266 lines
10 KiB
C++

#include "VrConfig.h"
#include <iostream>
#include <string>
#include <vector>
#include "ConfigXmlUtils.h"
#include "VrLog.h"
using namespace tinyxml2;
namespace {
// 读取 CornerParam 子节点到 VrAlgorithmParams
void LoadAlgorithmParamsBlock(XMLElement* algoElement, VrAlgorithmParams& params)
{
if (!algoElement) return;
if (XMLElement* e = algoElement->FirstChildElement("CornerParam")) {
if (e->Attribute("minEndingGap"))
params.cornerParam.minEndingGap = e->DoubleAttribute("minEndingGap");
if (e->Attribute("minEndingGap_z"))
params.cornerParam.minEndingGap_z = e->DoubleAttribute("minEndingGap_z");
if (e->Attribute("scale"))
params.cornerParam.scale = e->DoubleAttribute("scale");
if (e->Attribute("cornerTh"))
params.cornerParam.cornerTh = e->DoubleAttribute("cornerTh");
if (e->Attribute("jumpCornerTh_1"))
params.cornerParam.jumpCornerTh_1 = e->DoubleAttribute("jumpCornerTh_1");
if (e->Attribute("jumpCornerTh_2"))
params.cornerParam.jumpCornerTh_2 = e->DoubleAttribute("jumpCornerTh_2");
}
}
void SaveAlgorithmParamsBlock(XMLDocument& doc, XMLElement* algoElement, const VrAlgorithmParams& params)
{
XMLElement* cornerElement = doc.NewElement("CornerParam");
cornerElement->SetAttribute("cornerTh", params.cornerParam.cornerTh);
cornerElement->SetAttribute("scale", params.cornerParam.scale);
cornerElement->SetAttribute("minEndingGap", params.cornerParam.minEndingGap);
cornerElement->SetAttribute("minEndingGap_z", params.cornerParam.minEndingGap_z);
cornerElement->SetAttribute("jumpCornerTh_1", params.cornerParam.jumpCornerTh_1);
cornerElement->SetAttribute("jumpCornerTh_2", params.cornerParam.jumpCornerTh_2);
algoElement->InsertEndChild(cornerElement);
}
// 读取一个 <HandEyeCalibMatrix .../> 节点的所有属性到目标对象
void LoadHandEyeMatrixAttributes(XMLElement* e, VrHandEyeCalibMatrix& m)
{
if (!e) return;
if (e->Attribute("cameraIndex")) m.cameraIndex = e->IntAttribute("cameraIndex");
for (int i = 0; i < 16; ++i) {
char attrName[16];
std::snprintf(attrName, sizeof(attrName), "m%d", i);
if (e->Attribute(attrName)) m.matrix[i] = e->DoubleAttribute(attrName);
}
if (e->Attribute("eulerOrder")) m.eulerOrder = e->IntAttribute("eulerOrder");
if (e->Attribute("rotX")) m.rotX = e->DoubleAttribute("rotX");
if (e->Attribute("rotY")) m.rotY = e->DoubleAttribute("rotY");
if (e->Attribute("rotZ")) m.rotZ = e->DoubleAttribute("rotZ");
if (e->Attribute("approachOffset")) m.approachOffset = e->DoubleAttribute("approachOffset");
if (e->Attribute("offsetX")) m.offsetX = e->DoubleAttribute("offsetX");
if (e->Attribute("offsetY")) m.offsetY = e->DoubleAttribute("offsetY");
if (e->Attribute("offsetZ")) m.offsetZ = e->DoubleAttribute("offsetZ");
if (e->Attribute("outRotX")) m.outRotX = e->DoubleAttribute("outRotX");
if (e->Attribute("outRotY")) m.outRotY = e->DoubleAttribute("outRotY");
if (e->Attribute("outRotZ")) m.outRotZ = e->DoubleAttribute("outRotZ");
}
void SaveHandEyeMatrixAttributes(XMLElement* e, const VrHandEyeCalibMatrix& m)
{
e->SetAttribute("cameraIndex", m.cameraIndex);
for (int i = 0; i < 16; ++i) {
char attrName[16];
std::snprintf(attrName, sizeof(attrName), "m%d", i);
e->SetAttribute(attrName, m.matrix[i]);
}
e->SetAttribute("eulerOrder", m.eulerOrder);
e->SetAttribute("rotX", m.rotX);
e->SetAttribute("rotY", m.rotY);
e->SetAttribute("rotZ", m.rotZ);
e->SetAttribute("approachOffset", m.approachOffset);
e->SetAttribute("offsetX", m.offsetX);
e->SetAttribute("offsetY", m.offsetY);
e->SetAttribute("offsetZ", m.offsetZ);
e->SetAttribute("outRotX", m.outRotX);
e->SetAttribute("outRotY", m.outRotY);
e->SetAttribute("outRotZ", m.outRotZ);
}
const char* DetectionTypeToStr(DetectionType t)
{
return (t == DETECTION_TYPE_DISC_RACK) ? "discRack" : "discHole";
}
DetectionType StrToDetectionType(const char* s)
{
if (!s) return DETECTION_TYPE_DISC_HOLE;
return (std::string(s) == "discRack") ? DETECTION_TYPE_DISC_RACK : DETECTION_TYPE_DISC_HOLE;
}
} // namespace
CVrConfig::CVrConfig() : m_pNotify(nullptr)
{
}
CVrConfig::~CVrConfig()
{
}
int CVrConfig::LoadConfig(const std::string& filePath, ConfigResult& configResult)
{
XMLDocument doc;
const XMLError err = doc.LoadFile(filePath.c_str());
if (err != XML_SUCCESS)
{
LOG_ERR("Failed to open config file: %s\n", filePath.c_str());
return LOAD_CONFIG_FILE_NOT_FOUND;
}
XMLElement* root = doc.RootElement();
if (!root || std::string(root->Name()) != "DiscHolePoseConfig")
{
LOG_ERR("Config file format error: root element is not DiscHolePoseConfig\n");
return LOAD_CONFIG_INVALID_FORMAT;
}
ConfigXmlUtils::LoadCameraList(root, configResult.cameraList);
// 共享平面校准:相机级配置
ConfigXmlUtils::LoadPlaneCalibParams(root, configResult.algorithmParams.planeCalibParam);
// 读取四套 (camera, type) 配置
configResult.detectionConfigList.clear();
XMLElement* setsRoot = root->FirstChildElement("DetectionConfigs");
if (setsRoot) {
XMLElement* setElem = setsRoot->FirstChildElement("DetectionConfig");
while (setElem) {
VrDetectionConfigSet item;
if (setElem->Attribute("cameraIndex"))
item.cameraIndex = setElem->IntAttribute("cameraIndex");
if (setElem->Attribute("detectionType"))
item.detectionType = StrToDetectionType(setElem->Attribute("detectionType"));
// handEye 矩阵子节点
if (XMLElement* heElem = setElem->FirstChildElement("HandEyeCalibMatrix")) {
LoadHandEyeMatrixAttributes(heElem, item.handEyeMatrix);
}
// 算法参数子块
LoadAlgorithmParamsBlock(setElem->FirstChildElement("AlgorithmParams"), item.algorithmParams);
// 同步 handEyeMatrix.cameraIndex
item.handEyeMatrix.cameraIndex = item.cameraIndex;
configResult.detectionConfigList.push_back(item);
setElem = setElem->NextSiblingElement("DetectionConfig");
}
}
// 缺失槽位补全默认值
int cameraCount = static_cast<int>(configResult.cameraList.size());
if (cameraCount <= 0) cameraCount = 1;
for (int camIdx = 1; camIdx <= cameraCount; ++camIdx) {
configResult.EnsureDetectionConfig(camIdx, DETECTION_TYPE_DISC_HOLE);
configResult.EnsureDetectionConfig(camIdx, DETECTION_TYPE_DISC_RACK);
}
ConfigXmlUtils::LoadDebugParam(root, configResult.debugParam);
ConfigXmlUtils::LoadSerialConfig(root, configResult.serialConfig);
if (XMLElement* networkElement = root->FirstChildElement("NetworkConfig")) {
if (networkElement->Attribute("tcpServerPort"))
configResult.tcpPort = static_cast<uint16_t>(networkElement->IntAttribute("tcpServerPort"));
if (networkElement->Attribute("poseOutputOrder"))
configResult.poseOutputOrder = networkElement->IntAttribute("poseOutputOrder");
if (networkElement->Attribute("byteOrder"))
configResult.byteOrder = networkElement->IntAttribute("byteOrder");
}
if (XMLElement* tcpElement = root->FirstChildElement("TCP")) {
if (tcpElement->Attribute("port"))
configResult.tcpPort = static_cast<uint16_t>(tcpElement->IntAttribute("port"));
}
LOG_INFO("Config loaded successfully from: %s (detection sets: %zu)\n",
filePath.c_str(), configResult.detectionConfigList.size());
return LOAD_CONFIG_SUCCESS;
}
bool CVrConfig::SaveConfig(const std::string& filePath, ConfigResult& configResult)
{
XMLDocument doc;
XMLDeclaration* declaration = doc.NewDeclaration("xml version=\"1.0\" encoding=\"UTF-8\"");
doc.InsertFirstChild(declaration);
XMLElement* root = doc.NewElement("DiscHolePoseConfig");
doc.InsertEndChild(root);
ConfigXmlUtils::SaveCameraList(doc, root, configResult.cameraList);
// 共享平面校准
ConfigXmlUtils::SavePlaneCalibParams(doc, root, configResult.algorithmParams.planeCalibParam);
// 四套 (camera, type) 配置
XMLElement* setsRoot = doc.NewElement("DetectionConfigs");
for (const auto& item : configResult.detectionConfigList) {
XMLElement* setElem = doc.NewElement("DetectionConfig");
setElem->SetAttribute("cameraIndex", item.cameraIndex);
setElem->SetAttribute("detectionType", DetectionTypeToStr(item.detectionType));
XMLElement* heElem = doc.NewElement("HandEyeCalibMatrix");
VrHandEyeCalibMatrix syncedMatrix = item.handEyeMatrix;
syncedMatrix.cameraIndex = item.cameraIndex;
SaveHandEyeMatrixAttributes(heElem, syncedMatrix);
setElem->InsertEndChild(heElem);
XMLElement* algoElem = doc.NewElement("AlgorithmParams");
SaveAlgorithmParamsBlock(doc, algoElem, item.algorithmParams);
setElem->InsertEndChild(algoElem);
setsRoot->InsertEndChild(setElem);
}
root->InsertEndChild(setsRoot);
ConfigXmlUtils::SaveDebugParam(doc, root, configResult.debugParam);
ConfigXmlUtils::SaveSerialConfig(doc, root, configResult.serialConfig);
XMLElement* networkElement = doc.NewElement("NetworkConfig");
networkElement->SetAttribute("tcpServerPort", configResult.tcpPort);
networkElement->SetAttribute("poseOutputOrder", configResult.poseOutputOrder);
networkElement->SetAttribute("byteOrder", configResult.byteOrder);
root->InsertEndChild(networkElement);
XMLElement* tcpElement = doc.NewElement("TCP");
tcpElement->SetAttribute("port", configResult.tcpPort);
root->InsertEndChild(tcpElement);
const XMLError err = doc.SaveFile(filePath.c_str());
if (err != XML_SUCCESS)
{
LOG_ERR("Failed to save config file: %s\n", filePath.c_str());
return false;
}
if (m_pNotify)
{
m_pNotify->OnConfigChanged(configResult);
}
LOG_INFO("Config saved successfully to: %s\n", filePath.c_str());
return true;
}
void CVrConfig::SetConfigChangeNotify(IVrConfigChangeNotify* notify)
{
m_pNotify = notify;
}
bool IVrConfig::CreateInstance(IVrConfig** ppVrConfig)
{
*ppVrConfig = new CVrConfig();
return *ppVrConfig != nullptr;
}