#include #include #include #include #include #include #include #include "librf.h" using namespace resumef; const size_t MAX_CHANNEL_QUEUE = 5; //0, 1, 5, 10, -1 future_t<> test_channel_read(const channel_t & c) { using namespace std::chrono; for (size_t i = 0; i < 10; ++i) { try { auto val = co_await c.read(); //auto val = co_await c; //第二种从channel读出数据的方法。利用重载operator co_await()，而不是c是一个awaitable_t。 std::cout << val << ":"; #if _DEBUG for (auto val : c.debug_queue()) std::cout << val << ","; #endif std::cout << std::endl; } catch (channel_exception e) { //MAX_CHANNEL_QUEUE=0,并且先读后写，会触发read_before_write异常 std::cout << e.what() << std::endl; } co_await sleep_for(50ms); } } future_t<> test_channel_write(const channel_t & c) { using namespace std::chrono; for (size_t i = 0; i < 10; ++i) { co_await c.write(std::to_string(i)); //co_await (c << std::to_string(i)); //第二种写入数据到channel的方法。因为优先级关系，需要将'c << i'括起来 std::cout << "<" << i << ">:"; #if _DEBUG for (auto val : c.debug_queue()) std::cout << val << ","; #endif std::cout << std::endl; } } void test_channel_read_first() { channel_t c(MAX_CHANNEL_QUEUE); go test_channel_read(c); go test_channel_write(c); this_scheduler()->run_until_notask(); } void test_channel_write_first() { channel_t c(MAX_CHANNEL_QUEUE); go test_channel_write(c); go test_channel_read(c); this_scheduler()->run_until_notask(); } void resumable_main_channel() { test_channel_read_first(); std::cout << std::endl; test_channel_write_first(); }