Rx/v2/test/operators/merge.cpp - platform/external/Reactive-Extensions/RxCpp - Git at Google

 #include "../test.h"
 #include <rxcpp/operators/rx-reduce.hpp>
 #include <rxcpp/operators/rx-merge.hpp>
 #include <rxcpp/operators/rx-observe_on.hpp>

 const int static_onnextcalls = 1000000;


 SCENARIO("synchronize merge ranges", "[hide][range][synchronize][merge][perf]"){
     const int& onnextcalls = static_onnextcalls;
     GIVEN("some ranges"){
         WHEN("generating ints"){
             using namespace std::chrono;
             typedef steady_clock clock;

             auto so = rx::synchronize_event_loop();

             int n = 1;
             auto sectionCount = onnextcalls / 3;
             auto start = clock::now();
             int c = rxs::range(0, sectionCount - 1, 1, so)
                 .merge(
                     so,
                     rxs::range(sectionCount, (sectionCount * 2) - 1, 1, so),
                     rxs::range(sectionCount * 2, onnextcalls - 1, 1, so))
                 .as_blocking()
                 .count();

             auto finish = clock::now();
             auto msElapsed = duration_cast<milliseconds>(finish.time_since_epoch()) -
                    duration_cast<milliseconds>(start.time_since_epoch());
             std::cout << "merge sync ranges : " << n << " subscribed, " << c << " emitted, " << msElapsed.count() << "ms elapsed " << std::endl;
         }
     }
 }

 SCENARIO("observe_on merge ranges", "[hide][range][observe_on][merge][perf]"){
     const int& onnextcalls = static_onnextcalls;
     GIVEN("some ranges"){
         WHEN("generating ints"){
             using namespace std::chrono;
             typedef steady_clock clock;

             auto so = rx::observe_on_event_loop();

             int n = 1;
             auto sectionCount = onnextcalls / 3;
             auto start = clock::now();
             int c = rxs::range(0, sectionCount - 1, 1, so)
                 .merge(
                     so,
                     rxs::range(sectionCount, (sectionCount * 2) - 1, 1, so),
                     rxs::range(sectionCount * 2, onnextcalls - 1, 1, so))
                 .as_blocking()
                 .count();

             auto finish = clock::now();
             auto msElapsed = duration_cast<milliseconds>(finish.time_since_epoch()) -
                    duration_cast<milliseconds>(start.time_since_epoch());
             std::cout << "merge observe_on ranges : " << n << " subscribed, " << c << " emitted, " << msElapsed.count() << "ms elapsed " << std::endl;
         }
     }
 }

 SCENARIO("serialize merge ranges", "[hide][range][serialize][merge][perf]"){
     const int& onnextcalls = static_onnextcalls;
     GIVEN("some ranges"){
         WHEN("generating ints"){
             using namespace std::chrono;
             typedef steady_clock clock;

             auto so = rx::serialize_event_loop();

             int n = 1;
             auto sectionCount = onnextcalls / 3;
             auto start = clock::now();
             int c = rxs::range(0, sectionCount - 1, 1, so)
                 .merge(
                     so,
                     rxs::range(sectionCount, (sectionCount * 2) - 1, 1, so),
                     rxs::range(sectionCount * 2, onnextcalls - 1, 1, so))
                 .as_blocking()
                 .count();

             auto finish = clock::now();
             auto msElapsed = duration_cast<milliseconds>(finish.time_since_epoch()) -
                    duration_cast<milliseconds>(start.time_since_epoch());
             std::cout << "merge serial ranges : " << n << " subscribed, " << c << " emitted, " << msElapsed.count() << "ms elapsed " << std::endl;
         }
     }
 }

 SCENARIO("merge completes", "[merge][join][operators]"){
     GIVEN("1 hot observable with 3 cold observables of ints."){
         auto sc = rxsc::make_test();
         auto w = sc.create_worker();
         const rxsc::test::messages<int> on;
         const rxsc::test::messages<rx::observable<int>> o_on;

         auto ys1 = sc.make_cold_observable({
             on.next(10, 101),
             on.next(20, 102),
             on.next(110, 103),
             on.next(120, 104),
             on.next(210, 105),
             on.next(220, 106),
             on.completed(230)
         });

         auto ys2 = sc.make_cold_observable({
             on.next(10, 201),
             on.next(20, 202),
             on.next(30, 203),
             on.next(40, 204),
             on.completed(50)
         });

         auto ys3 = sc.make_cold_observable({
             on.next(10, 301),
             on.next(20, 302),
             on.next(30, 303),
             on.next(40, 304),
             on.next(120, 305),
             on.completed(150)
         });

         auto xs = sc.make_hot_observable({
             o_on.next(300, ys1),
             o_on.next(400, ys2),
             o_on.next(500, ys3),
             o_on.completed(600)
         });

         WHEN("each int is merged"){

             auto res = w.start(
                 [&]() {
                     return xs
                         | rxo::merge()
                         // forget type to workaround lambda deduction bug on msvc 2013
                         | rxo::as_dynamic();
                 }
             );

             THEN("the output contains merged ints"){
                 auto required = rxu::to_vector({
                     on.next(310, 101),
                     on.next(320, 102),
                     on.next(410, 103),
                     on.next(410, 201),
                     on.next(420, 104),
                     on.next(420, 202),
                     on.next(430, 203),
                     on.next(440, 204),
                     on.next(510, 105),
                     on.next(510, 301),
                     on.next(520, 106),
                     on.next(520, 302),
                     on.next(530, 303),
                     on.next(540, 304),
                     on.next(620, 305),
                     on.completed(650)
                 });
                 auto actual = res.get_observer().messages();
                 REQUIRE(required == actual);
             }

             THEN("there was one subscription and one unsubscription to the xs"){
                 auto required = rxu::to_vector({
                     on.subscribe(200, 600)
                 });
                 auto actual = xs.subscriptions();
                 REQUIRE(required == actual);
             }

             THEN("there was one subscription and one unsubscription to the ys1"){
                 auto required = rxu::to_vector({
                     on.subscribe(300, 530)
                 });
                 auto actual = ys1.subscriptions();
                 REQUIRE(required == actual);
             }

             THEN("there was one subscription and one unsubscription to the ys2"){
                 auto required = rxu::to_vector({
                     on.subscribe(400, 450)
                 });
                 auto actual = ys2.subscriptions();
                 REQUIRE(required == actual);
             }

             THEN("there was one subscription and one unsubscription to the ys3"){
                 auto required = rxu::to_vector({
                     on.subscribe(500, 650)
                 });
                 auto actual = ys3.subscriptions();
                 REQUIRE(required == actual);
             }
         }
     }
 }

 SCENARIO("variadic merge completes", "[merge][join][operators]"){
     GIVEN("1 hot observable with 3 cold observables of ints."){
         auto sc = rxsc::make_test();
         auto w = sc.create_worker();
         const rxsc::test::messages<int> on;
         const rxsc::test::messages<rx::observable<int>> o_on;

         auto ys1 = sc.make_cold_observable({
             on.next(10, 101),
             on.next(20, 102),
             on.next(110, 103),
             on.next(120, 104),
             on.next(210, 105),
             on.next(220, 106),
             on.completed(230)
         });

         auto ys2 = sc.make_cold_observable({
             on.next(10, 201),
             on.next(20, 202),
             on.next(30, 203),
             on.next(40, 204),
             on.completed(50)
         });

         auto ys3 = sc.make_cold_observable({
             on.next(10, 301),
             on.next(20, 302),
             on.next(30, 303),
             on.next(40, 304),
             on.next(120, 305),
             on.completed(150)
         });

         WHEN("each int is merged"){

             auto res = w.start(
                 [&]() {
                     return ys1
                         .merge(ys2, ys3);
                 }
             );

             THEN("the output contains merged ints"){
                 auto required = rxu::to_vector({
                     on.next(210, 101),
                     on.next(210, 201),
                     on.next(210, 301),
                     on.next(220, 102),
                     on.next(220, 202),
                     on.next(220, 302),
                     on.next(230, 203),
                     on.next(230, 303),
                     on.next(240, 204),
                     on.next(240, 304),
                     on.next(310, 103),
                     on.next(320, 104),
                     on.next(320, 305),
                     on.next(410, 105),
                     on.next(420, 106),
                     on.completed(430)
                 });
                 auto actual = res.get_observer().messages();
                 REQUIRE(required == actual);
             }

             THEN("there was one subscription and one unsubscription to the ys1"){
                 auto required = rxu::to_vector({
                     on.subscribe(200, 430)
                 });
                 auto actual = ys1.subscriptions();
                 REQUIRE(required == actual);
             }

             THEN("there was one subscription and one unsubscription to the ys2"){
                 auto required = rxu::to_vector({
                     on.subscribe(200, 250)
                 });
                 auto actual = ys2.subscriptions();
                 REQUIRE(required == actual);
             }

             THEN("there was one subscription and one unsubscription to the ys3"){
                 auto required = rxu::to_vector({
                     on.subscribe(200, 350)
                 });
                 auto actual = ys3.subscriptions();
                 REQUIRE(required == actual);
             }
         }
     }
 }
	#include "../test.h"
	#include <rxcpp/operators/rx-reduce.hpp>
	#include <rxcpp/operators/rx-merge.hpp>
	#include <rxcpp/operators/rx-observe_on.hpp>

	const int static_onnextcalls = 1000000;


	SCENARIO("synchronize merge ranges", "[hide][range][synchronize][merge][perf]"){
	const int& onnextcalls = static_onnextcalls;
	GIVEN("some ranges"){
	WHEN("generating ints"){
	using namespace std::chrono;
	typedef steady_clock clock;

	auto so = rx::synchronize_event_loop();

	int n = 1;
	auto sectionCount = onnextcalls / 3;
	auto start = clock::now();
	int c = rxs::range(0, sectionCount - 1, 1, so)
	.merge(
	so,
	rxs::range(sectionCount, (sectionCount * 2) - 1, 1, so),
	rxs::range(sectionCount * 2, onnextcalls - 1, 1, so))
	.as_blocking()
	.count();

	auto finish = clock::now();
	auto msElapsed = duration_cast<milliseconds>(finish.time_since_epoch()) -
	duration_cast<milliseconds>(start.time_since_epoch());
	std::cout << "merge sync ranges : " << n << " subscribed, " << c << " emitted, " << msElapsed.count() << "ms elapsed " << std::endl;
	}
	}
	}

	SCENARIO("observe_on merge ranges", "[hide][range][observe_on][merge][perf]"){
	const int& onnextcalls = static_onnextcalls;
	GIVEN("some ranges"){
	WHEN("generating ints"){
	using namespace std::chrono;
	typedef steady_clock clock;

	auto so = rx::observe_on_event_loop();

	int n = 1;
	auto sectionCount = onnextcalls / 3;
	auto start = clock::now();
	int c = rxs::range(0, sectionCount - 1, 1, so)
	.merge(
	so,
	rxs::range(sectionCount, (sectionCount * 2) - 1, 1, so),
	rxs::range(sectionCount * 2, onnextcalls - 1, 1, so))
	.as_blocking()
	.count();

	auto finish = clock::now();
	auto msElapsed = duration_cast<milliseconds>(finish.time_since_epoch()) -
	duration_cast<milliseconds>(start.time_since_epoch());
	std::cout << "merge observe_on ranges : " << n << " subscribed, " << c << " emitted, " << msElapsed.count() << "ms elapsed " << std::endl;
	}
	}
	}

	SCENARIO("serialize merge ranges", "[hide][range][serialize][merge][perf]"){
	const int& onnextcalls = static_onnextcalls;
	GIVEN("some ranges"){
	WHEN("generating ints"){
	using namespace std::chrono;
	typedef steady_clock clock;

	auto so = rx::serialize_event_loop();

	int n = 1;
	auto sectionCount = onnextcalls / 3;
	auto start = clock::now();
	int c = rxs::range(0, sectionCount - 1, 1, so)
	.merge(
	so,
	rxs::range(sectionCount, (sectionCount * 2) - 1, 1, so),
	rxs::range(sectionCount * 2, onnextcalls - 1, 1, so))
	.as_blocking()
	.count();

	auto finish = clock::now();
	auto msElapsed = duration_cast<milliseconds>(finish.time_since_epoch()) -
	duration_cast<milliseconds>(start.time_since_epoch());
	std::cout << "merge serial ranges : " << n << " subscribed, " << c << " emitted, " << msElapsed.count() << "ms elapsed " << std::endl;
	}
	}
	}

	SCENARIO("merge completes", "[merge][join][operators]"){
	GIVEN("1 hot observable with 3 cold observables of ints."){
	auto sc = rxsc::make_test();
	auto w = sc.create_worker();
	const rxsc::test::messages<int> on;
	const rxsc::test::messages<rx::observable<int>> o_on;

	auto ys1 = sc.make_cold_observable({
	on.next(10, 101),
	on.next(20, 102),
	on.next(110, 103),
	on.next(120, 104),
	on.next(210, 105),
	on.next(220, 106),
	on.completed(230)
	});

	auto ys2 = sc.make_cold_observable({
	on.next(10, 201),
	on.next(20, 202),
	on.next(30, 203),
	on.next(40, 204),
	on.completed(50)
	});

	auto ys3 = sc.make_cold_observable({
	on.next(10, 301),
	on.next(20, 302),
	on.next(30, 303),
	on.next(40, 304),
	on.next(120, 305),
	on.completed(150)
	});

	auto xs = sc.make_hot_observable({
	o_on.next(300, ys1),
	o_on.next(400, ys2),
	o_on.next(500, ys3),
	o_on.completed(600)
	});

	WHEN("each int is merged"){

	auto res = w.start(
	[&]() {
	return xs
	\| rxo::merge()
	// forget type to workaround lambda deduction bug on msvc 2013
	\| rxo::as_dynamic();
	}
	);

	THEN("the output contains merged ints"){
	auto required = rxu::to_vector({
	on.next(310, 101),
	on.next(320, 102),
	on.next(410, 103),
	on.next(410, 201),
	on.next(420, 104),
	on.next(420, 202),
	on.next(430, 203),
	on.next(440, 204),
	on.next(510, 105),
	on.next(510, 301),
	on.next(520, 106),
	on.next(520, 302),
	on.next(530, 303),
	on.next(540, 304),
	on.next(620, 305),
	on.completed(650)
	});
	auto actual = res.get_observer().messages();
	REQUIRE(required == actual);
	}

	THEN("there was one subscription and one unsubscription to the xs"){
	auto required = rxu::to_vector({
	on.subscribe(200, 600)
	});
	auto actual = xs.subscriptions();
	REQUIRE(required == actual);
	}

	THEN("there was one subscription and one unsubscription to the ys1"){
	auto required = rxu::to_vector({
	on.subscribe(300, 530)
	});
	auto actual = ys1.subscriptions();
	REQUIRE(required == actual);
	}

	THEN("there was one subscription and one unsubscription to the ys2"){
	auto required = rxu::to_vector({
	on.subscribe(400, 450)
	});
	auto actual = ys2.subscriptions();
	REQUIRE(required == actual);
	}

	THEN("there was one subscription and one unsubscription to the ys3"){
	auto required = rxu::to_vector({
	on.subscribe(500, 650)
	});
	auto actual = ys3.subscriptions();
	REQUIRE(required == actual);
	}
	}
	}
	}

	SCENARIO("variadic merge completes", "[merge][join][operators]"){
	GIVEN("1 hot observable with 3 cold observables of ints."){
	auto sc = rxsc::make_test();
	auto w = sc.create_worker();
	const rxsc::test::messages<int> on;
	const rxsc::test::messages<rx::observable<int>> o_on;

	auto ys1 = sc.make_cold_observable({
	on.next(10, 101),
	on.next(20, 102),
	on.next(110, 103),
	on.next(120, 104),
	on.next(210, 105),
	on.next(220, 106),
	on.completed(230)
	});

	auto ys2 = sc.make_cold_observable({
	on.next(10, 201),
	on.next(20, 202),
	on.next(30, 203),
	on.next(40, 204),
	on.completed(50)
	});

	auto ys3 = sc.make_cold_observable({
	on.next(10, 301),
	on.next(20, 302),
	on.next(30, 303),
	on.next(40, 304),
	on.next(120, 305),
	on.completed(150)
	});

	WHEN("each int is merged"){

	auto res = w.start(
	[&]() {
	return ys1
	.merge(ys2, ys3);
	}
	);

	THEN("the output contains merged ints"){
	auto required = rxu::to_vector({
	on.next(210, 101),
	on.next(210, 201),
	on.next(210, 301),
	on.next(220, 102),
	on.next(220, 202),
	on.next(220, 302),
	on.next(230, 203),
	on.next(230, 303),
	on.next(240, 204),
	on.next(240, 304),
	on.next(310, 103),
	on.next(320, 104),
	on.next(320, 305),
	on.next(410, 105),
	on.next(420, 106),
	on.completed(430)
	});
	auto actual = res.get_observer().messages();
	REQUIRE(required == actual);
	}

	THEN("there was one subscription and one unsubscription to the ys1"){
	auto required = rxu::to_vector({
	on.subscribe(200, 430)
	});
	auto actual = ys1.subscriptions();
	REQUIRE(required == actual);
	}

	THEN("there was one subscription and one unsubscription to the ys2"){
	auto required = rxu::to_vector({
	on.subscribe(200, 250)
	});
	auto actual = ys2.subscriptions();
	REQUIRE(required == actual);
	}

	THEN("there was one subscription and one unsubscription to the ys3"){
	auto required = rxu::to_vector({
	on.subscribe(200, 350)
	});
	auto actual = ys3.subscriptions();
	REQUIRE(required == actual);
	}
	}
	}
	}