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基于C++ Coroutines提案 ‘Stackless Resumable Functions’编写的协程库
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librf/tutorial/test_async_channel_mult_thr...

test_async_channel_mult_thread.cpp 2.5KB
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  1. //验证channel是否线程安全

  2. 

  3. #include <chrono>

  4. #include <iostream>

  5. #include <string>

  6. #include <thread>

  7. #include <deque>

  8. #include <mutex>

  9. 

  10. #include "librf.h"

  11. 

  12. using namespace resumef;

  13. 

  14. using namespace std::chrono;

  15. static std::mutex cout_mutex;

  16. std::atomic<intptr_t> gcounter = 0;

  17. 

  18. #define OUTPUT_DEBUG	0

  19. 

  20. future_t<> test_channel_consumer(channel_t<std::string> c, size_t cnt)

  21. {

  22. 	for (size_t i = 0; i < cnt; ++i)

  23. 	{

  24. #ifndef __clang__

  25. 		try

  26. #endif

  27. 		{

  28. 			auto val = co_await c.read();

  29. 			++gcounter;

  30. #if OUTPUT_DEBUG

  31. 			{

  32. 				scoped_lock<std::mutex> __lock(cout_mutex);

  33. 				std::cout << "R " << val << "@" << std::this_thread::get_id() << std::endl;

  34. 			}

  35. #endif

  36. 		}

  37. #ifndef __clang__

  38. 		catch (channel_exception& e)

  39. 		{

  40. 			//MAX_CHANNEL_QUEUE=0,并且先读后写,会触发read_before_write异常

  41. 			scoped_lock<std::mutex> __lock(cout_mutex);

  42. 			std::cout << e.what() << std::endl;

  43. 		}

  44. #endif

  45. 

  46. #if OUTPUT_DEBUG

  47. 		co_await sleep_for(50ms);

  48. #endif

  49. 	}

  50. }

  51. 

  52. future_t<> test_channel_producer(channel_t<std::string> c, size_t cnt)

  53. {

  54. 	for (size_t i = 0; i < cnt; ++i)

  55. 	{

  56. 		co_await c.write(std::to_string(i));

  57. #if OUTPUT_DEBUG

  58. 		{

  59. 			scoped_lock<std::mutex> __lock(cout_mutex);

  60. 			std::cout << "W " << i << "@" << std::this_thread::get_id() << std::endl;

  61. 		}

  62. #endif

  63. 	}

  64. }

  65. 

  66. const size_t WRITE_THREAD = 6;

  67. const size_t READ_THREAD = 6;

  68. const size_t READ_BATCH = 1000000;

  69. const size_t MAX_CHANNEL_QUEUE = 5;		//0, 1, 5, 10, -1

  70. 

  71. void resumable_main_channel_mult_thread()

  72. {

  73. 	channel_t<std::string> c(MAX_CHANNEL_QUEUE);

  74. 

  75. 	std::thread write_th[WRITE_THREAD];

  76. 	for (size_t i = 0; i < WRITE_THREAD; ++i)

  77. 	{

  78. 		write_th[i] = std::thread([&]

  79. 		{

  80. 			local_scheduler my_scheduler;

  81. 			go test_channel_producer(c, READ_BATCH * READ_THREAD / WRITE_THREAD);

  82. 			this_scheduler()->run_until_notask();

  83. 

  84. 			{

  85. 				scoped_lock<std::mutex> __lock(cout_mutex);

  86. 				std::cout << "Write OK\r\n";

  87. 			}

  88. 		});

  89. 	}

  90. 

  91. 	std::this_thread::sleep_for(100ms);

  92. 

  93. 	std::thread read_th[READ_THREAD];

  94. 	for (size_t i = 0; i < READ_THREAD; ++i)

  95. 	{

  96. 		read_th[i] = std::thread([&]

  97. 		{

  98. 			local_scheduler my_scheduler;

  99. 			go test_channel_consumer(c, READ_BATCH);

  100. 			this_scheduler()->run_until_notask();

  101. 

  102. 			{

  103. 				scoped_lock<std::mutex> __lock(cout_mutex);

  104. 				std::cout << "Read OK\r\n";

  105. 			}

  106. 		});

  107. 	}

  108. 	

  109. 	std::this_thread::sleep_for(100ms);

  110. 	scheduler_t::g_scheduler.run_until_notask();

  111. 

  112. 	for(auto & th : read_th)

  113. 		th.join();

  114. 	for (auto& th : write_th)

  115. 		th.join();

  116. 

  117. 	std::cout << "OK: counter = " << gcounter.load() << std::endl;

  118. }