#include "../test.h" #include #include SCENARIO("take_until trigger on_next", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto xs = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.next(220, 3), on.next(230, 4), on.next(240, 5), on.completed(250) }); auto ys = sc.make_hot_observable({ on.next(150, 1), on.next(225, 99), on.completed(230) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [xs, ys]() { return xs | rxo::take_until(ys) // forget type to workaround lambda deduction bug on msvc 2013 | rxo::as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.next(210, 2), on.next(220, 3), on.completed(225) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the trigger"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = ys.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("take_until, preempt some data next", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto l = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.next(220, 3), on.next(230, 4), on.next(240, 5), on.completed(250) }); auto r = sc.make_hot_observable({ on.next(150, 1), on.next(225, 99), on.completed(230) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r]() { return l .take_until(r) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.next(210, 2), on.next(220, 3), on.completed(225) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = l.subscriptions(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the trigger"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = r.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("take_until, preempt some data error", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("take_until on_error from source"); auto l = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.next(220, 3), on.next(230, 4), on.next(240, 5), on.completed(250) }); auto r = sc.make_hot_observable({ on.next(150, 1), on.error(225, ex) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r]() { return l .take_until(r) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.next(210, 2), on.next(220, 3), on.error(225, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = l.subscriptions(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the trigger"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = r.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("take_until, no-preempt some data empty", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto l = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.next(220, 3), on.next(230, 4), on.next(240, 5), on.completed(250) }); auto r = sc.make_hot_observable({ on.next(150, 1), on.completed(225) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r]() { return l .take_until(r) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.next(210, 2), on.next(220, 3), on.next(230, 4), on.next(240, 5), on.completed(250) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 250) }); auto actual = l.subscriptions(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the trigger"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = r.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("take_until, no-preempt some data never", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto l = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.next(220, 3), on.next(230, 4), on.next(240, 5), on.completed(250) }); auto r = sc.make_hot_observable({ on.next(150, 1) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r]() { return l .take_until(r) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.next(210, 2), on.next(220, 3), on.next(230, 4), on.next(240, 5), on.completed(250) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 250) }); auto actual = l.subscriptions(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the trigger"){ auto required = rxu::to_vector({ on.subscribe(200, 250) }); auto actual = r.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("take_until, preempt never next", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto l = sc.make_hot_observable({ on.next(150, 1) }); auto r = sc.make_hot_observable({ on.next(150, 1), on.next(225, 2), //! on.completed(250) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r]() { return l .take_until(r) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.completed(225) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = l.subscriptions(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the trigger"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = r.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("take_until, preempt never error", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("take_until on_error from source"); auto l = sc.make_hot_observable({ on.next(150, 1) }); auto r = sc.make_hot_observable({ on.next(150, 1), on.error(225, ex) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r]() { return l .take_until(r) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.error(225, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = l.subscriptions(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the trigger"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = r.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("take_until, no-preempt never empty", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto l = sc.make_hot_observable({ on.next(150, 1) }); auto r = sc.make_hot_observable({ on.next(150, 1), on.completed(225) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r]() { return l .take_until(r) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = std::vector::recorded_type>(); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 1000 /* can't dispose prematurely, could be in flight to dispatch OnError */) }); auto actual = l.subscriptions(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the trigger"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = r.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("take_until, no-preempt never never", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto l = sc.make_hot_observable({ on.next(150, 1) }); auto r = sc.make_hot_observable({ on.next(150, 1) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r]() { return l .take_until(r) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = std::vector::recorded_type>(); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 1000) }); auto actual = l.subscriptions(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the trigger"){ auto required = rxu::to_vector({ on.subscribe(200, 1000) }); auto actual = r.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("take_until, preempt before first produced", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto l = sc.make_hot_observable({ on.next(150, 1), on.next(230, 2), on.completed(240) }); auto r = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), //! on.completed(220) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r]() { return l .take_until(r) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.completed(210) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 210) }); auto actual = l.subscriptions(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the trigger"){ auto required = rxu::to_vector({ on.subscribe(200, 210) }); auto actual = r.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("take_until, preempt before first produced, remain silent and proper unsubscribed", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; bool sourceNotDisposed = false; auto l = sc.make_hot_observable({ on.next(150, 1), on.error(215, std::runtime_error("error in unsubscribed stream")), // should not come on.completed(240) }); auto r = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), //! on.completed(220) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r, &sourceNotDisposed]() { return l .map([&sourceNotDisposed](int v){sourceNotDisposed = true; return v; }) .take_until(r) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.completed(210) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("signal disposed"){ auto required = false; auto actual = sourceNotDisposed; REQUIRE(required == actual); } } } } SCENARIO("take_until, no-preempt after last produced, proper unsubscribe signal", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; bool signalNotDisposed = false; auto l = sc.make_hot_observable({ on.next(150, 1), on.next(230, 2), on.completed(240) }); auto r = sc.make_hot_observable({ on.next(150, 1), on.next(250, 2), on.completed(260) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r, &signalNotDisposed]() { return l .take_until(r .map([&signalNotDisposed](int v){signalNotDisposed = true; return v; })) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.next(230, 2), on.completed(240) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("signal disposed"){ auto required = false; auto actual = signalNotDisposed; REQUIRE(required == actual); } } } } SCENARIO("take_until, error some", "[take_until][take][operators]"){ GIVEN("2 sources"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("take_until on_error from source"); auto l = sc.make_hot_observable({ on.next(150, 1), on.error(225, ex) }); auto r = sc.make_hot_observable({ on.next(150, 1), on.next(240, 2) }); WHEN("one is taken until the other emits a marble"){ auto res = w.start( [l, r]() { return l .take_until(r) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.error(225, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = l.subscriptions(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the trigger"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = r.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("take_until trigger on time point", "[take_until][take][operators]"){ GIVEN("a source and a time point"){ auto sc = rxsc::make_test(); auto so = rx::synchronize_in_one_worker(sc); auto w = sc.create_worker(); const rxsc::test::messages on; auto xs = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.next(220, 3), on.next(230, 4), on.next(240, 5), on.completed(250) }); auto t = sc.to_time_point(225); WHEN("invoked with a time point"){ auto res = w.start( [&]() { return xs | rxo::take_until(t, so) // forget type to workaround lambda deduction bug on msvc 2013 | rxo::as_dynamic(); } ); THEN("the output only contains items sent while subscribed"){ auto required = rxu::to_vector({ on.next(211, 2), on.next(221, 3), on.completed(226) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was 1 subscription/unsubscription to the source"){ auto required = rxu::to_vector({ on.subscribe(200, 226) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } } } }