fml/message_loop_task_queues_merge_unmerge_unittests.cc - external/github.com/flutter/engine - Git at Google

 // Copyright 2013 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #define FML_USED_ON_EMBEDDER

 #include <thread>

 #include "flutter/fml/message_loop_task_queues.h"
 #include "flutter/fml/synchronization/count_down_latch.h"
 #include "flutter/fml/synchronization/waitable_event.h"
 #include "gtest/gtest.h"

 class TestWakeable : public fml::Wakeable {
  public:
   using WakeUpCall = std::function<void(const fml::TimePoint)>;

   TestWakeable(WakeUpCall call) : wake_up_call_(call) {}

   void WakeUp(fml::TimePoint time_point) override { wake_up_call_(time_point); }

  private:
   WakeUpCall wake_up_call_;
 };

 TEST(MessageLoopTaskQueueMergeUnmerge,
      AfterMergePrimaryTasksServicedOnPrimary) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

   auto queue_id_1 = task_queue->CreateTaskQueue();
   auto queue_id_2 = task_queue->CreateTaskQueue();

   task_queue->RegisterTask(
       queue_id_1, []() {}, fml::TimePoint::Now());
   ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_1));

   task_queue->Merge(queue_id_1, queue_id_2);
   task_queue->RegisterTask(
       queue_id_1, []() {}, fml::TimePoint::Now());

   ASSERT_EQ(2u, task_queue->GetNumPendingTasks(queue_id_1));
   ASSERT_EQ(0u, task_queue->GetNumPendingTasks(queue_id_2));
 }

 TEST(MessageLoopTaskQueueMergeUnmerge,
      AfterMergeSecondaryTasksAlsoServicedOnPrimary) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

   auto queue_id_1 = task_queue->CreateTaskQueue();
   auto queue_id_2 = task_queue->CreateTaskQueue();

   task_queue->RegisterTask(
       queue_id_2, []() {}, fml::TimePoint::Now());
   ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_2));

   task_queue->Merge(queue_id_1, queue_id_2);
   ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_1));
   ASSERT_EQ(0u, task_queue->GetNumPendingTasks(queue_id_2));
 }

 TEST(MessageLoopTaskQueueMergeUnmerge, MergeUnmergeTasksPreserved) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

   auto queue_id_1 = task_queue->CreateTaskQueue();
   auto queue_id_2 = task_queue->CreateTaskQueue();

   task_queue->RegisterTask(
       queue_id_1, []() {}, fml::TimePoint::Now());
   task_queue->RegisterTask(
       queue_id_2, []() {}, fml::TimePoint::Now());

   ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_1));
   ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_2));

   task_queue->Merge(queue_id_1, queue_id_2);

   ASSERT_EQ(2u, task_queue->GetNumPendingTasks(queue_id_1));
   ASSERT_EQ(0u, task_queue->GetNumPendingTasks(queue_id_2));

   task_queue->Unmerge(queue_id_1);

   ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_1));
   ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_2));
 }

 TEST(MessageLoopTaskQueueMergeUnmerge, MergeFailIfAlreadyMergedOrSubsumed) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

   auto queue_id_1 = task_queue->CreateTaskQueue();
   auto queue_id_2 = task_queue->CreateTaskQueue();
   auto queue_id_3 = task_queue->CreateTaskQueue();

   task_queue->Merge(queue_id_1, queue_id_2);

   ASSERT_FALSE(task_queue->Merge(queue_id_1, queue_id_3));
   ASSERT_FALSE(task_queue->Merge(queue_id_2, queue_id_3));
 }

 TEST(MessageLoopTaskQueueMergeUnmerge, UnmergeFailsOnSubsumed) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

   auto queue_id_1 = task_queue->CreateTaskQueue();
   auto queue_id_2 = task_queue->CreateTaskQueue();

   task_queue->Merge(queue_id_1, queue_id_2);

   ASSERT_FALSE(task_queue->Unmerge(queue_id_2));
 }

 TEST(MessageLoopTaskQueueMergeUnmerge, MergeInvokesBothWakeables) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

   auto queue_id_1 = task_queue->CreateTaskQueue();
   auto queue_id_2 = task_queue->CreateTaskQueue();

   fml::CountDownLatch latch(2);

   task_queue->SetWakeable(
       queue_id_1,
       new TestWakeable([&](fml::TimePoint wake_time) { latch.CountDown(); }));
   task_queue->SetWakeable(
       queue_id_2,
       new TestWakeable([&](fml::TimePoint wake_time) { latch.CountDown(); }));

   task_queue->RegisterTask(
       queue_id_1, []() {}, fml::TimePoint::Now());

   task_queue->Merge(queue_id_1, queue_id_2);

   std::vector<fml::closure> invocations;
   task_queue->GetTasksToRunNow(queue_id_1, fml::FlushType::kAll, invocations);

   latch.Wait();
 }

 TEST(MessageLoopTaskQueueMergeUnmerge,
      MergeUnmergeInvokesBothWakeablesSeparately) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

   auto queue_id_1 = task_queue->CreateTaskQueue();
   auto queue_id_2 = task_queue->CreateTaskQueue();

   fml::AutoResetWaitableEvent latch_1, latch_2;

   task_queue->SetWakeable(
       queue_id_1,
       new TestWakeable([&](fml::TimePoint wake_time) { latch_1.Signal(); }));
   task_queue->SetWakeable(
       queue_id_2,
       new TestWakeable([&](fml::TimePoint wake_time) { latch_2.Signal(); }));

   task_queue->RegisterTask(
       queue_id_1, []() {}, fml::TimePoint::Now());
   task_queue->RegisterTask(
       queue_id_2, []() {}, fml::TimePoint::Now());

   task_queue->Merge(queue_id_1, queue_id_2);
   task_queue->Unmerge(queue_id_1);

   std::vector<fml::closure> invocations;

   task_queue->GetTasksToRunNow(queue_id_1, fml::FlushType::kAll, invocations);
   latch_1.Wait();

   task_queue->GetTasksToRunNow(queue_id_2, fml::FlushType::kAll, invocations);
   latch_2.Wait();
 }

 TEST(MessageLoopTaskQueueMergeUnmerge, GetTasksToRunNowBlocksMerge) {
   auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

   auto queue_id_1 = task_queue->CreateTaskQueue();
   auto queue_id_2 = task_queue->CreateTaskQueue();

   fml::AutoResetWaitableEvent wake_up_start, wake_up_end, merge_start,
       merge_end;

   task_queue->RegisterTask(
       queue_id_1, []() {}, fml::TimePoint::Now());
   task_queue->SetWakeable(queue_id_1,
                           new TestWakeable([&](fml::TimePoint wake_time) {
                             wake_up_start.Signal();
                             wake_up_end.Wait();
                           }));

   std::thread tasks_to_run_now_thread([&]() {
     std::vector<fml::closure> invocations;
     task_queue->GetTasksToRunNow(queue_id_1, fml::FlushType::kAll, invocations);
   });

   wake_up_start.Wait();
   bool merge_done = false;

   std::thread merge_thread([&]() {
     merge_start.Signal();
     task_queue->Merge(queue_id_1, queue_id_2);
     merge_done = true;
     merge_end.Signal();
   });

   merge_start.Wait();
   ASSERT_FALSE(merge_done);
   wake_up_end.Signal();

   merge_end.Wait();
   ASSERT_TRUE(merge_done);

   tasks_to_run_now_thread.join();
   merge_thread.join();
 }
	// Copyright 2013 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#define FML_USED_ON_EMBEDDER

	#include <thread>

	#include "flutter/fml/message_loop_task_queues.h"
	#include "flutter/fml/synchronization/count_down_latch.h"
	#include "flutter/fml/synchronization/waitable_event.h"
	#include "gtest/gtest.h"

	class TestWakeable : public fml::Wakeable {
	public:
	using WakeUpCall = std::function<void(const fml::TimePoint)>;

	TestWakeable(WakeUpCall call) : wake_up_call_(call) {}

	void WakeUp(fml::TimePoint time_point) override { wake_up_call_(time_point); }

	private:
	WakeUpCall wake_up_call_;
	};

	TEST(MessageLoopTaskQueueMergeUnmerge,
	AfterMergePrimaryTasksServicedOnPrimary) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

	auto queue_id_1 = task_queue->CreateTaskQueue();
	auto queue_id_2 = task_queue->CreateTaskQueue();

	task_queue->RegisterTask(
	queue_id_1, []() {}, fml::TimePoint::Now());
	ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_1));

	task_queue->Merge(queue_id_1, queue_id_2);
	task_queue->RegisterTask(
	queue_id_1, []() {}, fml::TimePoint::Now());

	ASSERT_EQ(2u, task_queue->GetNumPendingTasks(queue_id_1));
	ASSERT_EQ(0u, task_queue->GetNumPendingTasks(queue_id_2));
	}

	TEST(MessageLoopTaskQueueMergeUnmerge,
	AfterMergeSecondaryTasksAlsoServicedOnPrimary) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

	auto queue_id_1 = task_queue->CreateTaskQueue();
	auto queue_id_2 = task_queue->CreateTaskQueue();

	task_queue->RegisterTask(
	queue_id_2, []() {}, fml::TimePoint::Now());
	ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_2));

	task_queue->Merge(queue_id_1, queue_id_2);
	ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_1));
	ASSERT_EQ(0u, task_queue->GetNumPendingTasks(queue_id_2));
	}

	TEST(MessageLoopTaskQueueMergeUnmerge, MergeUnmergeTasksPreserved) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

	auto queue_id_1 = task_queue->CreateTaskQueue();
	auto queue_id_2 = task_queue->CreateTaskQueue();

	task_queue->RegisterTask(
	queue_id_1, []() {}, fml::TimePoint::Now());
	task_queue->RegisterTask(
	queue_id_2, []() {}, fml::TimePoint::Now());

	ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_1));
	ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_2));

	task_queue->Merge(queue_id_1, queue_id_2);

	ASSERT_EQ(2u, task_queue->GetNumPendingTasks(queue_id_1));
	ASSERT_EQ(0u, task_queue->GetNumPendingTasks(queue_id_2));

	task_queue->Unmerge(queue_id_1);

	ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_1));
	ASSERT_EQ(1u, task_queue->GetNumPendingTasks(queue_id_2));
	}

	TEST(MessageLoopTaskQueueMergeUnmerge, MergeFailIfAlreadyMergedOrSubsumed) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

	auto queue_id_1 = task_queue->CreateTaskQueue();
	auto queue_id_2 = task_queue->CreateTaskQueue();
	auto queue_id_3 = task_queue->CreateTaskQueue();

	task_queue->Merge(queue_id_1, queue_id_2);

	ASSERT_FALSE(task_queue->Merge(queue_id_1, queue_id_3));
	ASSERT_FALSE(task_queue->Merge(queue_id_2, queue_id_3));
	}

	TEST(MessageLoopTaskQueueMergeUnmerge, UnmergeFailsOnSubsumed) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

	auto queue_id_1 = task_queue->CreateTaskQueue();
	auto queue_id_2 = task_queue->CreateTaskQueue();

	task_queue->Merge(queue_id_1, queue_id_2);

	ASSERT_FALSE(task_queue->Unmerge(queue_id_2));
	}

	TEST(MessageLoopTaskQueueMergeUnmerge, MergeInvokesBothWakeables) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

	auto queue_id_1 = task_queue->CreateTaskQueue();
	auto queue_id_2 = task_queue->CreateTaskQueue();

	fml::CountDownLatch latch(2);

	task_queue->SetWakeable(
	queue_id_1,
	new TestWakeable([&](fml::TimePoint wake_time) { latch.CountDown(); }));
	task_queue->SetWakeable(
	queue_id_2,
	new TestWakeable([&](fml::TimePoint wake_time) { latch.CountDown(); }));

	task_queue->RegisterTask(
	queue_id_1, []() {}, fml::TimePoint::Now());

	task_queue->Merge(queue_id_1, queue_id_2);

	std::vector<fml::closure> invocations;
	task_queue->GetTasksToRunNow(queue_id_1, fml::FlushType::kAll, invocations);

	latch.Wait();
	}

	TEST(MessageLoopTaskQueueMergeUnmerge,
	MergeUnmergeInvokesBothWakeablesSeparately) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

	auto queue_id_1 = task_queue->CreateTaskQueue();
	auto queue_id_2 = task_queue->CreateTaskQueue();

	fml::AutoResetWaitableEvent latch_1, latch_2;

	task_queue->SetWakeable(
	queue_id_1,
	new TestWakeable([&](fml::TimePoint wake_time) { latch_1.Signal(); }));
	task_queue->SetWakeable(
	queue_id_2,
	new TestWakeable([&](fml::TimePoint wake_time) { latch_2.Signal(); }));

	task_queue->RegisterTask(
	queue_id_1, []() {}, fml::TimePoint::Now());
	task_queue->RegisterTask(
	queue_id_2, []() {}, fml::TimePoint::Now());

	task_queue->Merge(queue_id_1, queue_id_2);
	task_queue->Unmerge(queue_id_1);

	std::vector<fml::closure> invocations;

	task_queue->GetTasksToRunNow(queue_id_1, fml::FlushType::kAll, invocations);
	latch_1.Wait();

	task_queue->GetTasksToRunNow(queue_id_2, fml::FlushType::kAll, invocations);
	latch_2.Wait();
	}

	TEST(MessageLoopTaskQueueMergeUnmerge, GetTasksToRunNowBlocksMerge) {
	auto task_queue = fml::MessageLoopTaskQueues::GetInstance();

	auto queue_id_1 = task_queue->CreateTaskQueue();
	auto queue_id_2 = task_queue->CreateTaskQueue();

	fml::AutoResetWaitableEvent wake_up_start, wake_up_end, merge_start,
	merge_end;

	task_queue->RegisterTask(
	queue_id_1, []() {}, fml::TimePoint::Now());
	task_queue->SetWakeable(queue_id_1,
	new TestWakeable([&](fml::TimePoint wake_time) {
	wake_up_start.Signal();
	wake_up_end.Wait();
	}));

	std::thread tasks_to_run_now_thread([&]() {
	std::vector<fml::closure> invocations;
	task_queue->GetTasksToRunNow(queue_id_1, fml::FlushType::kAll, invocations);
	});

	wake_up_start.Wait();
	bool merge_done = false;

	std::thread merge_thread([&]() {
	merge_start.Signal();
	task_queue->Merge(queue_id_1, queue_id_2);
	merge_done = true;
	merge_end.Signal();
	});

	merge_start.Wait();
	ASSERT_FALSE(merge_done);
	wake_up_end.Signal();

	merge_end.Wait();
	ASSERT_TRUE(merge_done);

	tasks_to_run_now_thread.join();
	merge_thread.join();
	}