#include "../test.h" #include SCENARIO("zip never/never", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto n1 = sc.make_hot_observable({ on.next(150, 1) }); auto n2 = sc.make_hot_observable({ on.next(150, 1) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return n1 | rxo::zip( [](int v2, int v1){ return v2 + v1; }, n2 ) // forget type to workaround lambda deduction bug on msvc 2013 | rxo::as_dynamic(); } ); THEN("the output is empty"){ auto required = std::vector::recorded_type>(); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the n1"){ auto required = rxu::to_vector({ on.subscribe(200, 1000) }); auto actual = n1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the n2"){ auto required = rxu::to_vector({ on.subscribe(200, 1000) }); auto actual = n2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip never N", "[zip][join][operators]"){ GIVEN("N never completed hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const std::size_t N = 4; std::vector> n; for (std::size_t i = 0; i < N; ++i) { n.push_back( sc.make_hot_observable({ on.next(150, 1) }) ); } WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return n[0] | rxo::zip( [](int v0, int v1, int v2, int v3){ return v0 + v1 + v2 + v3; }, n[1], n[2], n[3] ) // forget type to workaround lambda deduction bug on msvc 2013 | rxo::as_dynamic(); } ); THEN("the output is empty"){ auto required = std::vector::recorded_type>(); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to each observable"){ std::for_each(n.begin(), n.end(), [&](rxcpp::test::testable_observable &s){ auto required = rxu::to_vector({ on.subscribe(200, 1000) }); auto actual = s.subscriptions(); REQUIRE(required == actual); }); } } } } SCENARIO("zip never/empty", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto n = sc.make_hot_observable({ on.next(150, 1) }); auto e = sc.make_hot_observable({ on.next(150, 1), on.completed(210) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return n .zip( [](int v2, int v1){ return v2 + v1; }, e ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output is empty"){ auto required = std::vector::recorded_type>(); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the n"){ auto required = rxu::to_vector({ on.subscribe(200, 1000) }); auto actual = n.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the e"){ auto required = rxu::to_vector({ on.subscribe(200, 210) }); auto actual = e.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip empty/never", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto e = sc.make_hot_observable({ on.next(150, 1), on.completed(210) }); auto n = sc.make_hot_observable({ on.next(150, 1) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return e .zip( [](int v2, int v1){ return v2 + v1; }, n ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output is empty"){ auto required = std::vector::recorded_type>(); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the e"){ auto required = rxu::to_vector({ on.subscribe(200, 210) }); auto actual = e.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the n"){ auto required = rxu::to_vector({ on.subscribe(200, 1000) }); auto actual = n.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip empty/empty", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto e1 = sc.make_hot_observable({ on.next(150, 1), on.completed(210) }); auto e2 = sc.make_hot_observable({ on.next(150, 1), on.completed(210) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return e1 .zip( [](int v2, int v1){ return v2 + v1; }, e2 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only complete message"){ auto required = rxu::to_vector({ on.completed(210) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the e"){ auto required = rxu::to_vector({ on.subscribe(200, 210) }); auto actual = e1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the n"){ auto required = rxu::to_vector({ on.subscribe(200, 210) }); auto actual = e2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip empty N", "[zip][join][operators]"){ GIVEN("N empty hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const int N = 4; std::vector> e; for (int i = 0; i < N; ++i) { e.push_back( sc.make_hot_observable({ on.next(150, 1), on.completed(210 + 10 * i) }) ); } WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return e[0] .zip( [](int v0, int v1, int v2, int v3){ return v0 + v1 + v2 + v3; }, e[1], e[2], e[3] ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only complete message"){ auto required = rxu::to_vector({ on.completed(200 + 10 * N) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to each observable"){ int i = 0; std::for_each(e.begin(), e.end(), [&](rxcpp::test::testable_observable &s){ auto required = rxu::to_vector({ on.subscribe(200, 200 + 10 * ++i) }); auto actual = s.subscriptions(); REQUIRE(required == actual); }); } } } } SCENARIO("zip empty/return", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto e = sc.make_hot_observable({ on.next(150, 1), on.completed(210) }); auto o = sc.make_hot_observable({ on.next(150, 1), on.next(215, 2), on.completed(220) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return e .zip( [](int v2, int v1){ return v2 + v1; }, o ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only complete message"){ auto required = rxu::to_vector({ on.completed(215) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the e"){ auto required = rxu::to_vector({ on.subscribe(200, 210) }); auto actual = e.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o"){ auto required = rxu::to_vector({ on.subscribe(200, 215) }); auto actual = o.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip return/empty", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto o = sc.make_hot_observable({ on.next(150, 1), on.next(215, 2), on.completed(220) }); auto e = sc.make_hot_observable({ on.next(150, 1), on.completed(210) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o .zip( [](int v2, int v1){ return v2 + v1; }, e ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only complete message"){ auto required = rxu::to_vector({ on.completed(215) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o"){ auto required = rxu::to_vector({ on.subscribe(200, 215) }); auto actual = o.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the e"){ auto required = rxu::to_vector({ on.subscribe(200, 210) }); auto actual = e.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip never/return", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto n = sc.make_hot_observable({ on.next(150, 1) }); auto o = sc.make_hot_observable({ on.next(150, 1), on.next(215, 2), on.completed(220) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return n .zip( [](int v2, int v1){ return v2 + v1; }, o ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output is empty"){ auto required = std::vector::recorded_type>(); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the n"){ auto required = rxu::to_vector({ on.subscribe(200, 1000) }); auto actual = n.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = o.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip return/never", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto o = sc.make_hot_observable({ on.next(150, 1), on.next(215, 2), on.completed(220) }); auto n = sc.make_hot_observable({ on.next(150, 1) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o .zip( [](int v2, int v1){ return v2 + v1; }, n ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output is empty"){ auto required = std::vector::recorded_type>(); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the n"){ auto required = rxu::to_vector({ on.subscribe(200, 1000) }); auto actual = n.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = o.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip return/return", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto o1 = sc.make_hot_observable({ on.next(150, 1), on.next(215, 2), on.completed(230) }); auto o2 = sc.make_hot_observable({ on.next(150, 1), on.next(220, 3), on.completed(240) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o1 .zip( [](int v2, int v1){ return v2 + v1; }, o2 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains combined ints"){ auto required = rxu::to_vector({ on.next(220, 2 + 3), on.completed(240) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o1"){ auto required = rxu::to_vector({ on.subscribe(200, 230) }); auto actual = o1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o2"){ auto required = rxu::to_vector({ on.subscribe(200, 240) }); auto actual = o2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip empty/error", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("zip on_error from source"); auto emp = sc.make_hot_observable({ on.next(150, 1), on.completed(230) }); auto err = sc.make_hot_observable({ on.next(150, 1), on.error(220, ex) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return emp .zip( [](int v2, int v1){ return v2 + v1; }, err ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ on.error(220, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the emp"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = emp.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip error/empty", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("zip on_error from source"); auto err = sc.make_hot_observable({ on.next(150, 1), on.error(220, ex) }); auto emp = sc.make_hot_observable({ on.next(150, 1), on.completed(230) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return err .zip( [](int v2, int v1){ return v2 + v1; }, emp ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ on.error(220, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the emp"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = emp.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip never/error", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("zip on_error from source"); auto n = sc.make_hot_observable({ on.next(150, 1) }); auto err = sc.make_hot_observable({ on.next(150, 1), on.error(220, ex) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return n .zip( [](int v2, int v1){ return v2 + v1; }, err ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ on.error(220, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the n"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = n.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip error/never", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("zip on_error from source"); auto err = sc.make_hot_observable({ on.next(150, 1), on.error(220, ex) }); auto n = sc.make_hot_observable({ on.next(150, 1) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return err .zip( [](int v2, int v1){ return v2 + v1; }, n ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ on.error(220, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the n"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = n.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip error/error", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex1("zip on_error from source 1"); std::runtime_error ex2("zip on_error from source 2"); auto err1 = sc.make_hot_observable({ on.next(150, 1), on.error(220, ex1) }); auto err2 = sc.make_hot_observable({ on.next(150, 1), on.error(230, ex2) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return err1 .zip( [](int v2, int v1){ return v2 + v1; }, err2 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ on.error(220, ex1) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err1"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err2"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip return/error", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("zip on_error from source"); auto o = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.completed(230) }); auto err = sc.make_hot_observable({ on.next(150, 1), on.error(220, ex) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o .zip( [](int v2, int v1){ return v2 + v1; }, err ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ on.error(220, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the ret"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = o.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip error/return", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("zip on_error from source"); auto err = sc.make_hot_observable({ on.next(150, 1), on.error(220, ex) }); auto ret = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.completed(230) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return err .zip( [](int v2, int v1){ return v2 + v1; }, ret ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ on.error(220, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the ret"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = ret.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip left completes first", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto o1 = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.completed(220) }); auto o2 = sc.make_hot_observable({ on.next(150, 1), on.next(215, 4), on.completed(225) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o2 .zip( [](int v2, int v1){ return v2 + v1; }, o1 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains combined ints"){ auto required = rxu::to_vector({ on.next(215, 2 + 4), on.completed(225) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o1"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = o1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o2"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = o2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip right completes first", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto o1 = sc.make_hot_observable({ on.next(150, 1), on.next(215, 4), on.completed(225) }); auto o2 = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.completed(220) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o2 .zip( [](int v2, int v1){ return v2 + v1; }, o1 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains combined ints"){ auto required = rxu::to_vector({ on.next(215, 2 + 4), on.completed(225) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o1"){ auto required = rxu::to_vector({ on.subscribe(200, 225) }); auto actual = o1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o2"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = o2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip selector throws", "[zip][join][operators][!throws]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("zip on_error from source"); auto o1 = sc.make_hot_observable({ on.next(150, 1), on.next(215, 2), on.completed(230) }); auto o2 = sc.make_hot_observable({ on.next(150, 1), on.next(220, 3), on.completed(240) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o1 .zip( [&ex](int, int) -> int { rxu::throw_exception(ex); }, o2 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error"){ auto required = rxu::to_vector({ on.error(220, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o1"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = o1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o2"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = o2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip selector throws N", "[zip][join][operators][!throws]"){ GIVEN("N hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const int N = 4; std::runtime_error ex("zip on_error from source"); std::vector> e; for (int i = 0; i < N; ++i) { e.push_back( sc.make_hot_observable({ on.next(210 + 10 * i, 1), on.completed(500) }) ); } WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return e[0] .zip( [&ex](int, int, int, int) -> int { rxu::throw_exception(ex); }, e[1], e[2], e[3] ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error"){ auto required = rxu::to_vector({ on.error(200 + 10 * N, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to each observable"){ std::for_each(e.begin(), e.end(), [&](rxcpp::test::testable_observable &s){ auto required = rxu::to_vector({ on.subscribe(200, 200 + 10 * N) }); auto actual = s.subscriptions(); REQUIRE(required == actual); }); } } } } SCENARIO("zip typical N", "[zip][join][operators]"){ GIVEN("N hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const int N = 4; std::vector> o; for (int i = 0; i < N; ++i) { o.push_back( sc.make_hot_observable({ on.next(150, 1), on.next(210 + 10 * i, i + 1), on.next(410 + 10 * i, i + N + 1), on.completed(800) }) ); } WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o[0] .zip( [](int v0, int v1, int v2, int v3) { return v0 + v1 + v2 + v3; }, o[1], o[2], o[3] ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains combined ints"){ auto required = rxu::to_vector({ on.next(200 + 10 * N, N * (N + 1) / 2), on.next(400 + 10 * N, N * (3 * N + 1) / 2) }); required.push_back(on.completed(800)); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to each observable"){ std::for_each(o.begin(), o.end(), [&](rxcpp::test::testable_observable &s){ auto required = rxu::to_vector({ on.subscribe(200, 800) }); auto actual = s.subscriptions(); REQUIRE(required == actual); }); } } } } SCENARIO("zip interleaved with tail", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto o1 = sc.make_hot_observable({ on.next(150, 1), on.next(215, 2), on.next(225, 4), on.completed(230) }); auto o2 = sc.make_hot_observable({ on.next(150, 1), on.next(220, 3), on.next(230, 5), on.next(235, 6), on.next(240, 7), on.completed(250) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o2 .zip( [](int v2, int v1){ return v2 + v1; }, o1 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains combined ints"){ auto required = rxu::to_vector({ on.next(220, 2 + 3), on.next(230, 4 + 5), on.completed(230) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o1"){ auto required = rxu::to_vector({ on.subscribe(200, 230) }); auto actual = o1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o2"){ auto required = rxu::to_vector({ on.subscribe(200, 230) }); auto actual = o2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip consecutive", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; auto o1 = sc.make_hot_observable({ on.next(150, 1), on.next(215, 2), on.next(225, 4), on.completed(230) }); auto o2 = sc.make_hot_observable({ on.next(150, 1), on.next(235, 6), on.next(240, 7), on.completed(250) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o2 .zip( [](int v2, int v1){ return v2 + v1; }, o1 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains combined ints"){ auto required = rxu::to_vector({ on.next(235, 2 + 6), on.next(240, 4 + 7), on.completed(240) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o1"){ auto required = rxu::to_vector({ on.subscribe(200, 230) }); auto actual = o1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o2"){ auto required = rxu::to_vector({ on.subscribe(200, 240) }); auto actual = o2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip consecutive ends with error left", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("zip on_error from source"); auto o1 = sc.make_hot_observable({ on.next(150, 1), on.next(215, 2), on.next(225, 4), on.error(230, ex) }); auto o2 = sc.make_hot_observable({ on.next(150, 1), on.next(235, 6), on.next(240, 7), on.completed(250) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o2 .zip( [](int v2, int v1){ return v2 + v1; }, o1 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only an error"){ auto required = rxu::to_vector({ on.error(230, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o1"){ auto required = rxu::to_vector({ on.subscribe(200, 230) }); auto actual = o1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o2"){ auto required = rxu::to_vector({ on.subscribe(200, 230) }); auto actual = o2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip consecutive ends with error right", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("zip on_error from source"); auto o1 = sc.make_hot_observable({ on.next(150, 1), on.next(215, 2), on.next(225, 4), on.completed(250) }); auto o2 = sc.make_hot_observable({ on.next(150, 1), on.next(235, 6), on.next(240, 7), on.error(245, ex) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return o2 .zip( [](int v2, int v1){ return v2 + v1; }, o1 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains combined ints followed by an error"){ auto required = rxu::to_vector({ on.next(235, 2 + 6), on.next(240, 4 + 7), on.error(245, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o1"){ auto required = rxu::to_vector({ on.subscribe(200, 245) }); auto actual = o1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the o2"){ auto required = rxu::to_vector({ on.subscribe(200, 245) }); auto actual = o2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip next+error/error", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex1("zip on_error from source 1"); std::runtime_error ex2("zip on_error from source 2"); auto err1 = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.error(220, ex1) }); auto err2 = sc.make_hot_observable({ on.next(150, 1), on.error(230, ex2) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return err1 .zip( [](int v2, int v1){ return v2 + v1; }, err2 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ on.error(220, ex1) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err1"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err2"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip error/next+error", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex1("zip on_error from source 1"); std::runtime_error ex2("zip on_error from source 2"); auto err1 = sc.make_hot_observable({ on.next(150, 1), on.error(230, ex1) }); auto err2 = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.error(220, ex2) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return err1 .zip( [](int v2, int v1){ return v2 + v1; }, err2 ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ on.error(220, ex2) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err1"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err1.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err2"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err2.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip error after completed left", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("zip on_error from source"); auto ret = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.completed(215) }); auto err = sc.make_hot_observable({ on.next(150, 1), on.error(220, ex) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return ret .zip( [](int v2, int v1){ return v2 + v1; }, err ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ on.error(220, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the ret"){ auto required = rxu::to_vector({ on.subscribe(200, 215) }); auto actual = ret.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("zip error after completed right", "[zip][join][operators]"){ GIVEN("2 hot observables of ints."){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; std::runtime_error ex("zip on_error from source"); auto err = sc.make_hot_observable({ on.next(150, 1), on.error(220, ex) }); auto ret = sc.make_hot_observable({ on.next(150, 1), on.next(210, 2), on.completed(215) }); WHEN("each int is combined with the latest from the other source"){ auto res = w.start( [&]() { return err .zip( [](int v2, int v1){ return v2 + v1; }, ret ) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ on.error(220, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the ret"){ auto required = rxu::to_vector({ on.subscribe(200, 215) }); auto actual = ret.subscriptions(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription to the err"){ auto required = rxu::to_vector({ on.subscribe(200, 220) }); auto actual = err.subscriptions(); REQUIRE(required == actual); } } } }