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eventpp/tests/test_dispatch.cpp

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2018-05-13 12:26:27 +08:00
// 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/eventdispatcher.h"
#include <thread>
#include <algorithm>
#include <numeric>
#include <random>
TEST_CASE("dispatch, std::string, void (const std::string &)")
{
eventpp::EventDispatcher<std::string, void (const std::string &)> dispatcher;
int a = 1;
int b = 5;
dispatcher.appendListener("event1", [&a](const std::string &) {
a = 2;
});
dispatcher.appendListener("event1", eraseArgs1([&b]() {
b = 8;
}));
REQUIRE(a != 2);
REQUIRE(b != 8);
dispatcher.dispatch("event1");
REQUIRE(a == 2);
REQUIRE(b == 8);
}
TEST_CASE("dispatch, int, void ()")
{
eventpp::EventDispatcher<int, void ()> dispatcher;
int a = 1;
int b = 5;
dispatcher.appendListener(3, [&a]() {
a = 2;
});
dispatcher.appendListener(3, [&b]() {
b = 8;
});
REQUIRE(a != 2);
REQUIRE(b != 8);
dispatcher.dispatch(3);
REQUIRE(a == 2);
REQUIRE(b == 8);
}
TEST_CASE("add/remove, int, void ()")
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{
eventpp::EventDispatcher<int, void ()> dispatcher;
constexpr int event = 3;
int a = 1;
int b = 5;
decltype(dispatcher)::Handle ha;
decltype(dispatcher)::Handle hb;
ha = dispatcher.appendListener(event, [event, &a, &dispatcher, &ha, &hb]() {
a = 2;
dispatcher.removeListener(event, hb);
dispatcher.removeListener(event, ha);
});
hb = dispatcher.appendListener(event, [&b]() {
b = 8;
});
REQUIRE(ha);
REQUIRE(hb);
REQUIRE(a != 2);
REQUIRE(b != 8);
dispatcher.dispatch(event);
REQUIRE(! ha);
REQUIRE(! hb);
REQUIRE(a == 2);
REQUIRE(b != 8);
a = 1;
REQUIRE(a != 2);
REQUIRE(b != 8);
dispatcher.dispatch(event);
REQUIRE(a != 2);
REQUIRE(b != 8);
}
TEST_CASE("dispatch, add another listener inside a listener, int, void ()")
{
eventpp::EventDispatcher<int, void ()> dispatcher;
constexpr int event = 3;
int a = 1;
int b = 5;
dispatcher.appendListener(event, [&event, &a, &dispatcher, &b]() {
a = 2;
dispatcher.appendListener(event, [&event, &b]() {
b = 8;
});
});
REQUIRE(a != 2);
REQUIRE(b != 8);
dispatcher.dispatch(event);
REQUIRE(a == 2);
REQUIRE(b != 8);
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}
TEST_CASE("dispatch inside dispatch, int, void ()")
{
eventpp::EventDispatcher<int, void ()> dispatcher;
constexpr int event1 = 3;
constexpr int event2 = 5;
int a = 1;
int b = 5;
decltype(dispatcher)::Handle ha;
decltype(dispatcher)::Handle hb;
ha = dispatcher.appendListener(event1, [&a, &dispatcher, event2]() {
a = 2;
dispatcher.dispatch(event2);
});
hb = dispatcher.appendListener(event2, [&b, &dispatcher, event1, event2, &ha, &hb]() {
b = 8;
dispatcher.removeListener(event1, ha);
dispatcher.removeListener(event2, hb);
});
REQUIRE(ha);
REQUIRE(hb);
REQUIRE(a != 2);
REQUIRE(b != 8);
dispatcher.dispatch(event1);
REQUIRE(! ha);
REQUIRE(! hb);
REQUIRE(a == 2);
REQUIRE(b == 8);
}
TEST_CASE("dispatch, int, void (const std::string &, int)")
{
eventpp::EventDispatcher<int, void (const std::string &, int)> dispatcher;
constexpr int event = 3;
std::vector<std::string> sList(2);
std::vector<int> iList(sList.size());
dispatcher.appendListener(event, [event, &dispatcher, &sList, &iList](const std::string & s, int i) {
sList[0] = s;
iList[0] = i;
});
dispatcher.appendListener(event, [event, &dispatcher, &sList, &iList](std::string s, const int i) {
sList[1] = s + "2";
iList[1] = i + 5;
});
REQUIRE(sList[0] != "first");
REQUIRE(sList[1] != "first2");
REQUIRE(iList[0] != 3);
REQUIRE(iList[1] != 8);
dispatcher.dispatch(event, "first", 3);
REQUIRE(sList[0] == "first");
REQUIRE(sList[1] == "first2");
REQUIRE(iList[0] == 3);
REQUIRE(iList[1] == 8);
}
TEST_CASE("dispatch, Event struct, void (const std::string &, int)")
{
struct MyEvent {
int type;
std::string message;
int param;
};
struct EventTypeGetter : public eventpp::EventGetterBase
{
using Event = int;
static int getEvent(const MyEvent & e, const std::string &, int) {
return e.type;
}
};
eventpp::EventDispatcher<EventTypeGetter, void (const MyEvent &, const std::string &, int)> dispatcher;
constexpr int event = 3;
std::vector<std::string> sList(2);
std::vector<int> iList(sList.size());
dispatcher.appendListener(event, [event, &dispatcher, &sList, &iList](const MyEvent & e, const std::string & s, int i) {
sList[0] = e.message + " " + s;
iList[0] = e.param + i;
});
dispatcher.appendListener(event, [event, &dispatcher, &sList, &iList](const MyEvent & e, std::string s, const int i) {
sList[1] = s + " " + e.message;
iList[1] = e.param * i;
});
REQUIRE(sList[0] != "Hello World");
REQUIRE(sList[1] != "World Hello");
REQUIRE(iList[0] != 8);
REQUIRE(iList[1] != 15);
dispatcher.dispatch(MyEvent{ event, "Hello", 5 }, "World", 3);
REQUIRE(sList[0] == "Hello World");
REQUIRE(sList[1] == "World Hello");
REQUIRE(iList[0] == 8);
REQUIRE(iList[1] == 15);
}
TEST_CASE("dispatch many, int, void (int)")
{
eventpp::EventDispatcher<int, void (int)> dispatcher;
constexpr int eventCount = 1024 * 64;
std::vector<int> eventList(eventCount);
std::iota(eventList.begin(), eventList.end(), 0);
std::shuffle(eventList.begin(), eventList.end(), std::mt19937(std::random_device()()));
std::vector<int> dataList(eventCount);
for(int i = 1; i < eventCount; i += 2) {
dispatcher.appendListener(eventList[i], [&dispatcher, i, &dataList](const int e) {
dataList[i] = e;
});
}
for(int i = 0; i < eventCount; i += 2) {
dispatcher.appendListener(eventList[i], [&dispatcher, i, &dataList](const int e) {
dataList[i] = e;
});
}
for(int i = 0; i < eventCount; ++i) {
dispatcher.dispatch(eventList[i]);
}
std::sort(eventList.begin(), eventList.end());
std::sort(dataList.begin(), dataList.end());
REQUIRE(eventList == dataList);
}
TEST_CASE("event filter")
{
using ED = eventpp::EventDispatcher<int, void (int, int)>;
ED dispatcher;
constexpr int itemCount = 5;
std::vector<int> dataList(itemCount);
for(int i = 0; i < itemCount; ++i) {
dispatcher.appendListener(i, [&dataList, i](int e, int index) {
dataList[e] = index;
});
}
constexpr int filterCount = 2;
std::vector<int> filterData(filterCount);
SECTION("Filter invoked count") {
dispatcher.appendFilter([&filterData](int /*e*/, int /*index*/) -> bool {
++filterData[0];
return true;
});
dispatcher.appendFilter([&filterData](int /*e*/, int /*index*/) -> bool {
++filterData[1];
return true;
});
for(int i = 0; i < itemCount; ++i) {
dispatcher.dispatch(i, 58);
}
REQUIRE(filterData == std::vector<int>{ itemCount, itemCount });
REQUIRE(dataList == std::vector<int>{ 58, 58, 58, 58, 58 });
}
SECTION("First filter blocks all other filters and listeners") {
dispatcher.appendFilter([&filterData](int e, int /*index*/) -> bool {
++filterData[0];
if(e >= 2) {
return false;
}
return true;
});
dispatcher.appendFilter([&filterData](int /*e*/, int /*index*/) -> bool {
++filterData[1];
return true;
});
for(int i = 0; i < itemCount; ++i) {
dispatcher.dispatch(i, 58);
}
REQUIRE(filterData == std::vector<int>{ itemCount, 2 });
REQUIRE(dataList == std::vector<int>{ 58, 58, 0, 0, 0 });
}
SECTION("Second filter doesn't block first filter but all listeners") {
dispatcher.appendFilter([&filterData](int /*e*/, int /*index*/) -> bool {
++filterData[0];
return true;
});
dispatcher.appendFilter([&filterData](int e, int /*index*/) -> bool {
++filterData[1];
if(e >= 2) {
return false;
}
return true;
});
for(int i = 0; i < itemCount; ++i) {
dispatcher.dispatch(i, 58);
}
REQUIRE(filterData == std::vector<int>{ itemCount, itemCount });
REQUIRE(dataList == std::vector<int>{ 58, 58, 0, 0, 0 });
}
SECTION("Filter manipulates the parameters") {
dispatcher.appendFilter([&filterData](int e, int & index) -> bool {
++filterData[0];
if(e >= 2) {
++index;
}
return true;
});
dispatcher.appendFilter([&filterData](int /*e*/, int /*index*/) -> bool {
++filterData[1];
return true;
});
for(int i = 0; i < itemCount; ++i) {
dispatcher.dispatch(i, 58);
}
REQUIRE(filterData == std::vector<int>{ itemCount, itemCount });
REQUIRE(dataList == std::vector<int>{ 58, 58, 59, 59, 59 });
}
}
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TEST_CASE("dispatch multi threading, int, void (int)")
{
using ED = eventpp::EventDispatcher<int, void (int)>;
ED dispatcher;
constexpr int threadCount = 256;
constexpr int eventCountPerThread = 1024 * 4;
constexpr int itemCount = threadCount * eventCountPerThread;
std::vector<int> eventList(itemCount);
std::iota(eventList.begin(), eventList.end(), 0);
std::shuffle(eventList.begin(), eventList.end(), std::mt19937(std::random_device()()));
std::vector<int> dataList(itemCount);
std::vector<ED::Handle> handleList(itemCount);
std::vector<std::thread> threadList;
for(int i = 0; i < threadCount; ++i) {
threadList.emplace_back([i, eventCountPerThread, &dispatcher, &eventList, &handleList, &dataList]() {
for(int k = i * eventCountPerThread; k < (i + 1) * eventCountPerThread; ++k) {
handleList[k] = dispatcher.appendListener(eventList[k], [&dispatcher, k, &dataList, &eventList, &handleList](const int e) {
dataList[k] += e;
dispatcher.removeListener(eventList[k], handleList[k]);
});
}
});
}
for(int i = 0; i < threadCount; ++i) {
threadList[i].join();
}
threadList.clear();
for(int i = 0; i < threadCount; ++i) {
threadList.emplace_back([i, eventCountPerThread, &dispatcher, &eventList]() {
for(int k = i * eventCountPerThread; k < (i + 1) * eventCountPerThread; ++k) {
dispatcher.dispatch(eventList[k]);
}
});
}
for(int i = 0; i < threadCount; ++i) {
threadList[i].join();
}
std::sort(eventList.begin(), eventList.end());
std::sort(dataList.begin(), dataList.end());
REQUIRE(eventList == dataList);
}