GrabBag/Tools/CalibView/Src/CalibViewMainWindow.cpp

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#include "CalibViewMainWindow.h"
#include "CalibDataWidget.h"
#include "CalibResultWidget.h"
#include "BatchVerifyDialog.h"
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#include "MainWindow.h"
#include "VrEyeViewWidget.h"
#include "../../SpinBoxPasteHelper.h"
#include "IChessboardDetector.h"
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#include <QMenuBar>
#include <QAction>
#include <QSplitter>
#include <QVBoxLayout>
#include <QHBoxLayout>
#include <QGridLayout>
#include <QGroupBox>
#include <QMessageBox>
#include <QFileDialog>
#include <QFile>
#include <QTextStream>
#include <QLabel>
#include <QScrollArea>
#include <QSettings>
#include <QDateTime>
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namespace {
int parseCalibType(const QVariant& value)
{
bool ok = false;
const QString text = value.toString().trimmed();
const int numericType = text.toInt(&ok);
if (ok && numericType >= 0 && numericType <= 2) {
return numericType;
}
QString normalized = text.toLower();
normalized.remove('-');
normalized.remove('_');
normalized.remove(' ');
if (normalized == "eyetohand") {
return 0;
}
if (normalized == "eyeinhand") {
return 1;
}
if (normalized == "tcp") {
return 2;
}
return -1;
}
}
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CalibViewMainWindow::CalibViewMainWindow(QWidget* parent)
: QMainWindow(parent)
, m_calib(nullptr)
, m_dataWidget(nullptr)
, m_resultWidget(nullptr)
, m_sbTransformX(nullptr)
, m_sbTransformY(nullptr)
, m_sbTransformZ(nullptr)
, m_sbRoll(nullptr)
, m_sbPitch(nullptr)
, m_sbYaw(nullptr)
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, m_sbDirXX(nullptr)
, m_sbDirXY(nullptr)
, m_sbDirXZ(nullptr)
, m_sbDirYX(nullptr)
, m_sbDirYY(nullptr)
, m_sbDirYZ(nullptr)
, m_sbDirZX(nullptr)
, m_sbDirZY(nullptr)
, m_sbDirZZ(nullptr)
, m_cbAngleUnit(nullptr)
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, m_cbEulerOrder(nullptr)
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, m_btnEulerToMatrix(nullptr)
, m_btnMatrixToEuler(nullptr)
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, m_btnTransform(nullptr)
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, m_logEdit(nullptr)
, m_hasResult(false)
, m_robotView(nullptr)
, m_vrEyeView(nullptr)
{
// 创建标定实例
m_calib = CreateHandEyeCalibInstance();
setupUI();
createMenuBar();
SpinBoxPasteHelper::install(this);
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setWindowTitle("CalibView - 手眼标定工具 - 1.0.0");
resize(1400, 700);
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updateStatusBar("就绪");
}
CalibViewMainWindow::~CalibViewMainWindow()
{
if (m_calib) {
DestroyHandEyeCalibInstance(m_calib);
m_calib = nullptr;
}
}
QWidget* CalibViewMainWindow::createRightPanel()
{
QWidget* rightPanel = new QWidget(this);
QVBoxLayout* rightLayout = new QVBoxLayout(rightPanel);
// 坐标变换测试组
QGroupBox* transformGroup = new QGroupBox("坐标变换测试", this);
QGridLayout* transformLayout = new QGridLayout(transformGroup);
transformLayout->addWidget(new QLabel("X:", this), 0, 0);
m_sbTransformX = new QDoubleSpinBox(this);
m_sbTransformX->setRange(-10000, 10000);
m_sbTransformX->setDecimals(3);
transformLayout->addWidget(m_sbTransformX, 0, 1);
transformLayout->addWidget(new QLabel("Y:", this), 0, 2);
m_sbTransformY = new QDoubleSpinBox(this);
m_sbTransformY->setRange(-10000, 10000);
m_sbTransformY->setDecimals(3);
transformLayout->addWidget(m_sbTransformY, 0, 3);
transformLayout->addWidget(new QLabel("Z:", this), 0, 4);
m_sbTransformZ = new QDoubleSpinBox(this);
m_sbTransformZ->setRange(-10000, 10000);
m_sbTransformZ->setDecimals(3);
transformLayout->addWidget(m_sbTransformZ, 0, 5);
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// 第2行姿态 Roll/Pitch/Yaw
transformLayout->addWidget(new QLabel("Roll:", this), 1, 0);
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m_sbRoll = new QDoubleSpinBox(this);
m_sbRoll->setRange(-180, 180);
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m_sbRoll->setDecimals(6);
transformLayout->addWidget(m_sbRoll, 1, 1);
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transformLayout->addWidget(new QLabel("Pitch:", this), 1, 2);
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m_sbPitch = new QDoubleSpinBox(this);
m_sbPitch->setRange(-180, 180);
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m_sbPitch->setDecimals(6);
transformLayout->addWidget(m_sbPitch, 1, 3);
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transformLayout->addWidget(new QLabel("Yaw:", this), 1, 4);
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m_sbYaw = new QDoubleSpinBox(this);
m_sbYaw->setRange(-180, 180);
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m_sbYaw->setDecimals(6);
transformLayout->addWidget(m_sbYaw, 1, 5);
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// 第3行角度单位与欧拉角顺序
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transformLayout->addWidget(new QLabel("角度单位:", this), 2, 0);
m_cbAngleUnit = new QComboBox(this);
m_cbAngleUnit->addItem("度(°)", 0);
m_cbAngleUnit->addItem("弧度(rad)", 1);
m_cbAngleUnit->setCurrentIndex(0); // 默认度
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transformLayout->addWidget(m_cbAngleUnit, 2, 1, 1, 2);
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transformLayout->addWidget(new QLabel("欧拉角顺序:", this), 2, 3);
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m_cbEulerOrder = new QComboBox(this);
m_cbEulerOrder->addItem("XYZ", static_cast<int>(HECEulerOrder::XYZ));
m_cbEulerOrder->addItem("XZY", static_cast<int>(HECEulerOrder::XZY));
m_cbEulerOrder->addItem("YXZ", static_cast<int>(HECEulerOrder::YXZ));
m_cbEulerOrder->addItem("YZX", static_cast<int>(HECEulerOrder::YZX));
m_cbEulerOrder->addItem("ZXY", static_cast<int>(HECEulerOrder::ZXY));
m_cbEulerOrder->addItem("ZYX (常用)", static_cast<int>(HECEulerOrder::ZYX));
m_cbEulerOrder->setCurrentIndex(5); // 默认 ZYX
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transformLayout->addWidget(m_cbEulerOrder, 2, 4, 1, 2);
// 第4行X轴方向向量x, y, z
transformLayout->addWidget(new QLabel("X轴(x,y,z):", this), 3, 0);
m_sbDirXX = new QDoubleSpinBox(this);
m_sbDirXX->setRange(-10000, 10000);
m_sbDirXX->setDecimals(6);
transformLayout->addWidget(m_sbDirXX, 3, 1);
m_sbDirXY = new QDoubleSpinBox(this);
m_sbDirXY->setRange(-10000, 10000);
m_sbDirXY->setDecimals(6);
transformLayout->addWidget(m_sbDirXY, 3, 3);
m_sbDirXZ = new QDoubleSpinBox(this);
m_sbDirXZ->setRange(-10000, 10000);
m_sbDirXZ->setDecimals(6);
transformLayout->addWidget(m_sbDirXZ, 3, 5);
// 第5行Y轴方向向量
transformLayout->addWidget(new QLabel("Y轴(x,y,z):", this), 4, 0);
m_sbDirYX = new QDoubleSpinBox(this);
m_sbDirYX->setRange(-10000, 10000);
m_sbDirYX->setDecimals(6);
transformLayout->addWidget(m_sbDirYX, 4, 1);
m_sbDirYY = new QDoubleSpinBox(this);
m_sbDirYY->setRange(-10000, 10000);
m_sbDirYY->setDecimals(6);
transformLayout->addWidget(m_sbDirYY, 4, 3);
m_sbDirYZ = new QDoubleSpinBox(this);
m_sbDirYZ->setRange(-10000, 10000);
m_sbDirYZ->setDecimals(6);
transformLayout->addWidget(m_sbDirYZ, 4, 5);
// 第6行Z轴方向向量
transformLayout->addWidget(new QLabel("Z轴(x,y,z):", this), 5, 0);
m_sbDirZX = new QDoubleSpinBox(this);
m_sbDirZX->setRange(-10000, 10000);
m_sbDirZX->setDecimals(6);
transformLayout->addWidget(m_sbDirZX, 5, 1);
m_sbDirZY = new QDoubleSpinBox(this);
m_sbDirZY->setRange(-10000, 10000);
m_sbDirZY->setDecimals(6);
transformLayout->addWidget(m_sbDirZY, 5, 3);
m_sbDirZZ = new QDoubleSpinBox(this);
m_sbDirZZ->setRange(-10000, 10000);
m_sbDirZZ->setDecimals(6);
transformLayout->addWidget(m_sbDirZZ, 5, 5);
// 第7行欧拉角与方向向量互转
m_btnEulerToMatrix = new QPushButton("欧拉角 -> 向量", this);
connect(m_btnEulerToMatrix, &QPushButton::clicked, this, &CalibViewMainWindow::onEulerToDirectionMatrix);
transformLayout->addWidget(m_btnEulerToMatrix, 6, 0, 1, 3);
m_btnMatrixToEuler = new QPushButton("向量 -> 欧拉角", this);
connect(m_btnMatrixToEuler, &QPushButton::clicked, this, &CalibViewMainWindow::onDirectionMatrixToEuler);
transformLayout->addWidget(m_btnMatrixToEuler, 6, 3, 1, 3);
// 第8行变换按钮
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m_btnTransform = new QPushButton("变换", this);
connect(m_btnTransform, &QPushButton::clicked, this, &CalibViewMainWindow::onTransformTest);
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transformLayout->addWidget(m_btnTransform, 7, 0, 1, 6);
updateDirectionMatrixDisplay(HECRotationMatrix());
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rightLayout->addWidget(transformGroup);
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// 日志组
QGroupBox* logGroup = new QGroupBox("日志", this);
QVBoxLayout* logLayout = new QVBoxLayout(logGroup);
m_logEdit = new QTextEdit(this);
m_logEdit->setReadOnly(true);
m_logEdit->setFont(QFont("Consolas", 9));
logLayout->addWidget(m_logEdit);
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// 清除日志按钮
QPushButton* btnClearLog = new QPushButton("清除日志", this);
connect(btnClearLog, &QPushButton::clicked, m_logEdit, &QTextEdit::clear);
logLayout->addWidget(btnClearLog);
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rightLayout->addWidget(logGroup, 1); // stretch=1 让日志区占据剩余空间
return rightPanel;
}
void CalibViewMainWindow::setupUI()
{
// 创建中央控件
QWidget* centralWidget = new QWidget(this);
QHBoxLayout* mainLayout = new QHBoxLayout(centralWidget);
// 创建分割器
QSplitter* splitter = new QSplitter(Qt::Horizontal, this);
// 左侧面板:数据输入 + 标定结果
QWidget* leftPanel = new QWidget(this);
QVBoxLayout* leftLayout = new QVBoxLayout(leftPanel);
// 数据输入(可滚动)
QScrollArea* dataScroll = new QScrollArea(this);
m_dataWidget = new CalibDataWidget(this);
dataScroll->setWidget(m_dataWidget);
dataScroll->setWidgetResizable(true);
leftLayout->addWidget(dataScroll, 1);
// 标定结果
m_resultWidget = new CalibResultWidget(this);
leftLayout->addWidget(m_resultWidget);
splitter->addWidget(leftPanel);
// 右侧面板:测试工具 + 日志
QWidget* rightPanel = createRightPanel();
splitter->addWidget(rightPanel);
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// 设置分割比例(右侧测试栏保持紧凑)
splitter->setStretchFactor(0, 5);
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splitter->setStretchFactor(1, 1);
// 设置初始大小
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splitter->setSizes(QList<int>() << 1180 << 220);
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mainLayout->addWidget(splitter);
setCentralWidget(centralWidget);
// 创建状态栏
statusBar()->showMessage("就绪");
// 连接 CalibDataWidget 的信号
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connect(m_dataWidget, &CalibDataWidget::requestEyeToHandCalib, this, &CalibViewMainWindow::onEyeToHandCalib);
connect(m_dataWidget, &CalibDataWidget::requestEyeInHandCalib, this, &CalibViewMainWindow::onEyeInHandCalib);
connect(m_dataWidget, &CalibDataWidget::requestTCPCalib, this, &CalibViewMainWindow::onTCPCalib);
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}
void CalibViewMainWindow::createMenuBar()
{
// 文件菜单
QMenu* fileMenu = menuBar()->addMenu("文件(&F)");
QAction* actSave = fileMenu->addAction("保存结果(&S)");
actSave->setShortcut(QKeySequence::Save);
connect(actSave, &QAction::triggered, this, &CalibViewMainWindow::onSaveResult);
QAction* actLoad = fileMenu->addAction("加载结果(&L)");
actLoad->setShortcut(QKeySequence::Open);
connect(actLoad, &QAction::triggered, this, &CalibViewMainWindow::onLoadResult);
fileMenu->addSeparator();
QAction* actSaveData = fileMenu->addAction("保存标定数据(&D)");
actSaveData->setShortcut(QKeySequence(Qt::CTRL | Qt::SHIFT | Qt::Key_S));
connect(actSaveData, &QAction::triggered, this, &CalibViewMainWindow::onSaveCalibData);
QAction* actLoadData = fileMenu->addAction("加载标定数据(&A)");
actLoadData->setShortcut(QKeySequence(Qt::CTRL | Qt::SHIFT | Qt::Key_O));
connect(actLoadData, &QAction::triggered, this, &CalibViewMainWindow::onLoadCalibData);
fileMenu->addSeparator();
QAction* actExit = fileMenu->addAction("退出(&X)");
actExit->setShortcut(QKeySequence::Quit);
connect(actExit, &QAction::triggered, this, &QMainWindow::close);
// 标定菜单
QMenu* calibMenu = menuBar()->addMenu("标定(&C)");
QAction* actEyeToHand = calibMenu->addAction("Eye-To-Hand 标定(&E)");
connect(actEyeToHand, &QAction::triggered, this, &CalibViewMainWindow::onEyeToHandCalib);
QAction* actEyeInHand = calibMenu->addAction("Eye-In-Hand 标定(&I)");
connect(actEyeInHand, &QAction::triggered, this, &CalibViewMainWindow::onEyeInHandCalib);
QAction* actTCPCalib = calibMenu->addAction("TCP 标定(&P)");
connect(actTCPCalib, &QAction::triggered, this, &CalibViewMainWindow::onTCPCalib);
calibMenu->addSeparator();
QAction* actTransform = calibMenu->addAction("坐标变换测试(&T)");
connect(actTransform, &QAction::triggered, this, &CalibViewMainWindow::onTransformTest);
calibMenu->addSeparator();
QAction* actClear = calibMenu->addAction("清除所有(&C)");
connect(actClear, &QAction::triggered, this, &CalibViewMainWindow::onClearAll);
// 工具菜单
QMenu* toolMenu = menuBar()->addMenu("工具(&T)");
QAction* actRobotView = toolMenu->addAction("机器人控制(&R)");
connect(actRobotView, &QAction::triggered, this, &CalibViewMainWindow::onOpenRobotView);
QAction* actVrEyeView = toolMenu->addAction("相机标定板检测(&V)");
connect(actVrEyeView, &QAction::triggered, this, &CalibViewMainWindow::onOpenVrEyeView);
toolMenu->addSeparator();
QAction* actBatchVerify = toolMenu->addAction("批量验证(&B)");
actBatchVerify->setShortcut(QKeySequence(Qt::CTRL | Qt::Key_B));
connect(actBatchVerify, &QAction::triggered, this, &CalibViewMainWindow::onOpenBatchVerify);
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// 帮助菜单
QMenu* helpMenu = menuBar()->addMenu("帮助(&H)");
QAction* actAbout = helpMenu->addAction("关于(&A)");
connect(actAbout, &QAction::triggered, this, [this]() {
QMessageBox::about(this, "关于 CalibView",
"CalibView - 手眼标定工具\n\n"
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"用于测试 HandEyeCalib 模块的各项功能:\n"
"- Eye-To-Hand 标定\n"
"- Eye-In-Hand 标定\n"
"- TCP 标定\n"
"- 坐标变换\n"
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"- 方向向量与欧拉角互转\n\n"
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"基于 Eigen 库实现的 SVD 分解算法");
});
}
void CalibViewMainWindow::updateStatusBar(const QString& message)
{
statusBar()->showMessage(message);
}
void CalibViewMainWindow::appendLog(const QString& message)
{
m_logEdit->append(message);
}
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void CalibViewMainWindow::updateDirectionMatrixDisplay(const HECRotationMatrix& R)
{
if (!m_sbDirXX || !m_sbDirXY || !m_sbDirXZ ||
!m_sbDirYX || !m_sbDirYY || !m_sbDirYZ ||
!m_sbDirZX || !m_sbDirZY || !m_sbDirZZ) {
return;
}
m_sbDirXX->setValue(R.at(0, 0));
m_sbDirXY->setValue(R.at(1, 0));
m_sbDirXZ->setValue(R.at(2, 0));
m_sbDirYX->setValue(R.at(0, 1));
m_sbDirYY->setValue(R.at(1, 1));
m_sbDirYZ->setValue(R.at(2, 1));
m_sbDirZX->setValue(R.at(0, 2));
m_sbDirZY->setValue(R.at(1, 2));
m_sbDirZZ->setValue(R.at(2, 2));
}
bool CalibViewMainWindow::tryGetDirectionMatrixInput(HECRotationMatrix& R)
{
if (!m_sbDirXX || !m_sbDirXY || !m_sbDirXZ ||
!m_sbDirYX || !m_sbDirYY || !m_sbDirYZ ||
!m_sbDirZX || !m_sbDirZY || !m_sbDirZZ) {
return false;
}
auto dot = [](const HECPoint3D& a, const HECPoint3D& b) {
return a.x * b.x + a.y * b.y + a.z * b.z;
};
auto cross = [](const HECPoint3D& a, const HECPoint3D& b) {
return HECPoint3D(
a.y * b.z - a.z * b.y,
a.z * b.x - a.x * b.z,
a.x * b.y - a.y * b.x
);
};
HECPoint3D xAxis(m_sbDirXX->value(), m_sbDirXY->value(), m_sbDirXZ->value());
HECPoint3D yAxis(m_sbDirYX->value(), m_sbDirYY->value(), m_sbDirYZ->value());
HECPoint3D zAxis(m_sbDirZX->value(), m_sbDirZY->value(), m_sbDirZZ->value());
if (xAxis.norm() < 1e-10) {
QMessageBox::warning(this, "警告", "X轴方向向量长度不能为 0");
return false;
}
if (yAxis.norm() < 1e-10) {
QMessageBox::warning(this, "警告", "Y轴方向向量长度不能为 0");
return false;
}
if (zAxis.norm() < 1e-10) {
QMessageBox::warning(this, "警告", "Z轴方向向量长度不能为 0");
return false;
}
xAxis = xAxis.normalized();
HECPoint3D yAxisOrtho = yAxis - xAxis * dot(xAxis, yAxis);
if (yAxisOrtho.norm() < 1e-10) {
QMessageBox::warning(this, "警告", "X轴与Y轴方向向量不能共线");
return false;
}
yAxisOrtho = yAxisOrtho.normalized();
HECPoint3D zAxisOrtho = cross(xAxis, yAxisOrtho);
if (zAxisOrtho.norm() < 1e-10) {
QMessageBox::warning(this, "警告", "无法根据 X/Y 轴方向向量构造正交坐标系");
return false;
}
zAxisOrtho = zAxisOrtho.normalized();
HECPoint3D zAxisNorm = zAxis.normalized();
const double scoreKeep =
dot(yAxisOrtho, yAxis.normalized()) + dot(zAxisOrtho, zAxisNorm);
const double scoreFlip =
dot(yAxisOrtho * (-1.0), yAxis.normalized()) + dot(zAxisOrtho * (-1.0), zAxisNorm);
if (scoreFlip > scoreKeep) {
yAxisOrtho = yAxisOrtho * (-1.0);
zAxisOrtho = zAxisOrtho * (-1.0);
}
zAxisOrtho = zAxisOrtho - xAxis * dot(xAxis, zAxisOrtho);
zAxisOrtho = zAxisOrtho - yAxisOrtho * dot(yAxisOrtho, zAxisOrtho);
if (zAxisOrtho.norm() < 1e-10) {
QMessageBox::warning(this, "警告", "输入的方向向量无法稳定构造正交坐标系");
return false;
}
zAxisOrtho = zAxisOrtho.normalized();
yAxisOrtho = cross(zAxisOrtho, xAxis).normalized();
R.at(0, 0) = xAxis.x;
R.at(1, 0) = xAxis.y;
R.at(2, 0) = xAxis.z;
R.at(0, 1) = yAxisOrtho.x;
R.at(1, 1) = yAxisOrtho.y;
R.at(2, 1) = yAxisOrtho.z;
R.at(0, 2) = zAxisOrtho.x;
R.at(1, 2) = zAxisOrtho.y;
R.at(2, 2) = zAxisOrtho.z;
return true;
}
QString CalibViewMainWindow::eulerOrderToString(HECEulerOrder order) const
{
switch (order) {
case HECEulerOrder::XYZ: return "XYZ";
case HECEulerOrder::XZY: return "XZY";
case HECEulerOrder::YXZ: return "YXZ";
case HECEulerOrder::YZX: return "YZX";
case HECEulerOrder::ZXY: return "ZXY";
case HECEulerOrder::ZYX: return "ZYX";
}
return "ZYX";
}
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void CalibViewMainWindow::onEyeToHandCalib()
{
if (!m_calib) {
QMessageBox::critical(this, "错误", "标定实例未初始化");
return;
}
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QMessageBox msgBox(this);
msgBox.setWindowTitle("选择标定方法");
msgBox.setText("请选择 Eye-To-Hand 标定方法:");
QPushButton* simpleBtn = msgBox.addButton("简单方法 (仅位置)", QMessageBox::ActionRole);
QPushButton* poseBtn = msgBox.addButton("完整位姿方法 (Park算法)", QMessageBox::ActionRole);
QPushButton* cancelBtn = msgBox.addButton("取消", QMessageBox::RejectRole);
msgBox.exec();
if (msgBox.clickedButton() == cancelBtn) {
return;
}
if (msgBox.clickedButton() == simpleBtn) {
onEyeToHandCalibSimple();
} else if (msgBox.clickedButton() == poseBtn) {
onEyeToHandCalibWithPose();
}
}
void CalibViewMainWindow::onEyeToHandCalibSimple()
{
appendLog("开始 Eye-To-Hand 标定(简单方法 - 仅位置)...");
std::vector<HECPoint3D> eyePoints;
std::vector<HECPoint3D> robotPoints;
m_dataWidget->getEyeToHandData(eyePoints, robotPoints);
if (eyePoints.size() < 3) {
QMessageBox::warning(this, "警告", "至少需要3组数据进行标定");
return;
}
appendLog(QString("输入数据组数: %1").arg(eyePoints.size()));
appendLog("使用 SVD 分解方法,仅利用位置信息");
int ret = m_calib->CalculateRT(eyePoints, robotPoints, m_currentResult);
if (ret == 0) {
m_hasResult = true;
m_resultWidget->showCalibResult(m_currentResult);
appendLog(QString("标定成功,误差: %1 mm")
.arg(m_currentResult.error, 0, 'f', 4));
updateStatusBar("Eye-To-Hand 标定完成(简单方法)");
emit calibrationCompleted(m_currentResult);
} else {
appendLog(QString("标定失败,错误码: %1").arg(ret));
QMessageBox::critical(this, "错误", QString("标定失败,错误码: %1").arg(ret));
}
}
void CalibViewMainWindow::onEyeToHandCalibWithPose()
{
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appendLog("开始 Eye-To-Hand 标定(完整位姿方法 - Park 算法)...");
std::vector<HECEyeToHandData> calibData;
m_dataWidget->getEyeToHandPoseData(calibData);
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if (calibData.size() < 3) {
QMessageBox::warning(this, "警告",
"完整位姿法需要至少3组数据且数据必须包含标定板的完整位姿信息。\n"
"请确保数据已从包含完整位姿的 INI 文件加载。");
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return;
}
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HECEulerOrder eulerOrder = m_dataWidget->getEulerOrder();
QString eulerOrderStr;
switch (eulerOrder) {
case HECEulerOrder::ZYX: eulerOrderStr = "ZYX"; break;
case HECEulerOrder::XYZ: eulerOrderStr = "XYZ"; break;
case HECEulerOrder::XZY: eulerOrderStr = "XZY"; break;
case HECEulerOrder::YXZ: eulerOrderStr = "YXZ"; break;
case HECEulerOrder::YZX: eulerOrderStr = "YZX"; break;
case HECEulerOrder::ZXY: eulerOrderStr = "ZXY"; break;
}
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appendLog(QString("输入数据组数: %1").arg(calibData.size()));
appendLog(QString("欧拉角顺序: %1").arg(eulerOrderStr));
appendLog("使用 Park/Tsai-Lenz 算法,利用完整位姿信息(位置+姿态)");
int ret = m_calib->CalculateEyeToHandWithPose(calibData, m_currentResult);
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if (ret == 0) {
m_hasResult = true;
m_resultWidget->showCalibResult(m_currentResult);
appendLog(QString("标定成功,误差: %1 mm")
.arg(m_currentResult.error, 0, 'f', 4));
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updateStatusBar("Eye-To-Hand 标定完成Park 方法)");
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emit calibrationCompleted(m_currentResult);
} else {
appendLog(QString("标定失败,错误码: %1").arg(ret));
QMessageBox::critical(this, "错误", QString("标定失败,错误码: %1").arg(ret));
}
}
void CalibViewMainWindow::onEyeInHandCalib()
{
if (!m_calib) {
QMessageBox::critical(this, "错误", "标定实例未初始化");
return;
}
std::vector<HECEyeInHandData> calibData;
m_dataWidget->getEyeInHandData(calibData);
if (calibData.size() < 3) {
QMessageBox::warning(this, "警告", "至少需要3组数据进行标定");
return;
}
appendLog("开始 Eye-In-Hand 标定...");
appendLog(QString("输入数据组数: %1").arg(calibData.size()));
int ret = m_calib->CalculateEyeInHand(calibData, m_currentResult);
if (ret == 0) {
m_hasResult = true;
m_resultWidget->showCalibResult(m_currentResult);
appendLog(QString("标定成功,误差: %1 mm")
.arg(m_currentResult.error, 0, 'f', 4));
updateStatusBar("Eye-In-Hand 标定完成");
emit calibrationCompleted(m_currentResult);
} else {
appendLog(QString("标定失败,错误码: %1").arg(ret));
QMessageBox::critical(this, "错误", QString("标定失败,错误码: %1").arg(ret));
}
}
void CalibViewMainWindow::onTCPCalib()
{
if (!m_calib) {
QMessageBox::critical(this, "错误", "标定实例未初始化");
return;
}
HECTCPCalibData tcpData = m_dataWidget->getTCPCalibData();
if (tcpData.poses.size() < 3) {
QMessageBox::warning(this, "警告", "至少需要3组法兰位姿进行TCP标定");
return;
}
if (tcpData.mode == HECTCPCalibMode::Full6DOF) {
if (tcpData.referencePoseIndex < 0 ||
tcpData.referencePoseIndex >= static_cast<int>(tcpData.poses.size())) {
QMessageBox::warning(this, "警告",
QString("参考位姿索引 %1 越界,有效范围: 0-%2")
.arg(tcpData.referencePoseIndex)
.arg(tcpData.poses.size() - 1));
return;
}
}
QString modeName = (tcpData.mode == HECTCPCalibMode::PositionOnly) ?
"3-DOF 位置标定" : "6-DOF 完整标定";
appendLog(QString("开始 TCP 标定 (%1)...").arg(modeName));
appendLog(QString("输入位姿数: %1").arg(tcpData.poses.size()));
HECTCPCalibResult tcpResult = m_calib->CalculateTCP(tcpData);
if (tcpResult.success) {
m_resultWidget->showTCPCalibResult(tcpResult);
appendLog("=== TCP 标定结果 ===");
appendLog(QString("TCP 位置偏移: tx=%1, ty=%2, tz=%3")
.arg(tcpResult.tx, 0, 'f', 3)
.arg(tcpResult.ty, 0, 'f', 3)
.arg(tcpResult.tz, 0, 'f', 3));
if (tcpResult.rx != 0 || tcpResult.ry != 0 || tcpResult.rz != 0) {
appendLog(QString("TCP 姿态偏移: rx=%1\302\260, ry=%2\302\260, rz=%3\302\260")
.arg(tcpResult.rx, 0, 'f', 2)
.arg(tcpResult.ry, 0, 'f', 2)
.arg(tcpResult.rz, 0, 'f', 2));
}
appendLog(QString("残差误差: %1 mm").arg(tcpResult.residualError, 0, 'f', 4));
appendLog("TCP 标定成功");
updateStatusBar("TCP 标定完成");
} else {
appendLog(QString("TCP 标定失败: %1")
.arg(QString::fromStdString(tcpResult.errorMessage)));
QMessageBox::critical(this, "错误",
QString("TCP 标定失败: %1").arg(QString::fromStdString(tcpResult.errorMessage)));
}
}
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void CalibViewMainWindow::onEulerToDirectionMatrix()
{
if (!m_calib) {
QMessageBox::critical(this, "错误", "标定实例未初始化");
return;
}
const bool isRadian = (m_cbAngleUnit->currentData().toInt() == 1);
const HECEulerAngles srcAngles = isRadian
? HECEulerAngles(m_sbRoll->value(), m_sbPitch->value(), m_sbYaw->value())
: HECEulerAngles::fromDegrees(m_sbRoll->value(), m_sbPitch->value(), m_sbYaw->value());
const HECEulerOrder order = static_cast<HECEulerOrder>(m_cbEulerOrder->currentData().toInt());
HECRotationMatrix rotation;
m_calib->EulerToRotationMatrix(srcAngles, order, rotation);
updateDirectionMatrixDisplay(rotation);
double rollDeg = 0.0;
double pitchDeg = 0.0;
double yawDeg = 0.0;
srcAngles.toDegrees(rollDeg, pitchDeg, yawDeg);
appendLog(QString("欧拉角 -> 方向向量,顺序: %1").arg(eulerOrderToString(order)));
appendLog(QString(" Euler(rad): Roll=%1, Pitch=%2, Yaw=%3")
.arg(srcAngles.roll, 0, 'f', 6)
.arg(srcAngles.pitch, 0, 'f', 6)
.arg(srcAngles.yaw, 0, 'f', 6));
appendLog(QString(" Euler(deg): Roll=%1°, Pitch=%2°, Yaw=%3°")
.arg(rollDeg, 0, 'f', 3)
.arg(pitchDeg, 0, 'f', 3)
.arg(yawDeg, 0, 'f', 3));
appendLog(QString(" X轴方向: [%1, %2, %3]")
.arg(rotation.at(0, 0), 0, 'f', 6)
.arg(rotation.at(1, 0), 0, 'f', 6)
.arg(rotation.at(2, 0), 0, 'f', 6));
appendLog(QString(" Y轴方向: [%1, %2, %3]")
.arg(rotation.at(0, 1), 0, 'f', 6)
.arg(rotation.at(1, 1), 0, 'f', 6)
.arg(rotation.at(2, 1), 0, 'f', 6));
appendLog(QString(" Z轴方向: [%1, %2, %3]")
.arg(rotation.at(0, 2), 0, 'f', 6)
.arg(rotation.at(1, 2), 0, 'f', 6)
.arg(rotation.at(2, 2), 0, 'f', 6));
updateStatusBar("欧拉角转方向向量完成");
}
void CalibViewMainWindow::onDirectionMatrixToEuler()
{
if (!m_calib) {
QMessageBox::critical(this, "错误", "标定实例未初始化");
return;
}
HECRotationMatrix rotation;
if (!tryGetDirectionMatrixInput(rotation)) {
return;
}
updateDirectionMatrixDisplay(rotation);
const bool isRadian = (m_cbAngleUnit->currentData().toInt() == 1);
const HECEulerOrder order = static_cast<HECEulerOrder>(m_cbEulerOrder->currentData().toInt());
HECEulerAngles angles;
m_calib->RotationMatrixToEuler(rotation, order, angles);
if (isRadian) {
m_sbRoll->setValue(angles.roll);
m_sbPitch->setValue(angles.pitch);
m_sbYaw->setValue(angles.yaw);
} else {
double rollDeg = 0.0;
double pitchDeg = 0.0;
double yawDeg = 0.0;
angles.toDegrees(rollDeg, pitchDeg, yawDeg);
m_sbRoll->setValue(rollDeg);
m_sbPitch->setValue(pitchDeg);
m_sbYaw->setValue(yawDeg);
}
double rollDeg = 0.0;
double pitchDeg = 0.0;
double yawDeg = 0.0;
angles.toDegrees(rollDeg, pitchDeg, yawDeg);
appendLog(QString("方向向量 -> 欧拉角,顺序: %1").arg(eulerOrderToString(order)));
appendLog(QString(" X轴方向: [%1, %2, %3]")
.arg(rotation.at(0, 0), 0, 'f', 6)
.arg(rotation.at(1, 0), 0, 'f', 6)
.arg(rotation.at(2, 0), 0, 'f', 6));
appendLog(QString(" Y轴方向: [%1, %2, %3]")
.arg(rotation.at(0, 1), 0, 'f', 6)
.arg(rotation.at(1, 1), 0, 'f', 6)
.arg(rotation.at(2, 1), 0, 'f', 6));
appendLog(QString(" Z轴方向: [%1, %2, %3]")
.arg(rotation.at(0, 2), 0, 'f', 6)
.arg(rotation.at(1, 2), 0, 'f', 6)
.arg(rotation.at(2, 2), 0, 'f', 6));
appendLog(QString(" Euler(rad): Roll=%1, Pitch=%2, Yaw=%3")
.arg(angles.roll, 0, 'f', 6)
.arg(angles.pitch, 0, 'f', 6)
.arg(angles.yaw, 0, 'f', 6));
appendLog(QString(" Euler(deg): Roll=%1°, Pitch=%2°, Yaw=%3°")
.arg(rollDeg, 0, 'f', 3)
.arg(pitchDeg, 0, 'f', 3)
.arg(yawDeg, 0, 'f', 3));
updateStatusBar("方向向量转欧拉角完成");
}
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void CalibViewMainWindow::onTransformTest()
{
if (!m_calib) {
QMessageBox::critical(this, "错误", "标定实例未初始化");
return;
}
if (!m_hasResult) {
QMessageBox::warning(this, "警告", "请先执行标定或加载标定结果");
return;
}
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// 源位置
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HECPoint3D srcPoint(
m_sbTransformX->value(),
m_sbTransformY->value(),
m_sbTransformZ->value()
);
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// 获取角度单位0=度1=弧度)
bool isRadian = (m_cbAngleUnit->currentData().toInt() == 1);
// 源姿态
HECEulerAngles srcAngles;
if (isRadian) {
// 弧度直接使用
srcAngles = HECEulerAngles(
m_sbRoll->value(),
m_sbPitch->value(),
m_sbYaw->value()
);
} else {
// 角度转弧度
srcAngles = HECEulerAngles::fromDegrees(
m_sbRoll->value(),
m_sbPitch->value(),
m_sbYaw->value()
);
}
HECEulerOrder order = static_cast<HECEulerOrder>(m_cbEulerOrder->currentData().toInt());
// 欧拉角 -> 旋转矩阵
HECRotationMatrix R_src;
m_calib->EulerToRotationMatrix(srcAngles, order, R_src);
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updateDirectionMatrixDisplay(R_src);
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// 变换位置
HECPoint3D dstPoint;
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m_calib->TransformPoint(m_currentResult.R, m_currentResult.T, srcPoint, dstPoint);
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// 变换姿态R_dst = R_calib * R_src
HECRotationMatrix R_dst = m_currentResult.R * R_src;
// 旋转矩阵 -> 欧拉角
HECEulerAngles dstAngles;
m_calib->RotationMatrixToEuler(R_dst, order, dstAngles);
// 输出日志
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appendLog(QString("坐标变换结果:"));
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appendLog(QString(" 源位置: (%1, %2, %3)")
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.arg(srcPoint.x, 0, 'f', 3)
.arg(srcPoint.y, 0, 'f', 3)
.arg(srcPoint.z, 0, 'f', 3));
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if (isRadian) {
appendLog(QString(" 源姿态: Roll=%1rad, Pitch=%2rad, Yaw=%3rad")
.arg(m_sbRoll->value(), 0, 'f', 6)
.arg(m_sbPitch->value(), 0, 'f', 6)
.arg(m_sbYaw->value(), 0, 'f', 6));
} else {
appendLog(QString(" 源姿态: Roll=%1°, Pitch=%2°, Yaw=%3°")
.arg(m_sbRoll->value(), 0, 'f', 2)
.arg(m_sbPitch->value(), 0, 'f', 2)
.arg(m_sbYaw->value(), 0, 'f', 2));
}
appendLog(QString(" 目标位置: (%1, %2, %3)")
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.arg(dstPoint.x, 0, 'f', 3)
.arg(dstPoint.y, 0, 'f', 3)
.arg(dstPoint.z, 0, 'f', 3));
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// 目标姿态:同时输出弧度和角度
double dstRoll, dstPitch, dstYaw;
dstAngles.toDegrees(dstRoll, dstPitch, dstYaw);
appendLog(QString(" 目标姿态(弧度): Roll=%1rad, Pitch=%2rad, Yaw=%3rad")
.arg(dstAngles.roll, 0, 'f', 6)
.arg(dstAngles.pitch, 0, 'f', 6)
.arg(dstAngles.yaw, 0, 'f', 6));
appendLog(QString(" 目标姿态(角度): Roll=%1°, Pitch=%2°, Yaw=%3°")
.arg(dstRoll, 0, 'f', 2)
.arg(dstPitch, 0, 'f', 2)
.arg(dstYaw, 0, 'f', 2));
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updateStatusBar("坐标变换完成");
}
void CalibViewMainWindow::onClearAll()
{
m_dataWidget->clearAll();
m_resultWidget->clearAll();
m_logEdit->clear();
m_sbTransformX->setValue(0);
m_sbTransformY->setValue(0);
m_sbTransformZ->setValue(0);
m_sbRoll->setValue(0);
m_sbPitch->setValue(0);
m_sbYaw->setValue(0);
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updateDirectionMatrixDisplay(HECRotationMatrix());
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m_hasResult = false;
updateStatusBar("已清除所有数据");
}
void CalibViewMainWindow::onSaveResult()
{
if (!m_hasResult) {
QMessageBox::warning(this, "警告", "没有可保存的标定结果");
return;
}
QString defaultName = QString("CalibResult_%1.ini")
.arg(QDateTime::currentDateTime().toString("yyyyMMdd_HHmmss"));
QString fileName = QFileDialog::getSaveFileName(this,
"保存标定结果", defaultName, "INI文件 (*.ini)");
if (fileName.isEmpty()) {
return;
}
QSettings ini(fileName, QSettings::IniFormat);
ini.setIniCodec("UTF-8");
// [CommInfo]
ini.beginGroup("CommInfo");
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ini.setValue("nMaxMaxMatrixNum", 8);
ini.setValue("nExistMatrixNum", 1);
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ini.endGroup();
// [CalibMatrixInfo_0] - 4x4 齐次矩阵
ini.beginGroup("CalibMatrixInfo_0");
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ini.setValue("sCalibTime", QDateTime::currentDateTime().toString("yyyy-MM-dd-HH-mm-ss"));
ini.setValue("nCalibPosIdx", 0);
ini.setValue("nCalibType", 0);
ini.setValue("nCalibMode", 0);
ini.setValue("sCalibPosName", 0);
ini.setValue("dError", m_currentResult.error);
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// 第0行: R[0,0] R[0,1] R[0,2] Tx
ini.setValue("dCalibMatrix_0", m_currentResult.R.data[0]);
ini.setValue("dCalibMatrix_1", m_currentResult.R.data[1]);
ini.setValue("dCalibMatrix_2", m_currentResult.R.data[2]);
ini.setValue("dCalibMatrix_3", m_currentResult.T.data[0]);
// 第1行: R[1,0] R[1,1] R[1,2] Ty
ini.setValue("dCalibMatrix_4", m_currentResult.R.data[3]);
ini.setValue("dCalibMatrix_5", m_currentResult.R.data[4]);
ini.setValue("dCalibMatrix_6", m_currentResult.R.data[5]);
ini.setValue("dCalibMatrix_7", m_currentResult.T.data[1]);
// 第2行: R[2,0] R[2,1] R[2,2] Tz
ini.setValue("dCalibMatrix_8", m_currentResult.R.data[6]);
ini.setValue("dCalibMatrix_9", m_currentResult.R.data[7]);
ini.setValue("dCalibMatrix_10", m_currentResult.R.data[8]);
ini.setValue("dCalibMatrix_11", m_currentResult.T.data[2]);
// 第3行: 0 0 0 1
ini.setValue("dCalibMatrix_12", 0.0);
ini.setValue("dCalibMatrix_13", 0.0);
ini.setValue("dCalibMatrix_14", 0.0);
ini.setValue("dCalibMatrix_15", 1.0);
ini.endGroup();
appendLog(QString("结果已保存到: %1").arg(fileName));
updateStatusBar("结果已保存");
}
void CalibViewMainWindow::onLoadResult()
{
QString fileName = QFileDialog::getOpenFileName(this,
"加载标定结果", "", "INI文件 (*.ini)");
if (fileName.isEmpty()) {
return;
}
QSettings ini(fileName, QSettings::IniFormat);
ini.setIniCodec("UTF-8");
// 校验是否包含标定矩阵
ini.beginGroup("CalibMatrixInfo_0");
bool hasMatrix = ini.contains("dCalibMatrix_0");
if (!hasMatrix) {
ini.endGroup();
QMessageBox::warning(this, "警告", "该文件不包含有效的标定结果");
return;
}
// 加载 4x4 齐次矩阵 → 拆分为 R[3x3] + T[3x1]
// 第0行
m_currentResult.R.data[0] = ini.value("dCalibMatrix_0", 0).toDouble();
m_currentResult.R.data[1] = ini.value("dCalibMatrix_1", 0).toDouble();
m_currentResult.R.data[2] = ini.value("dCalibMatrix_2", 0).toDouble();
m_currentResult.T.data[0] = ini.value("dCalibMatrix_3", 0).toDouble();
// 第1行
m_currentResult.R.data[3] = ini.value("dCalibMatrix_4", 0).toDouble();
m_currentResult.R.data[4] = ini.value("dCalibMatrix_5", 0).toDouble();
m_currentResult.R.data[5] = ini.value("dCalibMatrix_6", 0).toDouble();
m_currentResult.T.data[1] = ini.value("dCalibMatrix_7", 0).toDouble();
// 第2行
m_currentResult.R.data[6] = ini.value("dCalibMatrix_8", 0).toDouble();
m_currentResult.R.data[7] = ini.value("dCalibMatrix_9", 0).toDouble();
m_currentResult.R.data[8] = ini.value("dCalibMatrix_10", 0).toDouble();
m_currentResult.T.data[2] = ini.value("dCalibMatrix_11", 0).toDouble();
ini.endGroup();
// 加载误差
ini.beginGroup("CommInfo");
m_currentResult.error = ini.value("dError", 0).toDouble();
ini.endGroup();
// 加载质心
ini.beginGroup("CenterInfo");
m_currentResult.centerEye.x = ini.value("dCenterEyeX", 0).toDouble();
m_currentResult.centerEye.y = ini.value("dCenterEyeY", 0).toDouble();
m_currentResult.centerEye.z = ini.value("dCenterEyeZ", 0).toDouble();
m_currentResult.centerRobot.x = ini.value("dCenterRobotX", 0).toDouble();
m_currentResult.centerRobot.y = ini.value("dCenterRobotY", 0).toDouble();
m_currentResult.centerRobot.z = ini.value("dCenterRobotZ", 0).toDouble();
ini.endGroup();
m_hasResult = true;
m_resultWidget->showCalibResult(m_currentResult);
appendLog(QString("已加载标定结果: %1").arg(fileName));
updateStatusBar("标定结果已加载");
}
void CalibViewMainWindow::onOpenRobotView()
{
if (!m_robotView) {
m_robotView = new MainWindow(this);
connect(m_robotView, &MainWindow::tcpPoseUpdated,
this, &CalibViewMainWindow::onRobotTcpPoseReceived);
}
m_robotView->show();
m_robotView->raise();
m_robotView->activateWindow();
}
void CalibViewMainWindow::onRobotTcpPoseReceived(
double x, double y, double z, double rx, double ry, double rz)
{
m_dataWidget->setRobotInput(x, y, z, rx, ry, rz);
appendLog(QString("收到机器人数据: (%1, %2, %3, %4, %5, %6)")
.arg(x, 0, 'f', 2).arg(y, 0, 'f', 2).arg(z, 0, 'f', 2)
.arg(rx, 0, 'f', 2).arg(ry, 0, 'f', 2).arg(rz, 0, 'f', 2));
}
void CalibViewMainWindow::onOpenVrEyeView()
{
if (!m_vrEyeView) {
m_vrEyeView = new VrEyeViewWidget(); // 不设置父窗口,独立窗口
// 连接信号槽
connect(m_vrEyeView, &VrEyeViewWidget::chessboardDetected,
this, [this](const ChessboardDetectionData& data) {
if (data.detected) {
onChessboardDetected(data.x, data.y, data.z, data.rx, data.ry, data.rz);
}
});
// 设置为独立窗口
m_vrEyeView->setWindowFlags(Qt::Window);
m_vrEyeView->resize(900, 700);
m_vrEyeView->setWindowTitle("相机标定板检测 - VrEyeView");
}
m_vrEyeView->show();
m_vrEyeView->raise();
m_vrEyeView->activateWindow();
}
void CalibViewMainWindow::onChessboardDetected(
double x, double y, double z, double rx, double ry, double rz)
{
// 将标定板检测结果作为相机坐标输入到数据控件
m_dataWidget->setCameraInput(x, y, z, rx, ry, rz);
appendLog(QString("收到标定板检测数据: 位置(%1, %2, %3) 姿态(%4°, %5°, %6°)")
.arg(x, 0, 'f', 2).arg(y, 0, 'f', 2).arg(z, 0, 'f', 2)
.arg(rx, 0, 'f', 2).arg(ry, 0, 'f', 2).arg(rz, 0, 'f', 2));
}
void CalibViewMainWindow::onSaveCalibData()
{
// 根据当前模式生成默认文件名
static const char* typeNames[] = { "EyeToHand", "EyeInHand", "TCP" };
int typeIndex = m_dataWidget->getCalibTypeIndex();
QString typeName = typeNames[typeIndex];
QString defaultName = QString("CalibData_%1_%2.ini")
.arg(typeName)
.arg(QDateTime::currentDateTime().toString("yyyyMMdd_HHmmss"));
QString fileName = QFileDialog::getSaveFileName(this,
"保存标定数据", defaultName, "INI文件 (*.ini)");
if (fileName.isEmpty()) {
return;
}
m_dataWidget->saveCalibData(fileName);
appendLog(QString("标定数据已保存到: %1").arg(fileName));
updateStatusBar("标定数据已保存");
}
void CalibViewMainWindow::onLoadCalibData()
{
QString fileName = QFileDialog::getOpenFileName(this,
"加载标定数据", "", "INI文件 (*.ini)");
if (fileName.isEmpty()) {
return;
}
// 校验文件是否包含标定数据
QSettings check(fileName, QSettings::IniFormat);
check.beginGroup("CommInfo");
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int calibType = parseCalibType(check.value("eCalibType"));
if (calibType < 0) {
calibType = check.value("eCalibTypeIndex", -1).toInt();
}
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QString saveTime = check.value("sCalibTime").toString();
check.endGroup();
if (calibType < 0 || calibType > 2) {
QMessageBox::warning(this, "警告", "该文件不包含有效的标定数据");
return;
}
m_dataWidget->loadCalibData(fileName);
static const char* typeNames[] = { "EyeToHand", "EyeInHand", "TCP" };
appendLog(QString("已加载标定数据: %1 (保存时间: %2, 模式: %3)")
.arg(fileName).arg(saveTime).arg(typeNames[calibType]));
updateStatusBar("标定数据已加载");
}
void CalibViewMainWindow::onOpenBatchVerify()
{
// 创建标定板检测器实例
IChessboardDetector* detector = CreateChessboardDetectorInstance();
if (!detector) {
QMessageBox::critical(this, "错误", "无法创建标定板检测器实例");
return;
}
// 创建批量验证对话框
BatchVerifyDialog* dialog = new BatchVerifyDialog(detector, m_calib, this);
dialog->setAttribute(Qt::WA_DeleteOnClose);
dialog->show();
appendLog("打开批量验证工具");
}