2025-05-09 09:28:39 +00:00
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#include <iostream>
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#include <limits>
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2025-03-12 09:29:52 +00:00
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#include "global.h"
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2025-04-14 09:11:01 +00:00
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namespace Global {
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2025-05-22 09:31:38 +00:00
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Mode _mode = Mode::Analysis;
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2025-04-14 09:11:01 +00:00
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2025-06-06 09:17:31 +00:00
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AxisMode _axisMode = AxisMode::SingleY;
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2025-04-15 08:03:00 +00:00
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QVector<CurveFileData> _curveFileDataVtr;
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2025-04-23 07:33:39 +00:00
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int _currentPhase = 0;
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2025-04-15 08:03:00 +00:00
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ExperimentInfo _experimentInfo;
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QVector<CurveExperimentData> _curveExperimentDataVtr;
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2025-04-23 07:33:39 +00:00
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CurveExperimentData* _currentCurveExperimentDataPtr = nullptr;
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2025-04-18 09:30:35 +00:00
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2025-06-06 09:17:31 +00:00
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bool _smoothnessFlag = false;
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QVector<CurveExperimentData> _curveSmoothnessDataVtr;
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QString _smoothnessFileName;
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2025-04-18 09:30:35 +00:00
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bool _enthalpyCoefficientEnableFlag = false;
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QVector<double> _enthalpyCoefficientVtr;
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2025-04-29 09:29:14 +00:00
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2025-04-30 02:59:08 +00:00
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bool _displayTimeValue = false;
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2025-05-26 06:32:01 +00:00
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LanguageType _languageType = LanguageType::Chinese;
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2025-06-18 09:28:38 +00:00
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bool _experimentOITFlag = false;
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2025-04-29 09:29:14 +00:00
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QString converDoubleToStr(const double num)
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{
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return QString::number(num,'f',3);
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}
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2025-05-09 09:28:39 +00:00
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void quadraticLeastSquaresFit(double x[], double y[], int n, double coeff[])
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{
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if (n < 3) {
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throw std::invalid_argument("At least 3 data points are required for quadratic fitting");
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}
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double sum_x = 0, sum_x2 = 0, sum_x3 = 0, sum_x4 = 0;
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double sum_y = 0, sum_xy = 0, sum_x2y = 0;
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// 计算各项累加和
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for (int i = 0; i < n; ++i) {
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double xi = x[i];
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double xi2 = xi * xi;
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double xi3 = xi2 * xi;
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double xi4 = xi3 * xi;
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double yi = y[i];
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sum_x += xi;
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sum_x2 += xi2;
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sum_x3 += xi3;
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sum_x4 += xi4;
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sum_y += yi;
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sum_xy += xi * yi;
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sum_x2y += xi2 * yi;
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}
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// 构建正规方程组的增广矩阵
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double matrix[3][4] = {
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{sum_x4, sum_x3, sum_x2, sum_x2y}, // 对应方程: a*Σx⁴ + b*Σx³ + c*Σx² = Σx²y
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{sum_x3, sum_x2, sum_x, sum_xy}, // 对应方程: a*Σx³ + b*Σx² + c*Σx = Σxy
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{sum_x2, sum_x, static_cast<double>(n), sum_y} // 对应方程: a*Σx² + b*Σx + c*n = Σy
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};
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// 高斯消元法解方程组
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for (int i = 0; i < 3; ++i) {
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// 部分主元选择
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int maxRow = i;
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for (int k = i + 1; k < 3; ++k) {
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if (std::abs(matrix[k][i]) > std::abs(matrix[maxRow][i])) {
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maxRow = k;
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}
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}
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// 交换行
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for (int k = i; k < 4; ++k) {
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std::swap(matrix[i][k], matrix[maxRow][k]);
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}
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// 消元
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for (int k = i + 1; k < 3; ++k) {
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double factor = matrix[k][i] / matrix[i][i];
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for (int j = i; j < 4; ++j) {
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matrix[k][j] -= factor * matrix[i][j];
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}
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}
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}
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// 回代求解
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coeff[2] = matrix[2][3] / matrix[2][2]; // c
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coeff[1] = (matrix[1][3] - matrix[1][2] * coeff[2]) / matrix[1][1]; // b
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coeff[0] = (matrix[0][3] - matrix[0][2] * coeff[2] - matrix[0][1] * coeff[1]) / matrix[0][0]; // a
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}
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// 计算一元一次函数在给定区间内开始变成负值的点
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double findNegativeStartPoint(double m, double b, double start, double end) {
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// 处理斜率为零的情况
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if (m == 0) {
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// 当斜率为 0 时,函数值为常数 b
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if (b < 0) {
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return start; // 若 b 为负,函数在区间起始点就为负
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} else {
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return std::numeric_limits<double>::infinity(); // 若 b 非负,函数在区间内不会变负
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}
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}
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// 计算零点
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double zeroPoint = -b / m;
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// 检查零点是否在给定区间内
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if (zeroPoint >= start && zeroPoint <= end) {
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return zeroPoint; // 零点在区间内,函数在此点开始变负
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}
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// 根据斜率正负判断函数单调性,进而判断函数在区间内是否会变负
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if (m > 0) {
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// 斜率大于 0,函数单调递增
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if (m * start + b < 0) {
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return start; // 起始点函数值为负,函数在起始点就为负
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}
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} else {
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// 斜率小于 0,函数单调递减
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if (m * end + b < 0) {
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return end; // 结束点函数值为负,函数在结束点开始为负
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}
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}
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// 函数在区间内不会变负
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return std::numeric_limits<double>::infinity();
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}
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2025-05-15 09:31:03 +00:00
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void clearExperimentData()
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{
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_curveExperimentDataVtr.clear();
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_currentCurveExperimentDataPtr = nullptr;
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2025-05-16 09:01:40 +00:00
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_currentPhase = -1;
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2025-05-15 09:31:03 +00:00
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}
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2025-05-23 05:52:14 +00:00
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bool isZero(double value, double epsilon) {
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return std::abs(value) < epsilon;
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}
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2025-06-16 09:25:41 +00:00
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QString getFileName(const QString filePath)
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{
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QFileInfo fileInfo(filePath);
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// 获取文件的后缀名并转换为小写,方便比较
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QString fileSuffix = fileInfo.suffix().toLower();
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return fileInfo.fileName();
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}
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2025-04-14 09:11:01 +00:00
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}
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#if 0
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2025-03-12 09:29:52 +00:00
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Global::Global()
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{
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2025-03-13 09:27:31 +00:00
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_mode = Global::Mode::Analysis;
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_deviceConnectStatus = Global::DeviceConnectionStatus::Disconnected;
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2025-03-12 09:29:52 +00:00
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}
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Global *Global::instance()
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{
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static Global ins;
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return &ins;
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}
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void Global::setMode(const Global::Mode mode)
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{
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if(mode != _mode){
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_mode = mode;
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emit sigModeModify(mode);
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}
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}
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2025-03-13 09:27:31 +00:00
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#if 0
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void Global::setDeviceConnectionStatus(const Global::DeviceConnectionStatus status)
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{
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if(status != _deviceConnectStatus){
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_deviceConnectStatus = status;
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emit sigDeviceConnnectionStatusModify(status);
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}
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}
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#endif
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2025-04-14 09:11:01 +00:00
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#endif
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