#include "../test.h" #include "rxcpp/operators/rx-reduce.hpp" SCENARIO("reduce some data with seed", "[reduce][operators]"){ GIVEN("a test hot observable of ints"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; int seed = 42; auto xs = sc.make_hot_observable({ on.next(150, 1), on.next(210, 0), on.next(220, 1), on.next(230, 2), on.next(240, 3), on.next(250, 4), on.completed(260) }); WHEN("mapped to ints that are one larger"){ auto res = w.start( [&]() { return xs .reduce(seed, [](int sum, int x) { return sum + x; }, [](int sum) { return sum * 5; }) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output stops on completion"){ auto required = rxu::to_vector({ on.next(260, (seed + 0 + 1 + 2 + 3 + 4) * 5), on.completed(260) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription"){ auto required = rxu::to_vector({ on.subscribe(200, 260) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("accumulate some data with seed", "[accumulate][reduce][operators]"){ GIVEN("a test hot observable of ints"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; int seed = 42; auto xs = sc.make_hot_observable({ on.next(150, 1), on.next(210, 0), on.next(220, 1), on.next(230, 2), on.next(240, 3), on.next(250, 4), on.completed(260) }); WHEN("mapped to ints that are one larger"){ auto res = w.start( [&]() { return xs .accumulate(seed, [](int sum, int x) { return sum + x; }, [](int sum) { return sum * 5; }) // forget type to workaround lambda deduction bug on msvc 2013 .as_dynamic(); } ); THEN("the output stops on completion"){ auto required = rxu::to_vector({ on.next(260, (seed + 0 + 1 + 2 + 3 + 4) * 5), on.completed(260) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription"){ auto required = rxu::to_vector({ on.subscribe(200, 260) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("average some data", "[reduce][average][operators]"){ GIVEN("a test hot observable of ints"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const rxsc::test::messages d_on; auto xs = sc.make_hot_observable({ on.next(150, 1), on.next(210, 3), on.next(220, 4), on.next(230, 2), on.completed(250) }); WHEN("mapped to ints that are one larger"){ auto res = w.start( [&]() { return xs.average(); } ); THEN("the output stops on completion"){ auto required = rxu::to_vector({ d_on.next(250, 3.0), d_on.completed(250) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription"){ auto required = rxu::to_vector({ on.subscribe(200, 250) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("sum some data", "[reduce][sum][operators]"){ GIVEN("a test hot observable of ints"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const rxsc::test::messages d_on; auto xs = sc.make_hot_observable({ on.next(150, 1), on.next(210, 3), on.next(220, 4), on.next(230, 2), on.completed(250) }); WHEN("sum is calculated"){ auto res = w.start( [&]() { return xs.sum(); } ); THEN("the output contains the sum of source values"){ auto required = rxu::to_vector({ d_on.next(250, 9), d_on.completed(250) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription"){ auto required = rxu::to_vector({ on.subscribe(200, 250) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("max", "[reduce][max][operators]"){ GIVEN("a test hot observable of ints"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const rxsc::test::messages d_on; auto xs = sc.make_hot_observable({ on.next(150, 1), on.next(210, 3), on.next(220, 4), on.next(230, 2), on.completed(250) }); WHEN("max is calculated"){ auto res = w.start( [&]() { return xs.max(); } ); THEN("the output contains the max of source values"){ auto required = rxu::to_vector({ d_on.next(250, 4), d_on.completed(250) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription"){ auto required = rxu::to_vector({ on.subscribe(200, 250) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } } } } // Does not work because calling max() on an empty stream throws an exception // which will crash when exceptions are disabled. // // TODO: the max internal implementation should be rewritten not to throw exceptions. SCENARIO("max, empty", "[reduce][max][operators][!throws]"){ GIVEN("a test hot observable of ints"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const rxsc::test::messages d_on; std::runtime_error ex("max on_error"); auto xs = sc.make_hot_observable({ on.next(150, 1), on.completed(250) }); WHEN("max is calculated"){ auto res = w.start( [&]() { return xs.max(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ d_on.error(250, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription"){ auto required = rxu::to_vector({ on.subscribe(200, 250) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("max, error", "[reduce][max][operators]"){ GIVEN("a test hot observable of ints"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const rxsc::test::messages d_on; std::runtime_error ex("max on_error from source"); auto xs = sc.make_hot_observable({ on.next(150, 1), on.error(250, ex) }); WHEN("max is calculated"){ auto res = w.start( [&]() { return xs.max(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ d_on.error(250, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription"){ auto required = rxu::to_vector({ on.subscribe(200, 250) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("min", "[reduce][min][operators]"){ GIVEN("a test hot observable of ints"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const rxsc::test::messages d_on; auto xs = sc.make_hot_observable({ on.next(150, 1), on.next(210, 3), on.next(220, 4), on.next(230, 2), on.completed(250) }); WHEN("min is calculated"){ auto res = w.start( [&]() { return xs.min(); } ); THEN("the output contains the min of source values"){ auto required = rxu::to_vector({ d_on.next(250, 2), d_on.completed(250) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription"){ auto required = rxu::to_vector({ on.subscribe(200, 250) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } } } } // Does not work with exceptions disabled, min will throw when stream is empty // and this crashes immediately. // TODO: min implementation should be rewritten not to throw exceptions. SCENARIO("min, empty", "[reduce][min][operators][!throws]"){ GIVEN("a test hot observable of ints"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const rxsc::test::messages d_on; std::runtime_error ex("min on_error"); auto xs = sc.make_hot_observable({ on.next(150, 1), on.completed(250) }); WHEN("min is calculated"){ auto res = w.start( [&]() { return xs.min(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ d_on.error(250, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription"){ auto required = rxu::to_vector({ on.subscribe(200, 250) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } } } } SCENARIO("min, error", "[reduce][min][operators]"){ GIVEN("a test hot observable of ints"){ auto sc = rxsc::make_test(); auto w = sc.create_worker(); const rxsc::test::messages on; const rxsc::test::messages d_on; std::runtime_error ex("min on_error from source"); auto xs = sc.make_hot_observable({ on.next(150, 1), on.error(250, ex) }); WHEN("min is calculated"){ auto res = w.start( [&]() { return xs.min(); } ); THEN("the output contains only error message"){ auto required = rxu::to_vector({ d_on.error(250, ex) }); auto actual = res.get_observer().messages(); REQUIRE(required == actual); } THEN("there was one subscription and one unsubscription"){ auto required = rxu::to_vector({ on.subscribe(200, 250) }); auto actual = xs.subscriptions(); REQUIRE(required == actual); } } } }