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XNEngine也改造完成了

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This commit is contained in:
jinchao 2025-05-20 16:41:46 +08:00
parent 59d75346ad
commit 73d8dd7eab
12 changed files with 356 additions and 340 deletions
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2
Release/include/XNCore/XNCore_global.h
View File

@ -92,7 +92,7 @@ using XNTimePoint = std::chrono::system_clock::time_point;
* @param timeStr ISO格式的时间字符串 (YYYY-MM-DDTHH:mm:ss)
* @return
*/
XNTimePoint parseISOTime(const std::string &timeStr);
extern "C" XNTimePoint XNCORE_EXPORT parseISOTime(const std::string &timeStr);
/**
* @brief

15
Release/include/XNCore/XNFramework.h
View File

@ -146,8 +146,10 @@ public:
/**
* @brief
* @return true:
* @return false:
*/
void PrepareForExecute();
bool PrepareForExecute();
/**
* @brief 仿
@ -158,12 +160,9 @@ public:
/**
* @brief
* @param initialType
* @return true:
* @return false:
*/
void Initialize(uint32_t initialType);
/**
* @brief 仿
* @param cmd
*/
void OnSimControl(uint32_t objectId, SimControlCmd cmd);
bool Initialize(uint32_t initialType);
};

1
XNCore/CMakeLists.txt
View File

@ -20,6 +20,7 @@ find_package(OpenSSL REQUIRED)
add_library(XNCore SHARED
XNCore_global.h
XNCore_Function.cpp
XNObject.h
XNObject.cpp
XNObject_p.h

2
XNCore/XNCore_global.h
View File

@ -92,7 +92,7 @@ using XNTimePoint = std::chrono::system_clock::time_point;
* @param timeStr ISO格式的时间字符串 (YYYY-MM-DDTHH:mm:ss)
* @return
*/
XNTimePoint parseISOTime(const std::string &timeStr);
extern "C" XNTimePoint XNCORE_EXPORT parseISOTime(const std::string &timeStr);
/**
* @brief

36
XNCore/XNFramework.cpp
View File

@ -86,95 +86,97 @@ void XNFramework::SetCpuAffinity(uint32_t cpuAffinity)
d->uCpuAffinity = cpuAffinity;
}
void XNFramework::Initialize(uint32_t initialType)
bool XNFramework::Initialize(uint32_t initialType)
{
T_D();
LOG_INFO("XNFramework Initialize ...");
bool ret = d->eventManager->Initialize();
if (!ret) {
LOG_ERROR("XNFramework Initialize Failed!");
return;
return false;
}
ret = d->timeManager->Initialize();
if (!ret) {
LOG_ERROR("XNFramework Initialize Failed!");
return;
return false;
}
ret = d->ddsManager->Initialize();
if (!ret) {
LOG_ERROR("XNFramework Initialize Failed!");
return;
return false;
}
ret = d->serviceManager->Initialize();
if (!ret) {
LOG_ERROR("XNFramework Initialize Failed!");
return;
return false;
}
ret = d->threadManager->Initialize();
if (!ret) {
LOG_ERROR("XNFramework Initialize Failed!");
return;
return false;
}
ret = d->modelManager->Initialize();
if (!ret) {
LOG_ERROR("XNFramework Initialize Failed!");
return;
return false;
}
ret = d->scenarioManager->Initialize();
if (!ret) {
LOG_ERROR("XNFramework Initialize Failed!");
return;
return false;
}
LOG_INFO("XNFramework Initialize Success!");
LOG_INFO("XNFramework Analyze Scenario Xml ...");
ret = d->scenarioManager->AnalysisScenarioXml(d->scenarioXml, initialType);
if (!ret) {
LOG_ERROR("XNFramework Analyze Scenario Xml Failed!");
return;
return false;
}
LOG_INFO("XNFramework Analyze Scenario Xml Success!");
return true;
}
void XNFramework::PrepareForExecute()
bool XNFramework::PrepareForExecute()
{
T_D();
bool ret = d->eventManager->PrepareForExecute();
if (!ret) {
LOG_ERROR("XNFramework PrepareForExecute Failed!");
return;
return false;
}
ret = d->timeManager->PrepareForExecute();
if (!ret) {
LOG_ERROR("XNFramework PrepareForExecute Failed!");
return;
return false;
}
ret = d->ddsManager->PrepareForExecute();
if (!ret) {
LOG_ERROR("XNFramework PrepareForExecute Failed!");
return;
return false;
}
ret = d->serviceManager->PrepareForExecute();
if (!ret) {
LOG_ERROR("XNFramework PrepareForExecute Failed!");
return;
return false;
}
ret = d->threadManager->PrepareForExecute();
if (!ret) {
LOG_ERROR("XNFramework PrepareForExecute Failed!");
return;
return false;
}
ret = d->modelManager->PrepareForExecute();
if (!ret) {
LOG_ERROR("XNFramework PrepareForExecute Failed!");
return;
return false;
}
ret = d->scenarioManager->PrepareForExecute();
if (!ret) {
LOG_ERROR("XNFramework PrepareForExecute Failed!");
return;
return false;
}
LOG_INFO("XNCore is prepared for execute! Simulation will start soon...");
return true;
}
void XNFramework::SetScenarioXml(const std::string &scenarioXml)

15
XNCore/XNFramework.h
View File

@ -146,8 +146,10 @@ public:
/**
* @brief
* @return true:
* @return false:
*/
void PrepareForExecute();
bool PrepareForExecute();
/**
* @brief 仿
@ -158,12 +160,9 @@ public:
/**
* @brief
* @param initialType
* @return true:
* @return false:
*/
void Initialize(uint32_t initialType);
/**
* @brief 仿
* @param cmd
*/
void OnSimControl(uint32_t objectId, SimControlCmd cmd);
bool Initialize(uint32_t initialType);
};

12
XNCore/XNModelObject.cpp
View File

@ -30,6 +30,18 @@ XNModelObject::XNModelObject(PrivateType *p) : XNObject(p)
{
}
void XNModelObject::SetFramework(XNFrameworkPtr framework)
{
T_D();
d->_framework = framework;
}
XNFrameworkPtr XNModelObject::GetFramework() const
{
T_D();
return d->_framework;
}
// 获取模型描述
const std::string &XNModelObject::GetDescription()
{

7
XNEngine/.vscode/settings.json vendored
View File

@ -68,6 +68,11 @@
"sstream": "cpp",
"cinttypes": "cpp",
"typeindex": "cpp",
"qcoreapplication": "cpp"
"qcoreapplication": "cpp",
"csignal": "cpp",
"any": "cpp",
"codecvt": "cpp",
"unordered_set": "cpp",
"fstream": "cpp"
}
}

48
XNEngine/CMakeLists.txt
View File

@ -2,10 +2,6 @@ cmake_minimum_required(VERSION 3.16)
project(XNEngine LANGUAGES CXX)
set(CMAKE_AUTOUIC ON)
set(CMAKE_AUTOMOC ON)
set(CMAKE_AUTORCC ON)
set(CMAKE_CXX_STANDARD 17)
set(CMAKE_CXX_STANDARD_REQUIRED ON)
@ -17,54 +13,24 @@ if(NOT fastdds_FOUND)
find_package(fastdds 3 REQUIRED)
endif()
find_package(QT NAMES Qt6 Qt5 REQUIRED COMPONENTS Core Xml)
find_package(Qt${QT_VERSION_MAJOR} REQUIRED COMPONENTS Core Xml)
find_package(Threads REQUIRED)
find_package(OpenSSL REQUIRED)
if(${QT_VERSION_MAJOR} GREATER_EQUAL 6)
qt_add_executable(XNEngine
MANUAL_FINALIZATION
add_executable(XNEngine
main.cpp
XNEngine.h
XNEngine.cpp
)
)
# Qt
get_target_property(QT_LIB_DIR Qt${QT_VERSION_MAJOR}::Core LOCATION)
get_filename_component(QT_LIB_DIR ${QT_LIB_DIR} DIRECTORY)
# rpath
set_target_properties(XNEngine PROPERTIES
BUILD_WITH_INSTALL_RPATH TRUE
INSTALL_RPATH "${QT_LIB_DIR}"
)
else()
add_executable(XNEngine
main.cpp
XNEngine.h
XNEngine.cpp
)
endif()
#if(CMAKE_SYSTEM_NAME STREQUAL "Linux")
find_library(XNCORE_LIBRARY NAMES XNCore PATHS ../XNCore/build)
target_link_libraries(XNEngine PRIVATE
Qt${QT_VERSION_MAJOR}::Core
Qt${QT_VERSION_MAJOR}::Xml
find_library(XNCORE_LIBRARY NAMES XNCore PATHS ../XNCore/build)
target_link_libraries(XNEngine PRIVATE
${XNCORE_LIBRARY}
fastcdr
fastdds
pthread
OpenSSL::SSL
OpenSSL::Crypto
)
#elseif(CMAKE_SYSTEM_NAME STREQUAL "Windows")
# target_link_libraries(XNEngine
# Qt${QT_VERSION_MAJOR}::Core
# Qt${QT_VERSION_MAJOR}::Xml
# XNCore)
#endif()
)
# Check if CMAKE_INSTALL_PREFIX is set to its default value
if(CMAKE_INSTALL_PREFIX_INITIALIZED_TO_DEFAULT)
@ -82,7 +48,3 @@ install(TARGETS XNEngine
install(CODE "
execute_process(COMMAND gio set -t string ${CMAKE_INSTALL_PREFIX}/XNEngine \"metadata::custom-icon\" \"file://${CMAKE_INSTALL_PREFIX}/resource/XNEngine.png\")
")
if(QT_VERSION_MAJOR EQUAL 6)
qt_finalize_executable(XNEngine)
endif()

332
XNEngine/XNEngine.cpp
View File

@ -9,8 +9,6 @@
*
*/
#include "XNEngine.h"
#include <QTimer>
#include <QCoreApplication>
#include "../XNCore/XNTimeManager.h"
#include "../XNCore/XNThreadManager.h"
#include "../XNCore/XNDDSManager.h"
@ -20,27 +18,16 @@
#include "../XNCore/XNScenarioManager.h"
// 引擎类构造函数
XNEngine::XNEngine(QObject *parent) : QObject(parent)
XNEngine::XNEngine()
{
// 设置对象名称
setObjectName("XNEngine");
// 创建框架对象
framework = new XNFramework();
// 连接初始化信号和槽
connect(this, &XNEngine::InitializeSignal, framework, &XNFramework::Initialize);
// 连接准备执行信号和槽
connect(this, &XNEngine::PrepareforExecuteSignal, framework, &XNFramework::OnPrepareForExecute);
// 连接初始化成功信号和槽
connect(framework, &XNFramework::InitializeSuccess, this, &XNEngine::OnInitializeSuccess);
// 连接准备执行成功信号和槽
connect(framework, &XNFramework::PrepareForExecuteSuccess, this,
&XNEngine::OnPrepareforExecuteSuccess);
// 连接仿真控制信号和槽
connect(this, &XNEngine::SimControlSignal, framework, &XNFramework::OnSimControl);
// 引擎状态写入器
engineStatusWriter = nullptr;
// 测试模式
isTestMode = false;
// 初始化类型
initializeType = 0;
}
// 引擎类析构函数
@ -53,139 +40,189 @@ void XNEngine::SimControlListener(const XNSim::XNSimControl::XNRuntimeControl &c
{
if (cmd.XNSimCmd() == 1) {
// 如果命令是暂停
emit SimControlSignal(0, SimControlCmd::Suspend);
framework->SimControl(0, SimControlCmd::Suspend);
} else if (cmd.XNSimCmd() == 2) {
// 如果命令是继续
emit SimControlSignal(0, SimControlCmd::Continue);
framework->SimControl(0, SimControlCmd::Continue);
} else if (cmd.XNSimCmd() == 3) {
// 如果命令是终止
emit SimControlSignal(0, SimControlCmd::Abort);
framework->SimControl(0, SimControlCmd::Abort);
//TODO 后续收到结束指令后再结束,还需要最后发一次终止状态
emit StopTimer();
// 退出应用程序
QCoreApplication::quit();
engineRunning = false;
}
}
// 设置日志级别
bool XNEngine::SetLogLevel(const QString &XmlPath)
bool XNEngine::SetLogLevel(const std::string &XmlPath)
{
// 打开配置文件
QFile file(XmlPath);
if (!file.open(QIODevice::ReadOnly | QIODevice::Text)) {
qFatal("0x1003 Failed to open the runtime environment configuration file, "
"the engine will exit!");
std::ifstream file(XmlPath);
if (!file.is_open()) {
std::cerr << "0x1003 Failed to open the runtime environment configuration file, "
"the engine will exit!"
<< std::endl;
return false;
}
// 解析配置文件
QDomDocument doc;
if (!doc.setContent(&file)) {
qFatal("0x1004 Failed to parse the runtime environment configuration file, "
"the engine will exit!");
tinyxml2::XMLDocument doc;
if (doc.LoadFile(XmlPath.c_str()) != tinyxml2::XML_SUCCESS) {
std::cerr << "0x1004 Failed to parse the runtime environment configuration file, "
"the engine will exit!"
<< std::endl;
return false;
}
// 获取根元素
QDomElement root = doc.documentElement();
tinyxml2::XMLElement *root = doc.FirstChildElement("RuntimeEnvironment");
if (!root) {
std::cerr << "0x1005 Failed to find RuntimeEnvironment element in configuration file!"
<< std::endl;
return false;
}
// 顺便读取一下CPU亲和性
int cpus = sysconf(_SC_NPROCESSORS_ONLN);
qInfo("Current number of CPU cores-> %d", cpus);
std::cout << "Current number of CPU cores-> " << cpus << std::endl;
// 设置CPU亲和性
cpu_set_t mask;
CPU_ZERO(&mask);
CPUAffinity = 0;
QDomNode EnvironmentNode = root.firstChildElement("Environment");
QString tmp = EnvironmentNode.toElement().attribute("CPUAffinity");
QStringList cpuAffinityList = tmp.split(",", Qt::SkipEmptyParts);
for (const QString &cpuAffinity : cpuAffinityList) {
bool ok;
quint32 cpuIndex = cpuAffinity.toUInt(&ok);
if (ok && cpuIndex < cpus) {
CPUAffinity |= (1 << cpuIndex);
CPU_SET(cpuIndex, &mask);
// 获取CPU亲和性配置
tinyxml2::XMLElement *envNode = root->FirstChildElement("Environment");
if (envNode) {
const char *cpuAffinityStr = envNode->Attribute("CPUAffinity");
if (cpuAffinityStr) {
std::string affinityStr(cpuAffinityStr);
std::istringstream iss(affinityStr);
std::string cpuIndex;
while (std::getline(iss, cpuIndex, ',')) {
try {
int index = std::stoi(cpuIndex);
if (index >= 0 && index < cpus) {
CPUAffinity |= (1 << index);
CPU_SET(index, &mask);
}
} catch (const std::exception &e) {
std::cerr << "Invalid CPU affinity value: " << cpuIndex << std::endl;
}
}
}
}
if (sched_setaffinity(0, sizeof(mask), &mask) == -1) {
qFatal("0x1020 Failed to set engine CPU affinity-> %s", strerror(errno));
std::cerr << "0x1020 Failed to set engine CPU affinity-> " << strerror(errno) << std::endl;
return false;
}
qInfo("Successfully set engine CPU affinity-> %u", CPUAffinity);
std::cout << "Successfully set engine CPU affinity-> " << CPUAffinity << std::endl;
// 锁定内存
if (mlockall(MCL_CURRENT | MCL_FUTURE) == -1) {
qFatal("0x1021 Failed to lock engine memory-> %s", strerror(errno));
std::cerr << "0x1021 Failed to lock engine memory-> " << strerror(errno) << std::endl;
return false;
}
qInfo("Successfully locked engine memory!");
std::cout << "Successfully locked engine memory!" << std::endl;
// 获取配置文件中的控制台输出元素
QDomNode consoleOutputNode = root.firstChildElement("ConsoleOutput");
if (consoleOutputNode.isNull()) {
qWarning("The runtime environment configuration file does not contain"
"the ConsoleOutput element, the Console will Output all Log!");
tinyxml2::XMLElement *consoleOutputNode = root->FirstChildElement("ConsoleOutput");
if (!consoleOutputNode) {
std::cout << "The runtime environment configuration file does not contain "
"the ConsoleOutput element, the Console will Output all Log!"
<< std::endl;
} else {
// 获取配置文件中的调试日志输出元素
QString debugConsoleOutput = consoleOutputNode.toElement().attribute("Debug");
if (debugConsoleOutput == "true" || debugConsoleOutput == "1"
|| debugConsoleOutput == "True" || debugConsoleOutput == "TRUE") {
const char *debugConsoleOutput = consoleOutputNode->Attribute("Debug");
if (debugConsoleOutput
&& (strcmp(debugConsoleOutput, "true") == 0 || strcmp(debugConsoleOutput, "1") == 0
|| strcmp(debugConsoleOutput, "True") == 0
|| strcmp(debugConsoleOutput, "TRUE") == 0)) {
XNLogger::instance().enableConsoleOutput(XNLogger::LogLevel::Debug, true);
} else {
XNLogger::instance().enableConsoleOutput(XNLogger::LogLevel::Debug, false);
}
// 获取配置文件中的信息日志输出元素
QString infoConsoleOutput = consoleOutputNode.toElement().attribute("Info");
if (infoConsoleOutput == "true" || infoConsoleOutput == "1" || infoConsoleOutput == "True"
|| infoConsoleOutput == "TRUE") {
const char *infoConsoleOutput = consoleOutputNode->Attribute("Info");
if (infoConsoleOutput
&& (strcmp(infoConsoleOutput, "true") == 0 || strcmp(infoConsoleOutput, "1") == 0
|| strcmp(infoConsoleOutput, "True") == 0
|| strcmp(infoConsoleOutput, "TRUE") == 0)) {
XNLogger::instance().enableConsoleOutput(XNLogger::LogLevel::Info, true);
} else {
XNLogger::instance().enableConsoleOutput(XNLogger::LogLevel::Info, false);
}
// 获取配置文件中的警告日志输出元素
QString warningConsoleOutput = consoleOutputNode.toElement().attribute("Warning");
if (warningConsoleOutput == "true" || warningConsoleOutput == "1"
|| warningConsoleOutput == "True" || warningConsoleOutput == "TRUE") {
const char *warningConsoleOutput = consoleOutputNode->Attribute("Warning");
if (warningConsoleOutput
&& (strcmp(warningConsoleOutput, "true") == 0 || strcmp(warningConsoleOutput, "1") == 0
|| strcmp(warningConsoleOutput, "True") == 0
|| strcmp(warningConsoleOutput, "TRUE") == 0)) {
XNLogger::instance().enableConsoleOutput(XNLogger::LogLevel::Warning, true);
} else {
XNLogger::instance().enableConsoleOutput(XNLogger::LogLevel::Warning, false);
}
// 获取配置文件中的错误日志输出元素
QString errorConsoleOutput = consoleOutputNode.toElement().attribute("Error");
if (errorConsoleOutput == "true" || errorConsoleOutput == "1"
|| errorConsoleOutput == "True" || errorConsoleOutput == "TRUE") {
const char *errorConsoleOutput = consoleOutputNode->Attribute("Error");
if (errorConsoleOutput
&& (strcmp(errorConsoleOutput, "true") == 0 || strcmp(errorConsoleOutput, "1") == 0
|| strcmp(errorConsoleOutput, "True") == 0
|| strcmp(errorConsoleOutput, "TRUE") == 0)) {
XNLogger::instance().enableConsoleOutput(XNLogger::LogLevel::Error, true);
} else {
XNLogger::instance().enableConsoleOutput(XNLogger::LogLevel::Error, false);
}
}
// 获取配置文件中的日志元素
QDomNode logNode = root.firstChildElement("Log");
if (logNode.isNull()) {
qWarning("The runtime environment configuration file does not contain"
"the Log element, the Log File will record all Log!");
tinyxml2::XMLElement *logNode = root->FirstChildElement("Log");
if (!logNode) {
std::cout << "The runtime environment configuration file does not contain "
"the Log element, the Log File will record all Log!"
<< std::endl;
} else {
// 获取配置文件中的调试日志输出元素
QString debugLog = logNode.toElement().attribute("Debug");
if (debugLog == "true" || debugLog == "1" || debugLog == "True" || debugLog == "TRUE") {
const char *debugLog = logNode->Attribute("Debug");
if (debugLog
&& (strcmp(debugLog, "true") == 0 || strcmp(debugLog, "1") == 0
|| strcmp(debugLog, "True") == 0 || strcmp(debugLog, "TRUE") == 0)) {
XNLogger::instance().enableFileOutput(XNLogger::LogLevel::Debug, true);
} else {
XNLogger::instance().enableFileOutput(XNLogger::LogLevel::Debug, false);
}
// 获取配置文件中的信息日志输出元素
QString infoLog = logNode.toElement().attribute("Info");
if (infoLog == "true" || infoLog == "1" || infoLog == "True" || infoLog == "TRUE") {
const char *infoLog = logNode->Attribute("Info");
if (infoLog
&& (strcmp(infoLog, "true") == 0 || strcmp(infoLog, "1") == 0
|| strcmp(infoLog, "True") == 0 || strcmp(infoLog, "TRUE") == 0)) {
XNLogger::instance().enableFileOutput(XNLogger::LogLevel::Info, true);
} else {
XNLogger::instance().enableFileOutput(XNLogger::LogLevel::Info, false);
}
// 获取配置文件中的警告日志输出元素
QString warningLog = logNode.toElement().attribute("Warning");
if (warningLog == "true" || warningLog == "1" || warningLog == "True"
|| warningLog == "TRUE") {
const char *warningLog = logNode->Attribute("Warning");
if (warningLog
&& (strcmp(warningLog, "true") == 0 || strcmp(warningLog, "1") == 0
|| strcmp(warningLog, "True") == 0 || strcmp(warningLog, "TRUE") == 0)) {
XNLogger::instance().enableFileOutput(XNLogger::LogLevel::Warning, true);
} else {
XNLogger::instance().enableFileOutput(XNLogger::LogLevel::Warning, false);
}
// 获取配置文件中的错误日志输出元素
QString errorLog = logNode.toElement().attribute("Error");
if (errorLog == "true" || errorLog == "1" || errorLog == "True" || errorLog == "TRUE") {
const char *errorLog = logNode->Attribute("Error");
if (errorLog
&& (strcmp(errorLog, "true") == 0 || strcmp(errorLog, "1") == 0
|| strcmp(errorLog, "True") == 0 || strcmp(errorLog, "TRUE") == 0)) {
XNLogger::instance().enableFileOutput(XNLogger::LogLevel::Error, true);
} else {
XNLogger::instance().enableFileOutput(XNLogger::LogLevel::Error, false);
}
}
// 关闭配置文件
file.close();
// 返回成功
@ -202,19 +239,19 @@ void XNEngine::PublishEngineStatus()
// 创建内核状态对象
XNSim::XNSimStatus::XNCoreStatus coreStatus;
// 设置引擎名称
engineStatus.XNEngineName(objectName().toStdString());
engineStatus.XNEngineName("XNEngine");
// 设置引擎ID
engineStatus.XNEngineID(getpid());
// 设置引擎亲和性
engineStatus.XNEngineAff(CPUAffinity);
// 获取时间管理器
XNTimeManager *timeManager = framework->findChild<XNTimeManager *>();
XNTimeManagerPtr timeManager = framework->GetTimeManager();
// 如果时间管理器存在
if (timeManager) {
// 设置引擎状态
engineStatus.XNEngineSt((quint32)timeManager->GetStatus());
engineStatus.XNEngineSt((uint32_t)timeManager->GetStatus());
// 设置内核状态
coreStatus.XNTMStatus((quint32)timeManager->GetFrameObjectStatus());
coreStatus.XNTMStatus((uint32_t)timeManager->GetFrameObjectStatus());
} else {
// 设置引擎状态
engineStatus.XNEngineSt(4);
@ -222,11 +259,11 @@ void XNEngine::PublishEngineStatus()
coreStatus.XNTMStatus(2);
}
// 获取线程管理器
XNThreadManager *threadManager = framework->findChild<XNThreadManager *>();
XNThreadManagerPtr threadManager = framework->GetThreadManager();
// 如果线程管理器存在
if (threadManager) {
// 设置内核状态
coreStatus.XNThMStatus((quint32)threadManager->GetFrameObjectStatus());
coreStatus.XNThMStatus((uint32_t)threadManager->GetFrameObjectStatus());
// 设置引擎状态
engineStatus.XNThCnt(threadManager->GetThreadCount());
} else {
@ -234,57 +271,57 @@ void XNEngine::PublishEngineStatus()
coreStatus.XNThMStatus(2);
}
// 获取DDS管理器
XNDDSManager *ddsManager = framework->findChild<XNDDSManager *>();
XNDDSManagerPtr ddsManager = framework->GetDDSManager();
// 如果DDS管理器存在
if (ddsManager) {
// 设置内核状态
coreStatus.XNDMStatus((quint32)ddsManager->GetFrameObjectStatus());
coreStatus.XNDMStatus((uint32_t)ddsManager->GetFrameObjectStatus());
} else {
// 设置内核状态
coreStatus.XNDMStatus(2);
}
// 获取事件管理器
XNEventManager *eventManager = framework->findChild<XNEventManager *>();
XNEventManagerPtr eventManager = framework->GetEventManager();
// 如果事件管理器存在
if (eventManager) {
// 设置内核状态
coreStatus.XNEMStatus((quint32)eventManager->GetFrameObjectStatus());
coreStatus.XNEMStatus((uint32_t)eventManager->GetFrameObjectStatus());
} else {
// 设置内核状态
coreStatus.XNEMStatus(2);
}
// 获取服务管理器
XNServiceManager *serviceManager = framework->findChild<XNServiceManager *>();
XNServiceManagerPtr serviceManager = framework->GetServiceManager();
// 如果服务管理器存在
if (serviceManager) {
// 设置内核状态
coreStatus.XNSMStatus((quint32)serviceManager->GetFrameObjectStatus());
coreStatus.XNSMStatus((uint32_t)serviceManager->GetFrameObjectStatus());
} else {
// 设置内核状态
coreStatus.XNSMStatus(2);
}
// 获取模型管理器
XNModelManager *modelManager = framework->findChild<XNModelManager *>();
XNModelManagerPtr modelManager = framework->GetModelManager();
// 如果模型管理器存在
if (modelManager) {
// 设置内核状态
coreStatus.XNMMStatus((quint32)modelManager->GetFrameObjectStatus());
coreStatus.XNMMStatus((uint32_t)modelManager->GetFrameObjectStatus());
} else {
// 设置内核状态
coreStatus.XNMMStatus(2);
}
// 获取场景管理器
XNScenarioManager *scenarioManager = framework->findChild<XNScenarioManager *>();
XNScenarioManagerPtr scenarioManager = framework->GetScenarioManager();
// 如果场景管理器存在
if (scenarioManager) {
// 设置内核状态
coreStatus.XNSDStatus((quint32)scenarioManager->GetFrameObjectStatus());
coreStatus.XNSDStatus((uint32_t)scenarioManager->GetFrameObjectStatus());
} else {
// 设置内核状态
coreStatus.XNSDStatus(2);
}
// 设置框架状态
coreStatus.XNFWStatus((quint32)frameworkStatus);
coreStatus.XNFWStatus((uint32_t)frameworkStatus);
// 设置引擎状态
engineStatus.XNCoreSt(coreStatus);
// 写入引擎状态
@ -295,7 +332,7 @@ void XNEngine::PublishEngineStatus()
}
// 运行引擎
bool XNEngine::Run(const QString &XmlPath)
bool XNEngine::Run(const std::string &XmlPath)
{
// 设置日志级别
bool isReady = SetLogLevel(XmlPath);
@ -309,92 +346,75 @@ bool XNEngine::Run(const QString &XmlPath)
// 设置CPU亲和性
framework->SetCpuAffinity(CPUAffinity);
// 单次触发初始化信号
QTimer::singleShot(50, [this]() { emit InitializeSignal(); });
// 返回成功
return true;
}
// 初始化成功
void XNEngine::OnInitializeSuccess(bool isSuccess)
{
if (isSuccess) { // 如果初始化成功
// 如果不是测试模式
if (!isTestMode) {
bool ret = framework->Initialize(0);
// 如果初始化失败
if (!ret) {
// 返回失败
return false;
}
// 如果初始化成功
// 设置框架状态
frameworkStatus = XNFrameObjectStatus::Initialized;
// 记录信息日志
LOG_INFO("XNEngine Initialize Success!");
// 触发准备执行信号
emit PrepareforExecuteSignal();
} else {
// 如果测试模式
if (isTestMode) {
// 记录信息日志
LOG_INFO("Verification passed!");
// 退出应用程序
QCoreApplication::quit();
// 返回成功
return true;
}
} else { // 如果初始化失败
// 如果不是测试模式
if (!isTestMode) {
// 设置框架状态
frameworkStatus = XNFrameObjectStatus::Unknown;
// 记录错误日志
qFatal("0x1006 Failed to initialize the engine, the engine will exit!");
} else {
// 记录信息日志
LOG_INFO("Verification failed!");
// 退出应用程序
QCoreApplication::quit();
ret = framework->PrepareForExecute();
// 如果准备执行失败
if (!ret) {
// 返回失败
return false;
}
}
}
// 准备执行成功
void XNEngine::OnPrepareforExecuteSuccess(bool isSuccess)
{
// 如果准备执行成功
if (isSuccess) {
// 设置框架状态
frameworkStatus = XNFrameObjectStatus::Ready;
// 获取DDS管理器
XNDDSManager *ddsManager = framework->findChild<XNDDSManager *>();
XNDDSManagerPtr ddsManager = framework->GetDDSManager();
// 如果DDS管理器存在
if (ddsManager) {
// 注册仿真控制订阅者
auto func = std::bind(&XNEngine::SimControlListener, this, std::placeholders::_1);
ddsManager->RegisterSubscriber<XNSim::XNSimControl::XNRuntimeControlPubSubType>(
"XNSim::XNSimControl::XNRuntimeControl", 0, func);
// 触发仿真控制信号
framework->SimControl(0, SimControlCmd::Start);
// 注册引擎状态发布者
engineStatusWriter =
ddsManager->RegisterPublisher<XNSim::XNSimStatus::XNEngineStatusPubSubType>(
"XNSim::XNSimStatus::XNEngineStatus", 0);
// 如果引擎状态写入器存在
if (engineStatusWriter) {
// 创建定时器
QTimer *timer = new QTimer(this);
// 设置定时器对象名称
timer->setObjectName("XNEngineStatusTimer");
// 连接定时器超时信号和槽
connect(timer, &QTimer::timeout, this, &XNEngine::PublishEngineStatus);
// 连接停止定时器信号和槽
connect(this, &XNEngine::StopTimer, timer, &QTimer::stop, Qt::QueuedConnection);
// 启动定时器
timer->start(1000); // Timer will trigger every second
// 设置引擎运行标志
engineRunning = true;
while (engineRunning) {
// 发布一次初始状态
PublishEngineStatus();
// 等待1秒
std::this_thread::sleep_for(std::chrono::seconds(1));
}
if (!engineRunning) {
// 取消注册引擎状态发布者
//ddsManager->UnregisterPublisher("XNSim::XNSimStatus::XNEngineStatus");
//ddsManager->UnregisterSubscriber("XNSim::XNSimControl::XNRuntimeControl");
}
}
} else {
// 记录错误日志
LOG_ERROR("0x1007 Failed to prepare for execution, the engine will exit!");
}
// 注册仿真控制订阅者
auto func = std::bind(&XNEngine::SimControlListener, this, std::placeholders::_1);
ddsManager->RegisterSubscriber<XNSim::XNSimControl::XNRuntimeControlPubSubType>(
"XNSim::XNSimControl::XNRuntimeControl", 0, func);
// 触发仿真控制信号
emit SimControlSignal(0, SimControlCmd::Start);
} else {
// 记录错误日志
qFatal("0x1007 Failed to prepare for execution, the engine will exit!");
}
} else {
// 设置框架状态
frameworkStatus = XNFrameObjectStatus::Unknown;
// 记录错误日志
qFatal("0x1007 Failed to prepare for execution, the engine will exit!");
}
// 返回成功
return true;
}
bool XNEngine::Run(const uint32_t &ConfigId)
{
return true;
}
// 设置测试模式
void XNEngine::SetTestMode(bool isTestMode)
{

55
XNEngine/XNEngine.h
View File

@ -9,22 +9,20 @@
*
*/
#include "../XNCore/XNFramework.h"
#include <QObject>
#include <fastdds/dds/publisher/DataWriter.hpp>
#include "../XNCore/XNIDL/XNSimStatusPubSubTypes.hpp"
/**
* @brief
*/
class XNEngine : public QObject
class XNEngine
{
Q_OBJECT
public:
/**
* @brief
* @param parent
*/
explicit XNEngine(QObject *parent = nullptr);
explicit XNEngine();
/**
* @brief
*/
@ -35,33 +33,7 @@ public:
*/
void SimControlListener(const XNSim::XNSimControl::XNRuntimeControl &cmd);
signals:
/**
* @brief
* @param isSuccess
*/
void InitializeSignal();
/**
* @brief XML信号
* @param XmlPath XML路径
*/
void AnalysisScenarioXmlSignal(const QString &XmlPath);
/**
* @brief
*/
void PrepareforExecuteSignal();
/**
* @brief 仿
* @param objectID ID
* @param cmd 仿
*/
void SimControlSignal(quint32 objectID, SimControlCmd cmd);
/**
* @brief
*/
void StopTimer();
public slots:
public:
/**
* @brief
* @param isSuccess
@ -77,7 +49,13 @@ public slots:
* @param XmlPath XML路径
* @return
*/
bool Run(const QString &XmlPath);
bool Run(const std::string &XmlPath);
/**
* @brief
* @param ConfigId ID
* @return
*/
bool Run(const uint32_t &ConfigId);
/**
* @brief
* @param isTestMode
@ -90,7 +68,7 @@ private:
* @param XmlPath XML路径
* @return
*/
bool SetLogLevel(const QString &XmlPath);
bool SetLogLevel(const std::string &XmlPath);
/**
* @brief
*/
@ -100,6 +78,11 @@ private:
* @brief
*/
bool isTestMode;
/**
* @brief
*/
uint32_t initializeType;
/**
* @brief
*/
@ -115,5 +98,9 @@ private:
/**
* @brief CPU亲和性
*/
quint32 CPUAffinity;
unsigned int CPUAffinity;
/**
* @brief
*/
std::atomic<bool> engineRunning{false};
};

115
XNEngine/main.cpp
View File

@ -8,8 +8,11 @@
* @copyright Copyright (c) 2025 COMAC
*
*/
#include <QCoreApplication>
#include <iostream>
#include <string>
#include <cstdlib>
#include "XNEngine.h"
/**
* @brief
* @param argc
@ -18,59 +21,85 @@
*/
int main(int argc, char *argv[])
{
QCoreApplication a(argc, argv);
//检测输入参数个数
if (argc <= 1) {
qFatal("0x1000 The input parameters do not contain the path to the runtime environment "
"configuration file, the engine will exit!");
}
//第一个参数必须为运行环境配置文件路径
QString SecPath = argv[1];
//检测第一个参数是否是运行环境配置文件
//限制以下临时变量的生存
{
int index = SecPath.lastIndexOf('.');
if (index != -1) {
QString suffix = SecPath.mid(index);
if (suffix != QString(".xml") && suffix != QString(".sce")) {
qFatal("0x1001 The runtime environment configuration file is not a .xml or .sce "
"file, the engine will exit!");
}
} else {
qFatal("0x1002 The runtime environment configuration file is not a .xml or .sce "
"file, the engine will exit!");
}
}
XNEngine engine;
quint32 frameworkType = 0;
//依次读取其它附加参数
for (int i = 2; i < argc;) {
QString arg = argv[i];
//TODO Error1003 ~ 101f
if ("-fw" == arg) {
//检测输入参数个数
if (argc <= 2) {
std::cerr << "0x1000 The input parameters is too less!" << std::endl;
return -1;
}
std::string configPath;
std::string configId;
bool hasConfigPath = false;
bool hasConfigId = false;
//检查是否包含-f和-id参数
for (int i = 1; i < argc;) {
std::string arg = argv[i];
if ("-f" == arg) {
if ((i + 1) < argc) {
frameworkType = atoi(argv[i + 1]);
configPath = argv[i + 1];
hasConfigPath = true;
i += 2;
} else {
qFatal("0x1003 After the -fw parameter, the framework type is not specified, the "
"engine will exit!");
std::cerr << "0x1004 After the -f parameter, the configuration file path is not "
"specified, "
"the engine will exit!"
<< std::endl;
return -1;
}
} else if ("-id" == arg) {
if ((i + 1) < argc) {
configId = argv[i + 1];
hasConfigId = true;
i += 2;
} else {
std::cerr
<< "0x1005 After the -id parameter, the configuration ID is not specified, "
"the engine will exit!"
<< std::endl;
return -1;
}
} else if ("-test" == arg) {
engine.SetTestMode(true);
i++;
} else {
i++;
std::cerr << "0x1007 The parameter " << arg << " is not valid, the engine will exit!"
<< std::endl;
return -1;
}
//TODO 其它参数解析
}
// 引擎运行
bool isReady = engine.Run(SecPath);
if (!isReady)
//检查是否同时包含-f和-id参数
if (!hasConfigPath || !hasConfigId) {
std::cerr
<< "0x1006 Please specify either -f <config_file> or -id <config_id>, but not both. "
"The engine will exit!"
<< std::endl;
return -1;
return a.exec();
}
//检测配置文件格式
if (hasConfigPath) {
size_t index = configPath.find_last_of('.');
if (index != std::string::npos) {
std::string suffix = configPath.substr(index);
if (suffix != ".xml" && suffix != ".sce") {
std::cerr << "0x1001 The configuration file is not a .xml or .sce "
"file, the engine will exit!"
<< std::endl;
return -1;
}
} else {
std::cerr << "0x1002 The configuration file is not a .xml or .sce "
"file, the engine will exit!"
<< std::endl;
return -1;
}
return engine.Run(configPath);
} else if (hasConfigId) {
return engine.Run(configId);
}
// 引擎运行
return engine.Run(configId);
}