Esempio n. 1
0
#include "rxcpp/rx.hpp"
namespace rxu=rxcpp::util;
namespace rxs=rxcpp::sources;
namespace rxsc=rxcpp::schedulers;

#include "rxcpp/rx-test.hpp"
#include "catch.hpp"

SCENARIO("buffer count partial window", "[buffer][operators]"){
    GIVEN("1 hot observable of ints."){
        auto sc = rxsc::make_test();
        auto w = sc.create_worker();
        const rxsc::test::messages<int> on;
        const rxsc::test::messages<std::vector<int>> v_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)
        });

        WHEN("group each int with the next 4 ints"){

            auto res = w.start(
                [&]() {
                    return xs
                        .buffer(5)
                        // forget type to workaround lambda deduction bug on msvc 2013
Esempio n. 2
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#include "rxcpp/rx.hpp"
namespace rxu=rxcpp::util;
namespace rxsc=rxcpp::schedulers;

#include "rxcpp/rx-test.hpp"
#include "catch.hpp"

SCENARIO("repeat, basic test", "[repeat][operators]"){
    GIVEN("cold observable of 3 ints."){
        auto sc = rxsc::make_test();
        auto w = sc.create_worker();
        const rxsc::test::messages<int> on;

        auto xs = sc.make_cold_observable({
            on.on_next(100, 1),
            on.on_next(150, 2),
            on.on_next(200, 3),
            on.on_completed(250)
        });

        WHEN("infinite repeat is launched"){

            auto res = w.start(
                [&]() {
                    return xs
                        .repeat()
                        // forget type to workaround lambda deduction bug on msvc 2013
                        .as_dynamic();
                }
            );
Esempio n. 3
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{
    if (x < 2) return false;
    for (int i = 2; i <= x/2; ++i)
    {
        if (x % i == 0)
            return false;
    }
    return true;
}
}

SCENARIO("filter stops on completion", "[filter][operators]"){
    GIVEN("a test hot observable of ints"){
        auto sc = rxsc::make_test();
        auto w = sc.create_worker();
        const rxsc::test::messages<int> on;

        long invoked = 0;

        auto xs = sc.make_hot_observable({
            on.on_next(110, 1),
            on.on_next(180, 2),
            on.on_next(230, 3),
            on.on_next(270, 4),
            on.on_next(340, 5),
            on.on_next(380, 6),
            on.on_next(390, 7),
            on.on_next(450, 8),
            on.on_next(470, 9),
            on.on_next(560, 10),
            on.on_next(580, 11),
Esempio n. 4
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#include "rxcpp/rx.hpp"
namespace rx=rxcpp;
namespace rxu=rxcpp::util;
namespace rxsc=rxcpp::schedulers;

#include "rxcpp/rx-test.hpp"
#include "catch.hpp"

SCENARIO("create stops on completion", "[create][sources]"){
    GIVEN("a test cold observable of ints"){
        auto sc = rxsc::make_test();
        auto w = sc.create_worker();
        const rxsc::test::messages<int> on;

        long invoked = 0;

        WHEN("created"){

            auto res = w.start(
                [&]() {
                    return rx::observable<>::create<int>(
                        [&](const rx::subscriber<int>& s){
                            invoked++;
                            s.on_next(1);
                            s.on_next(2);
                        })
                        // forget type to workaround lambda deduction bug on msvc 2013
                        .as_dynamic();
                }
            );
Esempio n. 5
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#include "rxcpp/rx.hpp"
namespace rx=rxcpp;
namespace rxu=rxcpp::util;
namespace rxs=rxcpp::sources;
namespace rxsc=rxcpp::schedulers;
namespace rxn=rx::notifications;

#include "rxcpp/rx-test.hpp"
#include "catch.hpp"

SCENARIO("amb never 3", "[amb][join][operators]"){
    GIVEN("1 cold observable with 3 hot 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_hot_observable({
            on.next(100, 1)
        });

        auto ys2 = sc.make_hot_observable({
            on.next(110, 2)
        });

        auto ys3 = sc.make_hot_observable({
            on.next(120, 3)
        });

        auto xs = sc.make_cold_observable({
            o_on.next(100, ys1),
Esempio n. 6
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#include "rxcpp/rx.hpp"
namespace rx=rxcpp;
namespace rxu=rxcpp::util;
namespace rxsc=rxcpp::schedulers;

#include "rxcpp/rx-test.hpp"
#include "catch.hpp"

SCENARIO("defer stops on completion", "[defer][sources]"){
    GIVEN("a test cold observable of ints"){
        auto sc = rxsc::make_test();
        auto w = sc.create_worker();
        const rxsc::test::messages<long> on;

        long invoked = 0;

        rxu::detail::maybe<rx::test::testable_observable<long>> xs;

        WHEN("deferred"){

            auto empty = rx::observable<>::empty<long>();
            auto just = rx::observable<>::just(42);
            auto one = rx::observable<>::from(42);
            auto error = rx::observable<>::error<long>(std::exception_ptr());
            auto runtimeerror = rx::observable<>::error<long>(std::runtime_error("runtime"));

            auto res = w.start(
                [&]() {
                    return rx::observable<>::defer(
                        [&](){
                            invoked++;
Esempio n. 7
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#include "rxcpp/rx.hpp"
namespace rxu=rxcpp::util;
namespace rxsc=rxcpp::schedulers;

#include "rxcpp/rx-test.hpp"
#include "catch.hpp"

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<int> 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
                        .zip(
                            [](int v2, int v1){
                                return v2 + v1;
                            },
                            n2
Esempio n. 8
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#include "rxcpp/rx.hpp"
namespace rx=rxcpp;
namespace rxu=rxcpp::util;
namespace rxsc=rxcpp::schedulers;
namespace rxn=rx::notifications;

#include "rxcpp/rx-test.hpp"
#include "catch.hpp"

SCENARIO("switch_on_next - some changes", "[switch_on_next][operators]"){
    GIVEN("a source"){
        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.on_next(10, 101),
            on.on_next(20, 102),
            on.on_next(110, 103),
            on.on_next(120, 104),
            on.on_next(210, 105),
            on.on_next(220, 106),
            on.on_completed(230)
        });

        auto ys2 = sc.make_cold_observable({
            on.on_next(10, 201),
            on.on_next(20, 202),
            on.on_next(30, 203),
            on.on_next(40, 204),
Esempio n. 9
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#include "rxcpp/rx.hpp"
namespace rxu=rxcpp::util;
namespace rxsc=rxcpp::schedulers;

#include "rxcpp/rx-test.hpp"
#include "catch.hpp"

SCENARIO("combine_latest return/return", "[combine_latest][join][operators]"){
    GIVEN("2 hot observables of ints."){
        auto sc = rxsc::make_test();
        auto w = sc.create_worker();
        const rxsc::test::messages<int> 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
                        .combine_latest(
Esempio n. 10
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#include "rxcpp/rx.hpp"
namespace rx=rxcpp;
namespace rxu=rxcpp::util;
namespace rxs=rxcpp::sources;
namespace rxsc=rxcpp::schedulers;

#include "rxcpp/rx-test.hpp"
#include "catch.hpp"

SCENARIO("replay basic", "[replay][multicast][subject][operators]"){
    GIVEN("a test hot observable of ints"){
        auto sc = rxsc::make_test();
        auto w = sc.create_worker();
        const rxsc::test::messages<int> on;

        auto xs = sc.make_hot_observable({
            on.next(110, 0),
            on.next(220, 1),
            on.next(280, 2),
            on.next(290, 3),
            on.next(340, 4),
            on.next(360, 5),
            on.next(370, 6),
            on.next(390, 7),
            on.next(410, 8),
            on.next(430, 9),
            on.next(450, 10),
            on.next(520, 11),
            on.next(560, 12),
            on.completed(600)
        });
Esempio n. 11
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#include "rxcpp/rx.hpp"
namespace rx = rxcpp;
namespace rxu = rxcpp::util;
namespace rxs = rxcpp::sources;
namespace rxsc = rxcpp::schedulers;

#include "rxcpp/rx-test.hpp"
namespace rxt = rxcpp::test;

#include "catch.hpp"

SCENARIO("window count, basic", "[window][operators]"){
    GIVEN("1 hot observable 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 xs = sc.make_hot_observable({
            on.next(100, 1),
            on.next(210, 2),
            on.next(240, 3),
            on.next(280, 4),
            on.next(320, 5),
            on.next(350, 6),
            on.next(380, 7),
            on.next(420, 8),
            on.next(470, 9),
            on.completed(600)
        });
Esempio n. 12
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#include "rxcpp/rx.hpp"
namespace rx=rxcpp;
namespace rxu=rxcpp::util;
namespace rxsc=rxcpp::schedulers;

#include "rxcpp/rx-test.hpp"
#include "catch.hpp"

SCENARIO("scope, cold observable", "[scope][sources]"){
    GIVEN("a test cold observable of ints"){
        auto sc = rxsc::make_test();
        auto w = sc.create_worker();
        const rxsc::test::messages<int> on;

        rxu::detail::maybe<rx::test::testable_observable<int>> xs;

        typedef rx::resource<std::vector<int>> resource;

        WHEN("created by scope"){

            auto res = w.start(
                [&]() {
                    return rx::observable<>::
                        scope(
                            [&](){
                                return resource(rxu::to_vector({1, 2, 3, 4, 5}));
                            },
                            [&](resource r){
                                auto msg = std::vector<rxsc::test::messages<int>::recorded_type>();
                                int time = 10;
                                auto values = r.get();