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/*
* Copyright 2020 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <ftl/future.h>
#include <gtest/gtest.h>
#include <algorithm>
#include <future>
#include <string>
#include <thread>
#include <vector>
namespace android::test {
// Keep in sync with example usage in header file.
TEST(Future, Example) {
{
auto future = ftl::defer([](int x) { return x + 1; }, 99);
EXPECT_EQ(future.get(), 100);
}
{
auto future = ftl::yield(42);
EXPECT_EQ(future.get(), 42);
}
{
auto ptr = std::make_unique<char>('!');
auto future = ftl::yield(std::move(ptr));
EXPECT_EQ(*future.get(), '!');
}
{
auto future = ftl::yield(123);
ftl::Future<char> futures[] = {ftl::yield('a'), ftl::yield('b')};
ftl::Future<char> chain = ftl::Future(std::move(future))
.then([](int x) { return static_cast<size_t>(x % 2); })
.then([&futures](size_t i) { return std::move(futures[i]); });
EXPECT_EQ(chain.get(), 'b');
}
}
namespace {
using ByteVector = std::vector<uint8_t>;
ByteVector decrement(ByteVector bytes) {
std::transform(bytes.begin(), bytes.end(), bytes.begin(), [](auto b) { return b - 1; });
return bytes;
}
} // namespace
TEST(Future, Chain) {
std::packaged_task<const char*()> fetch_string([] { return "ifmmp-"; });
std::packaged_task<ByteVector(std::string)> append_string([](std::string str) {
str += "!xpsme";
return ByteVector{str.begin(), str.end()};
});
std::packaged_task<ftl::Future<ByteVector>(ByteVector)> decrement_bytes(
[](ByteVector bytes) { return ftl::defer(decrement, std::move(bytes)); });
auto fetch = fetch_string.get_future();
std::thread fetch_thread(std::move(fetch_string));
std::thread append_thread, decrement_thread;
EXPECT_EQ(
"hello, world",
ftl::Future(std::move(fetch))
.then([](const char* str) { return std::string(str); })
.then([&](std::string str) {
auto append = append_string.get_future();
append_thread = std::thread(std::move(append_string), std::move(str));
return append;
})
.then([&](ByteVector bytes) {
auto decrement = decrement_bytes.get_future();
decrement_thread = std::thread(std::move(decrement_bytes), std::move(bytes));
return decrement;
})
.then([](ftl::Future<ByteVector> bytes) { return bytes; })
.then([](const ByteVector& bytes) { return std::string(bytes.begin(), bytes.end()); })
.get());
fetch_thread.join();
append_thread.join();
decrement_thread.join();
}
TEST(Future, WaitFor) {
using namespace std::chrono_literals;
{
auto future = ftl::yield(42);
// Check that we can wait_for multiple times without invalidating the future
EXPECT_EQ(future.wait_for(1s), std::future_status::ready);
EXPECT_EQ(future.wait_for(1s), std::future_status::ready);
EXPECT_EQ(future.get(), 42);
}
{
std::condition_variable cv;
std::mutex m;
bool ready = false;
std::packaged_task<int32_t()> get_int([&] {
std::unique_lock lk(m);
cv.wait(lk, [&] { return ready; });
return 24;
});
auto get_future = ftl::Future(get_int.get_future());
std::thread get_thread(std::move(get_int));
EXPECT_EQ(get_future.wait_for(0s), std::future_status::timeout);
{
std::unique_lock lk(m);
ready = true;
}
cv.notify_one();
EXPECT_EQ(get_future.wait_for(1s), std::future_status::ready);
EXPECT_EQ(get_future.get(), 24);
get_thread.join();
}
}
} // namespace android::test
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