
#ifndef DISABLED_TEST
#define DISABLED_TEST(Name) \
static void Test##Name(); \
CcTest register_test_##Name(Test##Name, __FILE__, #Name, NULL, false, true); \
static void Test##Name()
#endif
#define EXTENSION_LIST(V) \
V(GC_EXTENSION, "v8/gc") \
V(PRINT_EXTENSION, "v8/print") \
V(PROFILER_EXTENSION, "v8/profiler") \
V(TRACE_EXTENSION, "v8/trace")
#define DEFINE_EXTENSION_ID(Name, Ident) Name##_ID,
enum CcTestExtensionIds {
EXTENSION_LIST(DEFINE_EXTENSION_ID)
kMaxExtensions
};
#undef DEFINE_EXTENSION_ID
typedef v8::internal::EnumSet<CcTestExtensionIds> CcTestExtensionFlags;
#define DEFINE_EXTENSION_FLAG(Name, Ident) \
static const CcTestExtensionFlags Name(1 << Name##_ID);
static const CcTestExtensionFlags NO_EXTENSIONS(0);
static const CcTestExtensionFlags ALL_EXTENSIONS((1 << kMaxExtensions) - 1);
EXTENSION_LIST(DEFINE_EXTENSION_FLAG)
#undef DEFINE_EXTENSION_FLAG
// Use this to expose protected methods in i::Heap.
class TestHeap : public i::Heap {
public:
using i::Heap::AllocateByteArray;
using i::Heap::AllocateFixedArray;
using i::Heap::AllocateHeapNumber;
using i::Heap::AllocateJSObject;
using i::Heap::AllocateJSObjectFromMap;
using i::Heap::AllocateMap;
using i::Heap::CopyCode;
using i::Heap::kInitialNumberStringCacheSize;
};
class CcTest {
public:
typedef void (TestFunction)();
CcTest(TestFunction* callback, const char* file, const char* name,
const char* dependency, bool enabled, bool initialize);
void Run();
static CcTest* last() { return last_; }
CcTest* prev() { return prev_; }
const char* file() { return file_; }
const char* name() { return name_; }
const char* dependency() { return dependency_; }
bool enabled() { return enabled_; }
static v8::Isolate* isolate() {
CHECK(isolate_ != NULL);
v8::base::NoBarrier_Store(&isolate_used_, 1);
return isolate_;
}
static i::Isolate* InitIsolateOnce() {
if (!initialize_called_) InitializeVM();
return i_isolate();
}
static i::Isolate* i_isolate() {
return reinterpret_cast<i::Isolate*>(isolate());
}
static i::Heap* heap() {
return i_isolate()->heap();
}
static TestHeap* test_heap() {
return reinterpret_cast<TestHeap*>(i_isolate()->heap());
}
static v8::base::RandomNumberGenerator* random_number_generator() {
return InitIsolateOnce()->random_number_generator();
}
static v8::Local<v8::Object> global() {
return isolate()->GetCurrentContext()->Global();
}
static v8::ArrayBuffer::Allocator* array_buffer_allocator() {
return allocator_;
}
static void set_array_buffer_allocator(
v8::ArrayBuffer::Allocator* allocator) {
allocator_ = allocator;
}
// TODO(dcarney): Remove.
// This must be called first in a test.
static void InitializeVM() {
CHECK(!v8::base::NoBarrier_Load(&isolate_used_));
CHECK(!initialize_called_);
initialize_called_ = true;
v8::HandleScope handle_scope(CcTest::isolate());
v8::Context::New(CcTest::isolate())->Enter();
}
// Only for UNINITIALIZED_TESTs
static void DisableAutomaticDispose();
// Helper function to configure a context.
// Must be in a HandleScope.
static v8::Local<v8::Context> NewContext(
CcTestExtensionFlags extensions,
v8::Isolate* isolate = CcTest::isolate());
static void TearDown() {
if (isolate_ != NULL) isolate_->Dispose();
}
private:
friend int main(int argc, char** argv);
TestFunction* callback_;
const char* file_;
const char* name_;
const char* dependency_;
bool enabled_;
bool initialize_;
CcTest* prev_;
static CcTest* last_;
static v8::ArrayBuffer::Allocator* allocator_;
static v8::Isolate* isolate_;
static bool initialize_called_;
static v8::base::Atomic32 isolate_used_;
};
// Switches between all the Api tests using the threading support.
// In order to get a surprising but repeatable pattern of thread
// switching it has extra semaphores to control the order in which
// the tests alternate, not relying solely on the big V8 lock.
//
// A test is augmented with calls to ApiTestFuzzer::Fuzz() in its
// callbacks. This will have no effect when we are not running the
// thread fuzzing test. In the thread fuzzing test it will
// pseudorandomly select a successor thread and switch execution
// to that thread, suspending the current test.
class ApiTestFuzzer: public v8::base::Thread {
public:
void CallTest();
// The ApiTestFuzzer is also a Thread, so it has a Run method.
virtual void Run();
enum PartOfTest { FIRST_PART,
SECOND_PART,
THIRD_PART,
FOURTH_PART,
LAST_PART = FOURTH_PART };
static void SetUp(PartOfTest part);
static void RunAllTests();
static void TearDown();
// This method switches threads if we are running the Threading test.
// Otherwise it does nothing.
static void Fuzz();
private:
explicit ApiTestFuzzer(int num)
: Thread(Options("ApiTestFuzzer")),
test_number_(num),
gate_(0),
active_(true) {}
~ApiTestFuzzer() {}
static bool fuzzing_;
static int tests_being_run_;
static int current_;
static int active_tests_;
static bool NextThread();
int test_number_;
v8::base::Semaphore gate_;
bool active_;
void ContextSwitch();
static int GetNextTestNumber();
static v8::base::Semaphore all_tests_done_;
};
#define THREADED_TEST(Name) \
static void Test##Name(); \
RegisterThreadedTest register_##Name(Test##Name, #Name); \
/* */ TEST(Name)
class RegisterThreadedTest {
public:
explicit RegisterThreadedTest(CcTest::TestFunction* callback,
const char* name)
: fuzzer_(NULL), callback_(callback), name_(name) {
prev_ = first_;
first_ = this;
count_++;
}
static int count() { return count_; }
static RegisterThreadedTest* nth(int i) {
CHECK(i < count());
RegisterThreadedTest* current = first_;
while (i > 0) {
i--;
current = current->prev_;
}
return current;
}
CcTest::TestFunction* callback() { return callback_; }
ApiTestFuzzer* fuzzer_;
const char* name() { return name_; }
private:
static RegisterThreadedTest* first_;
static int count_;
CcTest::TestFunction* callback_;
RegisterThreadedTest* prev_;
const char* name_;
};
// A LocalContext holds a reference to a v8::Context.
class LocalContext {
public:
LocalContext(v8::Isolate* isolate,
v8::ExtensionConfiguration* extensions = 0,
v8::Handle<v8::ObjectTemplate> global_template =
v8::Handle<v8::ObjectTemplate>(),
v8::Handle<v8::Value> global_object = v8::Handle<v8::Value>()) {
Initialize(isolate, extensions, global_template, global_object);
}
LocalContext(v8::ExtensionConfiguration* extensions = 0,
v8::Handle<v8::ObjectTemplate> global_template =
v8::Handle<v8::ObjectTemplate>(),
v8::Handle<v8::Value> global_object = v8::Handle<v8::Value>()) {
Initialize(CcTest::isolate(), extensions, global_template, global_object);
}
virtual ~LocalContext() {
v8::HandleScope scope(isolate_);
v8::Local<v8::Context>::New(isolate_, context_)->Exit();
context_.Reset();
}
v8::Context* operator->() {
return *reinterpret_cast<v8::Context**>(&context_);
}
v8::Context* operator*() { return operator->(); }
bool IsReady() { return !context_.IsEmpty(); }
v8::Local<v8::Context> local() {
return v8::Local<v8::Context>::New(isolate_, context_);
}
private:
void Initialize(v8::Isolate* isolate,
v8::ExtensionConfiguration* extensions,
v8::Handle<v8::ObjectTemplate> global_template,
v8::Handle<v8::Value> global_object) {
v8::HandleScope scope(isolate);
v8::Local<v8::Context> context = v8::Context::New(isolate,
extensions,
global_template,
global_object);
context_.Reset(isolate, context);
context->Enter();
// We can't do this later perhaps because of a fatal error.
isolate_ = isolate;
}
v8::Persistent<v8::Context> context_;
v8::Isolate* isolate_;
};
static inline uint16_t* AsciiToTwoByteString(const char* source) {
int array_length = i::StrLength(source) + 1;
uint16_t* converted = i::NewArray<uint16_t>(array_length);
for (int i = 0; i < array_length; i++) converted[i] = source[i];
return converted;
}
static inline v8::Local<v8::Value> v8_num(double x) {
return v8::Number::New(v8::Isolate::GetCurrent(), x);
}
static inline v8::Local<v8::String> v8_str(const char* x) {
return v8::String::NewFromUtf8(v8::Isolate::GetCurrent(), x);
}
static inline v8::Local<v8::Symbol> v8_symbol(const char* name) {
return v8::Symbol::New(v8::Isolate::GetCurrent(), v8_str(name));
}
static inline v8::Local<v8::Script> v8_compile(const char* x) {
return v8::Script::Compile(v8_str(x));
}
static inline v8::Local<v8::Script> v8_compile(v8::Local<v8::String> x) {
return v8::Script::Compile(x);
}
static inline v8::Local<v8::Script> CompileWithOrigin(
v8::Local<v8::String> source, v8::Local<v8::String> origin_url) {
v8::ScriptOrigin origin(origin_url);
v8::ScriptCompiler::Source script_source(source, origin);
return v8::ScriptCompiler::Compile(
v8::Isolate::GetCurrent(), &script_source);
}
static inline v8::Local<v8::Script> CompileWithOrigin(
v8::Local<v8::String> source, const char* origin_url) {
return CompileWithOrigin(source, v8_str(origin_url));
}
static inline v8::Local<v8::Script> CompileWithOrigin(const char* source,
const char* origin_url) {
return CompileWithOrigin(v8_str(source), v8_str(origin_url));
}
// Helper functions that compile and run the source.
static inline v8::Local<v8::Value> CompileRun(const char* source) {
return v8::Script::Compile(v8_str(source))->Run();
}
// Compiles source as an ES6 module.
static inline v8::Local<v8::Value> CompileRunModule(const char* source) {
v8::ScriptCompiler::Source script_source(v8_str(source));
return v8::ScriptCompiler::CompileModule(v8::Isolate::GetCurrent(),
&script_source)->Run();
}
static inline v8::Local<v8::Value> CompileRun(v8::Local<v8::String> source) {
return v8::Script::Compile(source)->Run();
}
Change ScriptCompiler::CompileOptions to allow for two 'cache' modes (parser or code) and to be explicit about cache consumption or production (rather than making presence of cached_data imply one or the other.) Also add a --cache flag to d8, to allow testing the functionality. ----------------------------- API change Reason: Currently, V8 supports a 'parser cache' for repeatedly executing the same script. We'd like to add a 2nd mode that would cache code, and would like to let the embedder decide which mode they chose (if any). Note: Previously, the 'use cached data' property was implied by the presence of the cached data itself. (That is, kNoCompileOptions and source->cached_data != NULL.) That is no longer sufficient, since the presence of data is no longer sufficient to determine /which kind/ of data is present. Changes from old behaviour: - If you previously didn't use caching, nothing changes. Example: v8::CompileUnbound(isolate, source, kNoCompileOptions); - If you previously used caching, it worked like this: - 1st run: v8::CompileUnbound(isolate, source, kProduceToCache); Then, source->cached_data would contain the data-to-be cached. This remains the same, except you need to tell V8 which type of data you want. v8::CompileUnbound(isolate, source, kProduceParserCache); - 2nd run: v8::CompileUnbound(isolate, source, kNoCompileOptions); with source->cached_data set to the data you received in the first run. This will now ignore the cached data, and you need to explicitly tell V8 to use it: v8::CompileUnbound(isolate, source, kConsumeParserCache); ----------------------------- BUG= R=marja@chromium.org, yangguo@chromium.org Review URL: https://codereview.chromium.org/389573006 git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@22431 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2014-07-16 12:18:33 +00:00
static inline v8::Local<v8::Value> ParserCacheCompileRun(const char* source) {
Update tests to use the new compilation API + related fixes. Esp. get rid of PreCompile in tests, as it's going to be removed. Notes: - The new compilation API doesn't have a separate precompilation phase, so there is no separate way to check for errors except checking the compilation errors. Removed some tests which don't make sense any more. - test-api/Regress31661 didn't make sense as a regression test even before the compilation API changes, because Blink doesn't precompile this short scripts. So detecting this kind of errors (see crbug.com/31661 for more information) cannot rely on precompilation errors. - test-parsing/PreParserStrictOctal has nothing to do with PreParser, and the comment about "forcing preparsing" was just wrong. - test-api/PreCompile was supposed to test that "pre-compilation (aka preparsing) can be called without initializing the whole VM"; that's no longer true, since there's no separate precompilation step in the new compile API. There are other tests (test-parsing/DontRegressPreParserDataSizes) which ensure that we produce cached data. - Updated tests which test preparsing to use PreParser directly (not via the preparsing API). - In the new compilation API, the user doesn't need to deal with ScriptData ever. It's only used internally, and needed in tests that test internal aspects (e.g., modify the cached data before passing it back). - Some tests which used to test preparse + parse now test first time parse + second time parse, and had to be modified to ensure we don't hit the compilation cache. BUG= R=ulan@chromium.org Review URL: https://codereview.chromium.org/225743002 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@20511 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2014-04-04 12:36:23 +00:00
// Compile once just to get the preparse data, then compile the second time
// using the data.
v8::Isolate* isolate = v8::Isolate::GetCurrent();
Update tests to use the new compilation API + related fixes. Esp. get rid of PreCompile in tests, as it's going to be removed. Notes: - The new compilation API doesn't have a separate precompilation phase, so there is no separate way to check for errors except checking the compilation errors. Removed some tests which don't make sense any more. - test-api/Regress31661 didn't make sense as a regression test even before the compilation API changes, because Blink doesn't precompile this short scripts. So detecting this kind of errors (see crbug.com/31661 for more information) cannot rely on precompilation errors. - test-parsing/PreParserStrictOctal has nothing to do with PreParser, and the comment about "forcing preparsing" was just wrong. - test-api/PreCompile was supposed to test that "pre-compilation (aka preparsing) can be called without initializing the whole VM"; that's no longer true, since there's no separate precompilation step in the new compile API. There are other tests (test-parsing/DontRegressPreParserDataSizes) which ensure that we produce cached data. - Updated tests which test preparsing to use PreParser directly (not via the preparsing API). - In the new compilation API, the user doesn't need to deal with ScriptData ever. It's only used internally, and needed in tests that test internal aspects (e.g., modify the cached data before passing it back). - Some tests which used to test preparse + parse now test first time parse + second time parse, and had to be modified to ensure we don't hit the compilation cache. BUG= R=ulan@chromium.org Review URL: https://codereview.chromium.org/225743002 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@20511 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2014-04-04 12:36:23 +00:00
v8::ScriptCompiler::Source script_source(v8_str(source));
v8::ScriptCompiler::Compile(isolate, &script_source,
Change ScriptCompiler::CompileOptions to allow for two 'cache' modes (parser or code) and to be explicit about cache consumption or production (rather than making presence of cached_data imply one or the other.) Also add a --cache flag to d8, to allow testing the functionality. ----------------------------- API change Reason: Currently, V8 supports a 'parser cache' for repeatedly executing the same script. We'd like to add a 2nd mode that would cache code, and would like to let the embedder decide which mode they chose (if any). Note: Previously, the 'use cached data' property was implied by the presence of the cached data itself. (That is, kNoCompileOptions and source->cached_data != NULL.) That is no longer sufficient, since the presence of data is no longer sufficient to determine /which kind/ of data is present. Changes from old behaviour: - If you previously didn't use caching, nothing changes. Example: v8::CompileUnbound(isolate, source, kNoCompileOptions); - If you previously used caching, it worked like this: - 1st run: v8::CompileUnbound(isolate, source, kProduceToCache); Then, source->cached_data would contain the data-to-be cached. This remains the same, except you need to tell V8 which type of data you want. v8::CompileUnbound(isolate, source, kProduceParserCache); - 2nd run: v8::CompileUnbound(isolate, source, kNoCompileOptions); with source->cached_data set to the data you received in the first run. This will now ignore the cached data, and you need to explicitly tell V8 to use it: v8::CompileUnbound(isolate, source, kConsumeParserCache); ----------------------------- BUG= R=marja@chromium.org, yangguo@chromium.org Review URL: https://codereview.chromium.org/389573006 git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@22431 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2014-07-16 12:18:33 +00:00
v8::ScriptCompiler::kProduceParserCache);
// Check whether we received cached data, and if so use it.
v8::ScriptCompiler::CompileOptions options =
script_source.GetCachedData() ? v8::ScriptCompiler::kConsumeParserCache
: v8::ScriptCompiler::kNoCompileOptions;
return v8::ScriptCompiler::Compile(isolate, &script_source, options)->Run();
}
// Helper functions that compile and run the source with given origin.
static inline v8::Local<v8::Value> CompileRunWithOrigin(const char* source,
const char* origin_url,
int line_number,
int column_number) {
v8::Isolate* isolate = v8::Isolate::GetCurrent();
v8::ScriptOrigin origin(v8_str(origin_url),
v8::Integer::New(isolate, line_number),
v8::Integer::New(isolate, column_number));
v8::ScriptCompiler::Source script_source(v8_str(source), origin);
return v8::ScriptCompiler::Compile(isolate, &script_source)->Run();
}
static inline v8::Local<v8::Value> CompileRunWithOrigin(
v8::Local<v8::String> source, const char* origin_url) {
v8::ScriptCompiler::Source script_source(
source, v8::ScriptOrigin(v8_str(origin_url)));
return v8::ScriptCompiler::Compile(v8::Isolate::GetCurrent(), &script_source)
->Run();
}
static inline v8::Local<v8::Value> CompileRunWithOrigin(
const char* source, const char* origin_url) {
return CompileRunWithOrigin(v8_str(source), origin_url);
}
static inline void ExpectString(const char* code, const char* expected) {
v8::Local<v8::Value> result = CompileRun(code);
CHECK(result->IsString());
v8::String::Utf8Value utf8(result);
CHECK_EQ(0, strcmp(expected, *utf8));
}
static inline void ExpectInt32(const char* code, int expected) {
v8::Local<v8::Value> result = CompileRun(code);
CHECK(result->IsInt32());
CHECK_EQ(expected, result->Int32Value());
}
static inline void ExpectBoolean(const char* code, bool expected) {
v8::Local<v8::Value> result = CompileRun(code);
CHECK(result->IsBoolean());
CHECK_EQ(expected, result->BooleanValue());
}
static inline void ExpectTrue(const char* code) {
ExpectBoolean(code, true);
}
static inline void ExpectFalse(const char* code) {
ExpectBoolean(code, false);
}
static inline void ExpectObject(const char* code,
v8::Local<v8::Value> expected) {
v8::Local<v8::Value> result = CompileRun(code);
CHECK(result->SameValue(expected));
}
static inline void ExpectUndefined(const char* code) {
v8::Local<v8::Value> result = CompileRun(code);
CHECK(result->IsUndefined());
}
// Helper function that simulates a full new-space in the heap.
static inline bool FillUpOnePage(v8::internal::NewSpace* space) {
v8::internal::AllocationResult allocation =
space->AllocateRaw(v8::internal::Page::kMaxRegularHeapObjectSize);
if (allocation.IsRetry()) return false;
v8::internal::HeapObject* free_space = NULL;
CHECK(allocation.To(&free_space));
space->heap()->CreateFillerObjectAt(
free_space->address(), v8::internal::Page::kMaxRegularHeapObjectSize);
return true;
}
// Helper function that simulates a fill new-space in the heap.
static inline void AllocateAllButNBytes(v8::internal::NewSpace* space,
int extra_bytes) {
int space_remaining = static_cast<int>(*space->allocation_limit_address() -
*space->allocation_top_address());
CHECK(space_remaining >= extra_bytes);
int new_linear_size = space_remaining - extra_bytes;
if (new_linear_size == 0) return;
v8::internal::AllocationResult allocation =
space->AllocateRaw(new_linear_size);
v8::internal::HeapObject* free_space = NULL;
CHECK(allocation.To(&free_space));
space->heap()->CreateFillerObjectAt(free_space->address(), new_linear_size);
}
static inline void FillCurrentPage(v8::internal::NewSpace* space) {
AllocateAllButNBytes(space, 0);
}
static inline void SimulateFullSpace(v8::internal::NewSpace* space) {
FillCurrentPage(space);
while (FillUpOnePage(space)) {
}
}
// Helper function that simulates a full old-space in the heap.
static inline void SimulateFullSpace(v8::internal::PagedSpace* space) {
space->EmptyAllocationInfo();
space->ResetFreeList();
space->ClearStats();
}
// Helper function that simulates many incremental marking steps until
// marking is completed.
static inline void SimulateIncrementalMarking(i::Heap* heap) {
i::MarkCompactCollector* collector = heap->mark_compact_collector();
i::IncrementalMarking* marking = heap->incremental_marking();
if (collector->sweeping_in_progress()) {
collector->EnsureSweepingCompleted();
}
CHECK(marking->IsMarking() || marking->IsStopped());
if (marking->IsStopped()) {
marking->Start();
}
CHECK(marking->IsMarking());
while (!marking->IsComplete()) {
marking->Step(i::MB, i::IncrementalMarking::NO_GC_VIA_STACK_GUARD);
if (marking->IsReadyToOverApproximateWeakClosure()) {
marking->MarkObjectGroups();
}
}
CHECK(marking->IsComplete());
}
// Helper class for new allocations tracking and checking.
// To use checking of JS allocations tracking in a test,
// just create an instance of this class.
class HeapObjectsTracker {
public:
HeapObjectsTracker() {
heap_profiler_ = i::Isolate::Current()->heap_profiler();
CHECK_NOT_NULL(heap_profiler_);
heap_profiler_->StartHeapObjectsTracking(true);
}
~HeapObjectsTracker() {
i::Isolate::Current()->heap()->CollectAllAvailableGarbage();
CHECK_EQ(0, heap_profiler_->heap_object_map()->FindUntrackedObjects());
heap_profiler_->StopHeapObjectsTracking();
}
private:
i::HeapProfiler* heap_profiler_;
};
class InitializedHandleScope {
public:
InitializedHandleScope()
: main_isolate_(CcTest::InitIsolateOnce()),
handle_scope_(main_isolate_) {}
// Prefixing the below with main_ reduces a lot of naming clashes.
i::Isolate* main_isolate() { return main_isolate_; }
private:
i::Isolate* main_isolate_;
i::HandleScope handle_scope_;
};
class HandleAndZoneScope : public InitializedHandleScope {
public:
HandleAndZoneScope() {}
// Prefixing the below with main_ reduces a lot of naming clashes.
i::Zone* main_zone() { return &main_zone_; }
private:
i::Zone main_zone_;
};
#endif // ifndef CCTEST_H_