1
0
mirror of https://github.com/wqking/eventpp.git synced 2024-12-27 16:41:11 +08:00
eventpp/tests/unittest/test_hetercallbacklist_ctors.cpp
2022-03-30 21:12:38 +08:00

424 lines
11 KiB
C++

// eventpp library
// Copyright (C) 2018 Wang Qi (wqking)
// Github: https://github.com/wqking/eventpp
// 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 "test.h"
#include "eventpp/hetercallbacklist.h"
TEST_CASE("HeterCallbackList, copy constructor from empty HeterCallbackList")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
CL callbackList;
REQUIRE(callbackList.empty());
CL copiedList(callbackList);
REQUIRE(copiedList.empty());
callbackList.append([](int){});
REQUIRE(! callbackList.empty());
REQUIRE(copiedList.empty());
}
TEST_CASE("HeterCallbackList, copy constructor from non-empty HeterCallbackList")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
std::vector<int> dataList(3);
CL callbackList;
callbackList.append([&dataList](){ ++dataList[0]; });
callbackList.append([&dataList](int){ ++dataList[1]; });
REQUIRE(! callbackList.empty());
SECTION("without new callback") {
CL copiedList(callbackList);
REQUIRE(! copiedList.empty());
copiedList();
copiedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
callbackList();
callbackList(5);
REQUIRE(dataList == std::vector<int>{ 2, 2, 0 });
}
SECTION("with new callback") {
CL copiedList(callbackList);
REQUIRE(! copiedList.empty());
callbackList.append([&dataList](int){ ++dataList[2]; });
copiedList();
copiedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
callbackList();
callbackList(5);
REQUIRE(dataList == std::vector<int>{ 2, 2, 1 });
}
}
TEST_CASE("HeterCallbackList, assign to self")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
std::vector<int> dataList(3);
CL assignedList;
assignedList.append([&dataList](){ ++dataList[0]; });
assignedList.append([&dataList](int){ ++dataList[1]; });
REQUIRE(! assignedList.empty());
SECTION("without new callback") {
assignedList = assignedList;
REQUIRE(! assignedList.empty());
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
}
SECTION("with new callback") {
assignedList = assignedList;
REQUIRE(! assignedList.empty());
assignedList.append([&dataList](int){ ++dataList[2]; });
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 1 });
}
}
TEST_CASE("HeterCallbackList, assign from empty HeterCallbackList")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
CL callbackList;
REQUIRE(callbackList.empty());
std::vector<int> dataList(2);
CL assignedList;
assignedList.append([&dataList](){ ++dataList[0]; });
assignedList.append([&dataList](int){ ++dataList[1]; });
REQUIRE(! assignedList.empty());
SECTION("without assignment") {
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1 });
}
SECTION("with assignment") {
assignedList = callbackList;
REQUIRE(assignedList.empty());
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 0, 0 });
}
}
TEST_CASE("HeterCallbackList, assign from non-empty HeterCallbackList")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
std::vector<int> dataList(3);
CL callbackList;
callbackList.append([&dataList](){ ++dataList[0]; });
callbackList.append([&dataList](int){ ++dataList[1]; });
REQUIRE(! callbackList.empty());
CL assignedList;
assignedList.append([&dataList](){ ++dataList[1]; });
assignedList.append([&dataList](int){ ++dataList[2]; });
REQUIRE(! assignedList.empty());
SECTION("without assignment") {
callbackList();
callbackList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 2, 1 });
}
SECTION("with assignment") {
assignedList = callbackList;
REQUIRE(! assignedList.empty());
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
callbackList();
callbackList(5);
REQUIRE(dataList == std::vector<int>{ 2, 2, 0 });
}
}
TEST_CASE("HeterCallbackList, move constructor from empty HeterCallbackList")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
CL callbackList;
REQUIRE(callbackList.empty());
CL copiedList(std::move(callbackList));
REQUIRE(copiedList.empty());
callbackList.append([](int){});
REQUIRE(! callbackList.empty());
REQUIRE(copiedList.empty());
}
TEST_CASE("HeterCallbackList, move constructor from non-empty HeterCallbackList")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
std::vector<int> dataList(3);
CL callbackList;
callbackList.append([&dataList](){ ++dataList[0]; });
callbackList.append([&dataList](int){ ++dataList[1]; });
REQUIRE(! callbackList.empty());
SECTION("without new callback") {
CL copiedList(std::move(callbackList));
REQUIRE(! copiedList.empty());
REQUIRE(callbackList.empty());
copiedList();
copiedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
callbackList();
callbackList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
}
SECTION("with new callback") {
CL copiedList(std::move(callbackList));
REQUIRE(! copiedList.empty());
REQUIRE(callbackList.empty());
callbackList.append([&dataList](int){ ++dataList[2]; });
copiedList();
copiedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
callbackList();
callbackList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 1 });
}
}
TEST_CASE("HeterCallbackList, move assign to self")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
std::vector<int> dataList(3);
CL assignedList;
assignedList.append([&dataList](){ ++dataList[0]; });
assignedList.append([&dataList](int){ ++dataList[1]; });
REQUIRE(! assignedList.empty());
SECTION("without new callback") {
assignedList = std::move(assignedList);
REQUIRE(! assignedList.empty());
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
}
SECTION("with new callback") {
assignedList = std::move(assignedList);
REQUIRE(! assignedList.empty());
assignedList.append([&dataList](int){ ++dataList[2]; });
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 1 });
}
}
TEST_CASE("HeterCallbackList, move assign from empty HeterCallbackList")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
CL callbackList;
REQUIRE(callbackList.empty());
std::vector<int> dataList(2);
CL assignedList;
assignedList.append([&dataList](){ ++dataList[0]; });
assignedList.append([&dataList](int){ ++dataList[1]; });
REQUIRE(! assignedList.empty());
SECTION("without assignment") {
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1 });
}
SECTION("with assignment") {
assignedList = std::move(callbackList);
REQUIRE(assignedList.empty());
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 0, 0 });
}
}
TEST_CASE("HeterCallbackList, move assign from non-empty HeterCallbackList")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
std::vector<int> dataList(3);
CL callbackList;
callbackList.append([&dataList](){ ++dataList[0]; });
callbackList.append([&dataList](int){ ++dataList[1]; });
REQUIRE(! callbackList.empty());
CL assignedList;
assignedList.append([&dataList](){ ++dataList[1]; });
assignedList.append([&dataList](int){ ++dataList[2]; });
REQUIRE(! assignedList.empty());
SECTION("without assignment") {
callbackList();
callbackList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 2, 1 });
}
SECTION("with assignment") {
assignedList = std::move(callbackList);
REQUIRE(! assignedList.empty());
REQUIRE(callbackList.empty());
assignedList();
assignedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
callbackList();
callbackList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
}
}
TEST_CASE("HeterCallbackList, swap with self")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
std::vector<int> dataList(2);
CL swappedList;
REQUIRE(swappedList.empty());
using std::swap;
SECTION("without callback") {
swap(swappedList, swappedList);
REQUIRE(swappedList.empty());
}
SECTION("with callback") {
swappedList.append([&dataList](){ ++dataList[0]; });
swappedList.append([&dataList](int){ ++dataList[1]; });
REQUIRE(! swappedList.empty());
swappedList();
swappedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1 });
swap(swappedList, swappedList);
REQUIRE(! swappedList.empty());
swappedList();
swappedList(5);
REQUIRE(dataList == std::vector<int>{ 2, 2 });
}
}
TEST_CASE("HeterCallbackList, swap with empty HeterCallbackList")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
CL callbackList;
REQUIRE(callbackList.empty());
std::vector<int> dataList(2);
CL swappedList;
swappedList.append([&dataList](){ ++dataList[0]; });
swappedList.append([&dataList](int){ ++dataList[1]; });
REQUIRE(! swappedList.empty());
using std::swap;
SECTION("without swap") {
swappedList();
swappedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1 });
}
SECTION("with swap") {
swap(swappedList, callbackList);
REQUIRE(swappedList.empty());
swappedList();
swappedList(5);
REQUIRE(dataList == std::vector<int>{ 0, 0 });
callbackList();
callbackList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1 });
}
}
TEST_CASE("HeterCallbackList, swap with non-empty HeterCallbackList")
{
using CL = eventpp::HeterCallbackList<eventpp::HeterTuple<void (), void (int)> >;
std::vector<int> dataList(3);
CL callbackList;
callbackList.append([&dataList](){ ++dataList[0]; });
callbackList.append([&dataList](int){ ++dataList[1]; });
REQUIRE(! callbackList.empty());
CL swappedList;
swappedList.append([&dataList](){ ++dataList[1]; });
swappedList.append([&dataList](int){ ++dataList[2]; });
REQUIRE(! swappedList.empty());
using std::swap;
SECTION("without swap") {
swappedList();
swappedList(5);
REQUIRE(dataList == std::vector<int>{ 0, 1, 1 });
callbackList();
callbackList(5);
REQUIRE(dataList == std::vector<int>{ 1, 2, 1 });
}
SECTION("with swap") {
swap(swappedList, callbackList);
REQUIRE(! swappedList.empty());
swappedList();
swappedList(5);
REQUIRE(dataList == std::vector<int>{ 1, 1, 0 });
callbackList();
callbackList(5);
REQUIRE(dataList == std::vector<int>{ 1, 2, 1 });
}
}