/* This file is part of Telegram Desktop, the official desktop version of Telegram messaging app, see https://telegram.org Telegram Desktop is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. It is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. In addition, as a special exception, the copyright holders give permission to link the code of portions of this program with the OpenSSL library. Full license: https://github.com/telegramdesktop/tdesktop/blob/master/LICENSE Copyright (c) 2014-2017 John Preston, https://desktop.telegram.org */ #include "catch.hpp" #include #include using namespace rpl; class OnDestructor { public: OnDestructor(base::lambda_once callback) : _callback(std::move(callback)) { } ~OnDestructor() { if (_callback) { _callback(); } } private: base::lambda_once _callback; }; TEST_CASE("basic producer tests", "[rpl::producer]") { SECTION("producer next, done and lifetime end test") { auto lifetimeEnded = std::make_shared(false); auto sum = std::make_shared(0); auto doneGenerated = std::make_shared(false); auto destroyed = std::make_shared(false); { auto destroyCaller = std::make_shared([=] { *destroyed = true; }); { producer([=](auto &&consumer) { (void)destroyCaller; consumer.put_next(1); consumer.put_next(2); consumer.put_next(3); consumer.put_done(); return [=] { (void)destroyCaller; *lifetimeEnded = true; }; }).start([=](int value) { (void)destroyCaller; *sum += value; }, [=](no_error) { (void)destroyCaller; }, [=]() { (void)destroyCaller; *doneGenerated = true; }); } } REQUIRE(*sum == 1 + 2 + 3); REQUIRE(*doneGenerated); REQUIRE(*lifetimeEnded); REQUIRE(*destroyed); } SECTION("producer error test") { auto errorGenerated = std::make_shared(false); { producer([=](auto &&consumer) { consumer.put_error(true); return lifetime(); }).start([=](no_value) { }, [=](bool error) { *errorGenerated = error; }, [=]() { }); } REQUIRE(*errorGenerated); } SECTION("nested lifetimes test") { auto lifetimeEndCount = std::make_shared(0); { auto lifetimes = lifetime(); { auto testProducer = producer([=](auto &&consumer) { return [=] { ++*lifetimeEndCount; }; }); lifetimes.add(testProducer.start_copy([=](no_value) { }, [=](no_error) { }, [=] { })); lifetimes.add(std::move(testProducer).start([=](no_value) { }, [=](no_error) { }, [=] { })); } REQUIRE(*lifetimeEndCount == 0); } REQUIRE(*lifetimeEndCount == 2); } SECTION("nested producers test") { auto sum = std::make_shared(0); auto lifetimeEndCount = std::make_shared(0); auto saved = lifetime(); { saved = producer([=](auto &&consumer) { auto inner = producer([=](auto &&consumer) { consumer.put_next(1); consumer.put_next(2); consumer.put_next(3); return [=] { ++*lifetimeEndCount; }; }); auto result = lifetime([=] { ++*lifetimeEndCount; }); result.add(inner.start_copy([=](int value) { consumer.put_next_copy(value); }, [=](no_error) { }, [=] { })); result.add(std::move(inner).start([=](int value) { consumer.put_next_copy(value); }, [=](no_error) { }, [=] { })); return result; }).start([=](int value) { *sum += value; }, [=](no_error) { }, [=] { }); } REQUIRE(*sum == 1 + 2 + 3 + 1 + 2 + 3); REQUIRE(*lifetimeEndCount == 0); saved.destroy(); REQUIRE(*lifetimeEndCount == 3); } SECTION("tuple producer test") { auto result = std::make_shared(0); { producer>([=](auto &&consumer) { consumer.put_next(std::make_tuple(1, 2.)); return lifetime(); }).start([=](int a, double b) { *result = a + int(b); }, [=](no_error error) { }, [=]() { }); } REQUIRE(*result == 3); } } TEST_CASE("basic event_streams tests", "[rpl::event_stream]") { SECTION("event_stream basic test") { auto sum = std::make_shared(0); event_stream stream; stream.fire(1); stream.fire(2); stream.fire(3); { auto lifetime = stream.events().start([=, &stream](int value) { *sum += value; }, [=](no_error) { }, [=] { }); stream.fire(11); stream.fire(12); stream.fire(13); } stream.fire(21); stream.fire(22); stream.fire(23); REQUIRE(11 + 12 + 13); } SECTION("event_stream add in handler test") { auto sum = std::make_shared(0); event_stream stream; { auto composite = lifetime(); composite = stream.events().start([=, &stream, &composite](int value) { *sum += value; composite.add(stream.events().start([=](int value) { *sum += value; }, [=](no_error) { }, [=] { })); }, [=](no_error) { }, [=] { }); { auto inner = lifetime(); inner = stream.events().start([=, &stream, &inner](int value) { *sum += value; inner.add(stream.events().start([=](int value) { *sum += value; }, [=](no_error) { }, [=] { })); }, [=](no_error) { }, [=] { }); stream.fire(1); stream.fire(2); stream.fire(3); } stream.fire(11); stream.fire(12); stream.fire(13); } stream.fire(21); stream.fire(22); stream.fire(23); REQUIRE(*sum == (1 + 1) + ((2 + 2) + (2 + 2)) + ((3 + 3 + 3) + (3 + 3 + 3)) + (11 + 11 + 11 + 11) + (12 + 12 + 12 + 12 + 12) + (13 + 13 + 13 + 13 + 13 + 13)); } SECTION("event_stream add and remove in handler test") { auto sum = std::make_shared(0); event_stream stream; { auto composite = lifetime(); composite = stream.events().start([=, &stream, &composite](int value) { *sum += value; composite = stream.events().start([=](int value) { *sum += value; }, [=](no_error) { }, [=] { }); }, [=](no_error) { }, [=] { }); { auto inner = lifetime(); inner = stream.events().start([=, &stream, &inner](int value) { *sum += value; inner = stream.events().start([=](int value) { *sum += value; }, [=](no_error) { }, [=] { }); }, [=](no_error) { }, [=] { }); stream.fire(1); stream.fire(2); stream.fire(3); } stream.fire(11); stream.fire(12); stream.fire(13); } stream.fire(21); stream.fire(22); stream.fire(23); REQUIRE(*sum == (1 + 1) + (2 + 2) + (3 + 3) + (11) + (12) + (13)); } SECTION("event_stream ends before handler lifetime") { auto sum = std::make_shared(0); lifetime extended; { event_stream stream; extended = stream.events().start([=](int value) { *sum += value; }, [=](no_error) { }, [=] { }); stream.fire(1); stream.fire(2); stream.fire(3); } REQUIRE(*sum == 1 + 2 + 3); } SECTION("event_stream move test") { auto sum = std::make_shared(0); lifetime extended; { event_stream stream; stream.events() | on_next([=](int value) { *sum += value; }) | start(extended); stream.fire(1); stream.fire(2); auto movedStream = std::move(stream); movedStream.fire(3); movedStream.fire(4); } REQUIRE(*sum == 1 + 2 + 3 + 4); } } TEST_CASE("basic piping tests", "[rpl::producer]") { SECTION("bind_on_next, bind_on_error, bind_on_done") { auto sum = std::make_shared(0); auto doneGenerated = std::make_shared(false); { auto alive = lifetime(); producer([=](auto &&consumer) { consumer.put_next(1); consumer.put_next(2); consumer.put_next(3); consumer.put_done(); return lifetime(); }) | bind_on_next([=](int value) { *sum += value; }) | bind_on_done([=]() { *doneGenerated = true; }) | start(alive); producer([=](auto &&consumer) { consumer.put_error(4); return lifetime(); }) | bind_on_error([=](int value) { *sum += value; }) | bind_on_done([=]() { *doneGenerated = false; }) | start(alive); } REQUIRE(*sum == 1 + 2 + 3 + 4); REQUIRE(*doneGenerated); } SECTION("on_next, on_error, on_done") { auto sum = std::make_shared(0); auto dones = std::make_shared(0); { auto alive = lifetime(); producer([=](auto &&consumer) { consumer.put_next(1); consumer.put_done(); return lifetime(); }) | on_next([=](int value) { *sum += value; }) | start(alive); producer([=](auto &&consumer) { consumer.put_next(11); consumer.put_error(111); return lifetime(); }) | on_error([=](int value) { *sum += value; }) | start(alive); producer([=](auto &&consumer) { consumer.put_next(1111); consumer.put_done(); return lifetime(); }) | on_done([=]() { *dones += 1; }) | start(alive); producer([=](auto &&consumer) { consumer.put_next(11111); consumer.put_next(11112); consumer.put_next(11113); consumer.put_error(11114); return lifetime(); }) | on_next([=](int value) { *sum += value; }) | on_error([=](int value) { *sum += value; }) | start(alive); } auto alive = lifetime(); producer([=](auto &&consumer) { consumer.put_next(111111); consumer.put_next(111112); consumer.put_next(111113); consumer.put_done(); return lifetime(); }) | on_next([=](int value) { *sum += value; }) | on_done([=]() { *dones += 11; }) | start(alive); producer([=](auto &&consumer) { consumer.put_error(1111111); return lifetime(); }) | on_error([=](int value) { *sum += value; }) | on_done([=]() { *dones = 0; }) | start(alive); REQUIRE(*sum == 1 + 111 + 11111 + 11112 + 11113 + 11114 + 111111 + 111112 + 111113 + 1111111); REQUIRE(*dones == 1 + 11); } SECTION("on_next should copy its callback") { auto sum = std::make_shared(0); { auto next = [=](int value) { REQUIRE(sum != nullptr); *sum += value; }; for (int i = 0; i != 3; ++i) { auto alive = lifetime(); producer([=](auto &&consumer) { consumer.put_next(1); consumer.put_done(); return lifetime(); }) | on_next(next) | start(alive); } } REQUIRE(*sum == 3); } SECTION("rich start calls") { auto sum = std::make_shared(0); { auto alive = lifetime(); producer([=](auto &&consumer) { consumer.put_next(33); return lifetime(); }) | start([=](int value) { *sum += value; }, alive); producer([=](auto &&consumer) { consumer.put_error(33); return lifetime(); }) | start([](no_value) { }, [=](int value) { *sum += value; }, alive); producer([=](auto &&consumer) { consumer.put_next(33); consumer.put_done(); return lifetime(); }) | start([=] { *sum += 33; }, alive); } REQUIRE(*sum == 99); } }