ladybird/Tests/LibCore/TestLibCorePromise.cpp

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/*
* Copyright (c) 2023, Ali Mohammad Pur <mpfard@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibCore/EventLoop.h>
#include <LibCore/Promise.h>
#include <LibCore/ThreadedPromise.h>
#include <LibTest/TestSuite.h>
#include <LibThreading/Thread.h>
#include <unistd.h>
TEST_CASE(promise_await_async_event)
{
Core::EventLoop loop;
auto promise = MUST(Core::Promise<int>::try_create());
loop.deferred_invoke([=] {
promise->resolve(42);
});
auto result = promise->await();
EXPECT(!result.is_error());
EXPECT_EQ(result.value(), 42);
}
TEST_CASE(promise_await_async_event_rejection)
{
Core::EventLoop loop;
auto promise = MUST(Core::Promise<int>::try_create());
loop.deferred_invoke([=] {
promise->reject(AK::Error::from_string_literal("lol no"));
});
auto result = promise->await();
EXPECT(result.is_error());
EXPECT_EQ(result.error().string_literal(), "lol no"sv);
}
TEST_CASE(promise_chain_handlers)
{
Core::EventLoop loop;
bool resolved = false;
bool rejected = false;
NonnullRefPtr<Core::Promise<int>> promise = MUST(Core::Promise<int>::try_create())
->when_resolved([&](int&) -> ErrorOr<void> { resolved = true; return {}; })
.when_rejected([&](AK::Error const&) { rejected = true; });
loop.deferred_invoke([=] {
promise->resolve(42);
});
(void)promise->await();
EXPECT(resolved);
EXPECT(!rejected);
}
TEST_CASE(infallible_promise_chain_handlers)
{
Core::EventLoop loop;
bool resolved = false;
bool rejected = false;
NonnullRefPtr<Core::Promise<int>> promise = MUST(Core::Promise<int>::try_create())
->when_resolved([&](int&) { resolved = true; })
.when_rejected([&](AK::Error const&) { rejected = true; });
loop.deferred_invoke([=] {
promise->resolve(42);
});
(void)promise->await();
EXPECT(resolved);
EXPECT(!rejected);
}
TEST_CASE(promise_map)
{
Core::EventLoop loop;
auto promise = MUST(Core::Promise<int>::try_create());
auto mapped_promise = promise->map<int>([](int result) {
return result * 2;
});
loop.deferred_invoke([=] {
promise->resolve(21);
});
auto result = mapped_promise->await();
EXPECT(!result.is_error());
EXPECT_EQ(result.value(), 42);
}
TEST_CASE(promise_map_already_resolved)
{
Core::EventLoop loop;
auto promise = MUST(Core::Promise<int>::try_create());
promise->resolve(21);
auto mapped_promise = promise->map<int>([](int result) {
return result * 2;
});
auto result = mapped_promise->await();
EXPECT(!result.is_error());
EXPECT_EQ(result.value(), 42);
}
TEST_CASE(threaded_promise_instantly_resolved)
{
Core::EventLoop loop;
bool resolved = false;
bool rejected = true;
Optional<pthread_t> thread_id;
auto promise = Core::ThreadedPromise<int>::create();
auto thread = Threading::Thread::construct([&, promise] {
thread_id = pthread_self();
promise->resolve(42);
return 0;
});
thread->start();
promise
->when_resolved([&](int result) {
EXPECT(thread_id.has_value());
EXPECT(pthread_equal(thread_id.value(), pthread_self()));
resolved = true;
rejected = false;
EXPECT_EQ(result, 42);
})
.when_rejected([](Error&&) {
VERIFY_NOT_REACHED();
});
promise->await();
EXPECT(promise->has_completed());
EXPECT(resolved);
EXPECT(!rejected);
MUST(thread->join());
}
TEST_CASE(threaded_promise_resolved_later)
{
Core::EventLoop loop;
IGNORE_USE_IN_ESCAPING_LAMBDA bool unblock_thread = false;
bool resolved = false;
bool rejected = true;
Optional<pthread_t> thread_id;
auto promise = Core::ThreadedPromise<int>::create();
auto thread = Threading::Thread::construct([&, promise] {
thread_id = pthread_self();
while (!unblock_thread)
usleep(500);
promise->resolve(42);
return 0;
});
thread->start();
promise
->when_resolved([&]() {
EXPECT(thread_id.has_value());
EXPECT(pthread_equal(thread_id.value(), pthread_self()));
EXPECT(unblock_thread);
resolved = true;
rejected = false;
})
.when_rejected([](Error&&) {
VERIFY_NOT_REACHED();
});
Core::EventLoop::current().deferred_invoke([&]() { unblock_thread = true; });
promise->await();
EXPECT(promise->has_completed());
EXPECT(unblock_thread);
EXPECT(resolved);
EXPECT(!rejected);
MUST(thread->join());
}
TEST_CASE(threaded_promise_synchronously_resolved)
{
Core::EventLoop loop;
bool resolved = false;
bool rejected = true;
auto thread_id = pthread_self();
auto promise = Core::ThreadedPromise<int>::create();
promise->resolve(1337);
promise
->when_resolved([&]() {
EXPECT(pthread_equal(thread_id, pthread_self()));
resolved = true;
rejected = false;
})
.when_rejected([](Error&&) {
VERIFY_NOT_REACHED();
});
promise->await();
EXPECT(promise->has_completed());
EXPECT(resolved);
EXPECT(!rejected);
}