src/v8/test/unittests/compiler-dispatcher/unoptimized-compile-job-unittest.cc - cobalt - Git at Google

 // Copyright 2016 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include <memory>

 #include "include/v8.h"
 #include "src/api.h"
 #include "src/ast/ast.h"
 #include "src/ast/scopes.h"
 #include "src/base/platform/semaphore.h"
 #include "src/compiler-dispatcher/compiler-dispatcher-job.h"
 #include "src/compiler-dispatcher/compiler-dispatcher-tracer.h"
 #include "src/compiler-dispatcher/unoptimized-compile-job.h"
 #include "src/flags.h"
 #include "src/isolate-inl.h"
 #include "src/parsing/parse-info.h"
 #include "src/v8.h"
 #include "test/unittests/test-helpers.h"
 #include "test/unittests/test-utils.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace v8 {
 namespace internal {

 class UnoptimizedCompileJobTest : public TestWithNativeContext {
  public:
   UnoptimizedCompileJobTest() : tracer_(isolate()) {}
   ~UnoptimizedCompileJobTest() override {}

   CompilerDispatcherTracer* tracer() { return &tracer_; }

   static void SetUpTestCase() {
     CHECK_NULL(save_flags_);
     save_flags_ = new SaveFlags();
     TestWithNativeContext ::SetUpTestCase();
   }

   static void TearDownTestCase() {
     TestWithNativeContext ::TearDownTestCase();
     CHECK_NOT_NULL(save_flags_);
     delete save_flags_;
     save_flags_ = nullptr;
   }

   static Variable* LookupVariableByName(UnoptimizedCompileJob* job,
                                         const char* name) {
     const AstRawString* name_raw_string =
         job->parse_info_->ast_value_factory()->GetOneByteString(name);
     return job->parse_info_->literal()->scope()->Lookup(name_raw_string);
   }

  private:
   CompilerDispatcherTracer tracer_;
   static SaveFlags* save_flags_;

   DISALLOW_COPY_AND_ASSIGN(UnoptimizedCompileJobTest);
 };

 SaveFlags* UnoptimizedCompileJobTest::save_flags_ = nullptr;

 #define ASSERT_JOB_STATUS(STATUS, JOB) ASSERT_EQ(STATUS, JOB->status())

 TEST_F(UnoptimizedCompileJobTest, Construct) {
   std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
       isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), nullptr),
       FLAG_stack_size));
 }

 TEST_F(UnoptimizedCompileJobTest, StateTransitions) {
   std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
       isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), nullptr),
       FLAG_stack_size));

   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
   job->PrepareOnMainThread(isolate());
   ASSERT_FALSE(job->IsFailed());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kPrepared, job);
   job->Compile(false);
   ASSERT_FALSE(job->IsFailed());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kCompiled, job);
   job->FinalizeOnMainThread(isolate());
   ASSERT_FALSE(job->IsFailed());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kDone, job);
   job->ResetOnMainThread(isolate());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
 }

 TEST_F(UnoptimizedCompileJobTest, SyntaxError) {
   test::ScriptResource script("^^^", strlen("^^^"));
   std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
       isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), &script),
       FLAG_stack_size));

   job->PrepareOnMainThread(isolate());
   ASSERT_FALSE(job->IsFailed());
   job->Compile(false);
   ASSERT_FALSE(job->IsFailed());
   job->ReportErrorsOnMainThread(isolate());
   ASSERT_TRUE(job->IsFailed());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kFailed, job);
   ASSERT_TRUE(isolate()->has_pending_exception());

   isolate()->clear_pending_exception();

   job->ResetOnMainThread(isolate());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
 }

 TEST_F(UnoptimizedCompileJobTest, CompileAndRun) {
   const char script[] =
       "function g() {\n"
       "  f = function(a) {\n"
       "        for (var i = 0; i < 3; i++) { a += 20; }\n"
       "        return a;\n"
       "      }\n"
       "  return f;\n"
       "}\n"
       "g();";
   Handle<JSFunction> f = RunJS<JSFunction>(script);
   std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
       isolate(), tracer(), handle(f->shared()), FLAG_stack_size));

   job->PrepareOnMainThread(isolate());
   ASSERT_FALSE(job->IsFailed());
   job->Compile(false);
   ASSERT_FALSE(job->IsFailed());
   job->FinalizeOnMainThread(isolate());
   ASSERT_FALSE(job->IsFailed());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kDone, job);

   Smi* value = Smi::cast(*RunJS("f(100);"));
   ASSERT_TRUE(value == Smi::FromInt(160));

   job->ResetOnMainThread(isolate());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
 }

 TEST_F(UnoptimizedCompileJobTest, CompileFailureToAnalyse) {
   std::string raw_script("() { var a = ");
   for (int i = 0; i < 500000; i++) {
     // TODO(leszeks): Figure out a more "unit-test-y" way of forcing an analysis
     // failure than a binop stack overflow.

     // Alternate + and - to avoid n-ary operation nodes.
     raw_script += "'x' + 'x' - ";
   }
   raw_script += " 'x'; }";
   test::ScriptResource script(raw_script.c_str(), strlen(raw_script.c_str()));
   std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
       isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), &script),
       100));

   job->PrepareOnMainThread(isolate());
   ASSERT_FALSE(job->IsFailed());
   job->Compile(false);
   ASSERT_FALSE(job->IsFailed());
   job->ReportErrorsOnMainThread(isolate());
   ASSERT_TRUE(job->IsFailed());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kFailed, job);
   ASSERT_TRUE(isolate()->has_pending_exception());

   isolate()->clear_pending_exception();
   job->ResetOnMainThread(isolate());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
 }

 TEST_F(UnoptimizedCompileJobTest, CompileFailureToFinalize) {
   std::string raw_script("() { var a = ");
   for (int i = 0; i < 500; i++) {
     // Alternate + and - to avoid n-ary operation nodes.
     raw_script += "'x' + 'x' - ";
   }
   raw_script += " 'x'; }";
   test::ScriptResource script(raw_script.c_str(), strlen(raw_script.c_str()));
   std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
       isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), &script),
       50));

   job->PrepareOnMainThread(isolate());
   ASSERT_FALSE(job->IsFailed());
   job->Compile(false);
   ASSERT_FALSE(job->IsFailed());
   job->ReportErrorsOnMainThread(isolate());
   ASSERT_TRUE(job->IsFailed());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kFailed, job);
   ASSERT_TRUE(isolate()->has_pending_exception());

   isolate()->clear_pending_exception();
   job->ResetOnMainThread(isolate());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
 }

 class CompileTask : public Task {
  public:
   CompileTask(UnoptimizedCompileJob* job, base::Semaphore* semaphore)
       : job_(job), semaphore_(semaphore) {}
   ~CompileTask() override {}

   void Run() override {
     job_->Compile(true);
     ASSERT_FALSE(job_->IsFailed());
     semaphore_->Signal();
   }

  private:
   UnoptimizedCompileJob* job_;
   base::Semaphore* semaphore_;
   DISALLOW_COPY_AND_ASSIGN(CompileTask);
 };

 TEST_F(UnoptimizedCompileJobTest, CompileOnBackgroundThread) {
   const char* raw_script =
       "(a, b) {\n"
       "  var c = a + b;\n"
       "  function bar() { return b }\n"
       "  var d = { foo: 100, bar : bar() }\n"
       "  return bar;"
       "}";
   test::ScriptResource script(raw_script, strlen(raw_script));
   std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
       isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), &script),
       100));

   job->PrepareOnMainThread(isolate());
   ASSERT_FALSE(job->IsFailed());

   base::Semaphore semaphore(0);
   CompileTask* background_task = new CompileTask(job.get(), &semaphore);
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kPrepared, job);
   V8::GetCurrentPlatform()->CallOnBackgroundThread(background_task,
                                                    Platform::kShortRunningTask);
   semaphore.Wait();
   job->FinalizeOnMainThread(isolate());
   ASSERT_FALSE(job->IsFailed());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kDone, job);

   job->ResetOnMainThread(isolate());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
 }

 TEST_F(UnoptimizedCompileJobTest, LazyInnerFunctions) {
   const char script[] =
       "f = function() {\n"
       "  e = (function() { return 42; });\n"
       "  return e;\n"
       "};\n"
       "f;";
   Handle<JSFunction> f = RunJS<JSFunction>(script);

   std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
       isolate(), tracer(), handle(f->shared()), FLAG_stack_size));

   job->PrepareOnMainThread(isolate());
   ASSERT_FALSE(job->IsFailed());
   job->Compile(false);
   ASSERT_FALSE(job->IsFailed());
   job->FinalizeOnMainThread(isolate());
   ASSERT_FALSE(job->IsFailed());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kDone, job);

   Handle<JSFunction> e = RunJS<JSFunction>("f();");

   ASSERT_FALSE(e->shared()->is_compiled());

   job->ResetOnMainThread(isolate());
   ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
 }

 #undef ASSERT_JOB_STATUS

 }  // namespace internal
 }  // namespace v8
	// Copyright 2016 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include <memory>

	#include "include/v8.h"
	#include "src/api.h"
	#include "src/ast/ast.h"
	#include "src/ast/scopes.h"
	#include "src/base/platform/semaphore.h"
	#include "src/compiler-dispatcher/compiler-dispatcher-job.h"
	#include "src/compiler-dispatcher/compiler-dispatcher-tracer.h"
	#include "src/compiler-dispatcher/unoptimized-compile-job.h"
	#include "src/flags.h"
	#include "src/isolate-inl.h"
	#include "src/parsing/parse-info.h"
	#include "src/v8.h"
	#include "test/unittests/test-helpers.h"
	#include "test/unittests/test-utils.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace v8 {
	namespace internal {

	class UnoptimizedCompileJobTest : public TestWithNativeContext {
	public:
	UnoptimizedCompileJobTest() : tracer_(isolate()) {}
	~UnoptimizedCompileJobTest() override {}

	CompilerDispatcherTracer* tracer() { return &tracer_; }

	static void SetUpTestCase() {
	CHECK_NULL(save_flags_);
	save_flags_ = new SaveFlags();
	TestWithNativeContext ::SetUpTestCase();
	}

	static void TearDownTestCase() {
	TestWithNativeContext ::TearDownTestCase();
	CHECK_NOT_NULL(save_flags_);
	delete save_flags_;
	save_flags_ = nullptr;
	}

	static Variable* LookupVariableByName(UnoptimizedCompileJob* job,
	const char* name) {
	const AstRawString* name_raw_string =
	job->parse_info_->ast_value_factory()->GetOneByteString(name);
	return job->parse_info_->literal()->scope()->Lookup(name_raw_string);
	}

	private:
	CompilerDispatcherTracer tracer_;
	static SaveFlags* save_flags_;

	DISALLOW_COPY_AND_ASSIGN(UnoptimizedCompileJobTest);
	};

	SaveFlags* UnoptimizedCompileJobTest::save_flags_ = nullptr;

	#define ASSERT_JOB_STATUS(STATUS, JOB) ASSERT_EQ(STATUS, JOB->status())

	TEST_F(UnoptimizedCompileJobTest, Construct) {
	std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
	isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), nullptr),
	FLAG_stack_size));
	}

	TEST_F(UnoptimizedCompileJobTest, StateTransitions) {
	std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
	isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), nullptr),
	FLAG_stack_size));

	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
	job->PrepareOnMainThread(isolate());
	ASSERT_FALSE(job->IsFailed());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kPrepared, job);
	job->Compile(false);
	ASSERT_FALSE(job->IsFailed());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kCompiled, job);
	job->FinalizeOnMainThread(isolate());
	ASSERT_FALSE(job->IsFailed());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kDone, job);
	job->ResetOnMainThread(isolate());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
	}

	TEST_F(UnoptimizedCompileJobTest, SyntaxError) {
	test::ScriptResource script("^^^", strlen("^^^"));
	std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
	isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), &script),
	FLAG_stack_size));

	job->PrepareOnMainThread(isolate());
	ASSERT_FALSE(job->IsFailed());
	job->Compile(false);
	ASSERT_FALSE(job->IsFailed());
	job->ReportErrorsOnMainThread(isolate());
	ASSERT_TRUE(job->IsFailed());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kFailed, job);
	ASSERT_TRUE(isolate()->has_pending_exception());

	isolate()->clear_pending_exception();

	job->ResetOnMainThread(isolate());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
	}

	TEST_F(UnoptimizedCompileJobTest, CompileAndRun) {
	const char script[] =
	"function g() {\n"
	" f = function(a) {\n"
	" for (var i = 0; i < 3; i++) { a += 20; }\n"
	" return a;\n"
	" }\n"
	" return f;\n"
	"}\n"
	"g();";
	Handle<JSFunction> f = RunJS<JSFunction>(script);
	std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
	isolate(), tracer(), handle(f->shared()), FLAG_stack_size));

	job->PrepareOnMainThread(isolate());
	ASSERT_FALSE(job->IsFailed());
	job->Compile(false);
	ASSERT_FALSE(job->IsFailed());
	job->FinalizeOnMainThread(isolate());
	ASSERT_FALSE(job->IsFailed());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kDone, job);

	Smi* value = Smi::cast(*RunJS("f(100);"));
	ASSERT_TRUE(value == Smi::FromInt(160));

	job->ResetOnMainThread(isolate());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
	}

	TEST_F(UnoptimizedCompileJobTest, CompileFailureToAnalyse) {
	std::string raw_script("() { var a = ");
	for (int i = 0; i < 500000; i++) {
	// TODO(leszeks): Figure out a more "unit-test-y" way of forcing an analysis
	// failure than a binop stack overflow.

	// Alternate + and - to avoid n-ary operation nodes.
	raw_script += "'x' + 'x' - ";
	}
	raw_script += " 'x'; }";
	test::ScriptResource script(raw_script.c_str(), strlen(raw_script.c_str()));
	std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
	isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), &script),
	100));

	job->PrepareOnMainThread(isolate());
	ASSERT_FALSE(job->IsFailed());
	job->Compile(false);
	ASSERT_FALSE(job->IsFailed());
	job->ReportErrorsOnMainThread(isolate());
	ASSERT_TRUE(job->IsFailed());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kFailed, job);
	ASSERT_TRUE(isolate()->has_pending_exception());

	isolate()->clear_pending_exception();
	job->ResetOnMainThread(isolate());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
	}

	TEST_F(UnoptimizedCompileJobTest, CompileFailureToFinalize) {
	std::string raw_script("() { var a = ");
	for (int i = 0; i < 500; i++) {
	// Alternate + and - to avoid n-ary operation nodes.
	raw_script += "'x' + 'x' - ";
	}
	raw_script += " 'x'; }";
	test::ScriptResource script(raw_script.c_str(), strlen(raw_script.c_str()));
	std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
	isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), &script),
	50));

	job->PrepareOnMainThread(isolate());
	ASSERT_FALSE(job->IsFailed());
	job->Compile(false);
	ASSERT_FALSE(job->IsFailed());
	job->ReportErrorsOnMainThread(isolate());
	ASSERT_TRUE(job->IsFailed());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kFailed, job);
	ASSERT_TRUE(isolate()->has_pending_exception());

	isolate()->clear_pending_exception();
	job->ResetOnMainThread(isolate());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
	}

	class CompileTask : public Task {
	public:
	CompileTask(UnoptimizedCompileJob* job, base::Semaphore* semaphore)
	: job_(job), semaphore_(semaphore) {}
	~CompileTask() override {}

	void Run() override {
	job_->Compile(true);
	ASSERT_FALSE(job_->IsFailed());
	semaphore_->Signal();
	}

	private:
	UnoptimizedCompileJob* job_;
	base::Semaphore* semaphore_;
	DISALLOW_COPY_AND_ASSIGN(CompileTask);
	};

	TEST_F(UnoptimizedCompileJobTest, CompileOnBackgroundThread) {
	const char* raw_script =
	"(a, b) {\n"
	" var c = a + b;\n"
	" function bar() { return b }\n"
	" var d = { foo: 100, bar : bar() }\n"
	" return bar;"
	"}";
	test::ScriptResource script(raw_script, strlen(raw_script));
	std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
	isolate(), tracer(), test::CreateSharedFunctionInfo(isolate(), &script),
	100));

	job->PrepareOnMainThread(isolate());
	ASSERT_FALSE(job->IsFailed());

	base::Semaphore semaphore(0);
	CompileTask* background_task = new CompileTask(job.get(), &semaphore);
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kPrepared, job);
	V8::GetCurrentPlatform()->CallOnBackgroundThread(background_task,
	Platform::kShortRunningTask);
	semaphore.Wait();
	job->FinalizeOnMainThread(isolate());
	ASSERT_FALSE(job->IsFailed());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kDone, job);

	job->ResetOnMainThread(isolate());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
	}

	TEST_F(UnoptimizedCompileJobTest, LazyInnerFunctions) {
	const char script[] =
	"f = function() {\n"
	" e = (function() { return 42; });\n"
	" return e;\n"
	"};\n"
	"f;";
	Handle<JSFunction> f = RunJS<JSFunction>(script);

	std::unique_ptr<UnoptimizedCompileJob> job(new UnoptimizedCompileJob(
	isolate(), tracer(), handle(f->shared()), FLAG_stack_size));

	job->PrepareOnMainThread(isolate());
	ASSERT_FALSE(job->IsFailed());
	job->Compile(false);
	ASSERT_FALSE(job->IsFailed());
	job->FinalizeOnMainThread(isolate());
	ASSERT_FALSE(job->IsFailed());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kDone, job);

	Handle<JSFunction> e = RunJS<JSFunction>("f();");

	ASSERT_FALSE(e->shared()->is_compiled());

	job->ResetOnMainThread(isolate());
	ASSERT_JOB_STATUS(CompilerDispatcherJob::Status::kInitial, job);
	}

	#undef ASSERT_JOB_STATUS

	} // namespace internal
	} // namespace v8