#include "rxcpp/rx.hpp" #include "rxcpp/rx-test.hpp" #include "catch.hpp" SCENARIO("pairwise sample"){ printf("//! [pairwise sample]\n"); auto values = rxcpp::observable<>::range(1, 5).pairwise(); values. subscribe( [](std::tuple v){printf("OnNext: %d, %d\n", std::get<0>(v), std::get<1>(v));}, [](){printf("OnCompleted\n");}); printf("//! [pairwise sample]\n"); } SCENARIO("pairwise short sample"){ printf("//! [pairwise short sample]\n"); auto values = rxcpp::observable<>::just(1).pairwise(); values. subscribe( [](std::tuple v){printf("OnNext: %d, %d\n", std::get<0>(v), std::get<1>(v));}, [](){printf("OnCompleted\n");}); printf("//! [pairwise short sample]\n"); } //#include "main.hpp" // //SCENARIO("threaded flat_map sample"){ // printf("//! [threaded flat_map sample]\n"); // printf("[thread %s] Start task\n", get_pid().c_str()); // auto values = rxcpp::observable<>::range(1, 3). // flat_map( // [](int v){ // printf("[thread %s] Call CollectionSelector(v = %d)\n", get_pid().c_str(), v); // return // rxcpp::observable<>::interval(std::chrono::steady_clock::now() + std::chrono::milliseconds(10 * v), std::chrono::milliseconds(50)). // take(3); // }, // [](int v_main, int v_sub){ // printf("[thread %s] Call ResultSelector(v_main = %d, v_sub = %d)\n", get_pid().c_str(), v_main, v_sub); // return std::make_tuple(v_main, v_sub); // }, // rxcpp::observe_on_new_thread()); // values. // as_blocking(). // subscribe( // [](std::tuple v){printf("[thread %s] OnNext: %d - %d\n", get_pid().c_str(), std::get<0>(v), std::get<1>(v));}, // [](){printf("[thread %s] OnCompleted\n", get_pid().c_str());}); // printf("[thread %s] Finish task\n", get_pid().c_str()); // printf("//! [threaded flat_map sample]\n"); //}