// BQ_workpieceCornerExtract_test.cpp : 此文件包含 "main" 函数。程序执行将在此处开始并结束。 // #include #include #include #include #include #include "direct.h" #include #include "BQ_assemblyPosition_Export.h" #include #include #include typedef struct { int r; int g; int b; }SG_color; typedef struct { int nPointIdx; double x; double y; double z; float r; float g; float b; } SPointXYZRGB; void vzReadLaserScanPointFromFile_XYZ_vector(const char* fileName, std::vector>& scanData) { std::ifstream inputFile(fileName); std::string linedata; if (inputFile.is_open() == false) return; std::vector< SVzNL3DPosition> a_line; int ptIdx = 0; while (getline(inputFile, linedata)) { if (0 == strncmp("Line_", linedata.c_str(), 5)) { int ptSize = (int)a_line.size(); if (ptSize > 0) { scanData.push_back(a_line); } a_line.clear(); ptIdx = 0; } else if (0 == strncmp("{", linedata.c_str(), 1)) { float X, Y, Z; int imageY = 0; float leftX, leftY; float rightX, rightY; //迁移相机的XY次序和伟景相机正好相反 sscanf_s(linedata.c_str(), "{%f,%f,%f}-{%f,%f}-{%f,%f}", &Y, &X, &Z, &leftX, &leftY, &rightX, &rightY); SVzNL3DPosition a_pt; a_pt.pt3D.x = X; a_pt.pt3D.y = Y; a_pt.pt3D.z = Z; a_pt.nPointIdx = ptIdx; ptIdx++; a_line.push_back(a_pt); } } //last line int ptSize = (int)a_line.size(); if (ptSize > 0) { scanData.push_back(a_line); a_line.clear(); } inputFile.close(); return; } void wdSavePlyTxt(const char* fileName, std::vector> scanLines) { std::ofstream sw(fileName); int lineNum = scanLines.size(); for (int line = 0; line < lineNum; line++) { int nPositionCnt = scanLines[line].size(); for (int i = 0; i < nPositionCnt; i++) { SVzNL3DPoint* pt3D = &scanLines[line][i].pt3D; if (pt3D->z < 1e-4) continue; double x = (double)pt3D->x; double y = (double)pt3D->y; double z = (double)pt3D->z; sw << x << "," << y << "," << z << std::endl; } } sw.close(); } void _convertToGridData_XYZ_vector(std::vector>& scanData, double _F, std::vector>& scanData_grid) { int min_y = 100000000; int max_y = -10000000; int lineNum = scanData.size(); for (int line = 0; line < lineNum; line++) { std::vector< SVzNL3DPosition>& a_line = scanData[line]; int nPointCnt = a_line.size(); for (int i = 0; i < nPointCnt; i++) { SVzNL3DPosition* a_pt = &scanData[line][i]; if (a_pt->pt3D.z > 1e-4) { double v = _F * a_pt->pt3D.y / a_pt->pt3D.z + 2000; a_pt->nPointIdx = (int)(v + 0.5); max_y = max_y < (int)a_pt->nPointIdx ? (int)a_pt->nPointIdx : max_y; min_y = min_y > (int)a_pt->nPointIdx ? (int)a_pt->nPointIdx : min_y; } } } if (min_y == 100000000) return; int pt_counter = max_y - min_y + 1; for (int line = 0; line < lineNum; line++) { std::vector< SVzNL3DPosition> gridData; gridData.resize(pt_counter); for (int i = 0; i < pt_counter; i++) gridData[i] = { 0,{ 0.0, 0.0, 0.0} }; std::vector< SVzNL3DPosition>& a_line = scanData[line]; int nPointCnt = a_line.size(); for (int i = 0; i < nPointCnt; i++) { SVzNL3DPosition a_pt = a_line[i]; if (a_pt.pt3D.z > 1e-4) { int pt_id = a_pt.nPointIdx - min_y; gridData[pt_id] = a_pt; } } scanData_grid.push_back(gridData); } return; } void _outputScanDataFile_XYZ_vector(char* fileName, std::vector>& scanData) { std::ofstream sw(fileName); int lineNum = scanData.size(); sw << "LineNum:" << lineNum << std::endl; sw << "DataType: 0" << std::endl; sw << "ScanSpeed: 0" << std::endl; sw << "PointAdjust: 1" << std::endl; sw << "MaxTimeStamp: 0_0" << std::endl; for (int line = 0; line < lineNum; line++) { int nPositionCnt = scanData[line].size(); sw << "Line_" << line << "_0_" << nPositionCnt << std::endl; for (int i = 0; i < nPositionCnt; i++) { SVzNL3DPosition* pt3D = &scanData[line][i]; float x = (float)pt3D->pt3D.x; float y = (float)pt3D->pt3D.y; float z = (float)pt3D->pt3D.z; char str[250]; sprintf_s(str, "{ %f, %f, %f } - { 0, 0 } - { 0, 0 }", x, y, z); sw << str << std::endl; } } sw.close(); } void _getRoiData_XYZ_vector( std::vector>& scanData, std::vector>& roiData, SVzNL3DRangeD roi) { int lineNum = scanData.size(); for (int line = 0; line < lineNum; line++) { int nPositionCnt = scanData[line].size(); std::vector< SVzNL3DPosition> linePts; for (int i = 0; i < nPositionCnt; i++) { SVzNL3DPosition pt3D = scanData[line][i]; if ((pt3D.pt3D.z >= roi.zRange.min) && (pt3D.pt3D.z <= roi.zRange.max) && (pt3D.pt3D.y >= roi.yRange.min) && (pt3D.pt3D.y <= roi.yRange.max)) { linePts.push_back(pt3D); } } roiData.push_back(linePts); } } void _outputCalibPara(char* fileName, SSG_planeCalibPara calibPara) { std::ofstream sw(fileName); char dataStr[250]; //调平矩阵 sprintf_s(dataStr, 250, "%g, %g, %g", calibPara.planeCalib[0], calibPara.planeCalib[1], calibPara.planeCalib[2]); sw << dataStr << std::endl; sprintf_s(dataStr, 250, "%g, %g, %g", calibPara.planeCalib[3], calibPara.planeCalib[4], calibPara.planeCalib[5]); sw << dataStr << std::endl; sprintf_s(dataStr, 250, "%g, %g, %g", calibPara.planeCalib[6], calibPara.planeCalib[7], calibPara.planeCalib[8]); sw << dataStr << std::endl; //地面高度 sprintf_s(dataStr, 250, "%g", calibPara.planeHeight); sw << dataStr << std::endl; //反向旋转矩阵 sprintf_s(dataStr, 250, "%g, %g, %g", calibPara.invRMatrix[0], calibPara.invRMatrix[1], calibPara.invRMatrix[2]); sw << dataStr << std::endl; sprintf_s(dataStr, 250, "%g, %g, %g", calibPara.invRMatrix[3], calibPara.invRMatrix[4], calibPara.invRMatrix[5]); sw << dataStr << std::endl; sprintf_s(dataStr, 250, "%g, %g, %g", calibPara.invRMatrix[6], calibPara.invRMatrix[7], calibPara.invRMatrix[8]); sw << dataStr << std::endl; sw.close(); } void _outputPoseInfo(char* fileName, SSX_BQAssemblyInfo assemblyPose) { std::ofstream sw(fileName); char dataStr[250]; sprintf_s(dataStr, 250, " O: (%g, %g, %g)", assemblyPose.O.x, assemblyPose.O.y, assemblyPose.O.z); sw << dataStr << std::endl; sprintf_s(dataStr, 250, " X: (%g, %g, %g)", assemblyPose.X.x, assemblyPose.X.y, assemblyPose.X.z); sw << dataStr << std::endl; sprintf_s(dataStr, 250, " Y: (%g, %g, %g)", assemblyPose.Y.x, assemblyPose.Y.y, assemblyPose.Y.z); sw << dataStr << std::endl; sprintf_s(dataStr, 250, " Z: (%g, %g, %g)", assemblyPose.Z.x, assemblyPose.Z.y, assemblyPose.Z.z); sw << dataStr << std::endl; sw.close(); } SSX_BQAssemblyInfo _readPoseInfo(char* fileName) { std::ifstream inputFile(fileName); std::string linedata; SSX_BQAssemblyInfo pose; memset(&pose, 0, sizeof(SSX_BQAssemblyInfo)); if (inputFile.is_open() == false) return pose; getline(inputFile, linedata); sscanf_s(linedata.c_str(), " O: (%lf, %lf, %lf)", &pose.O.x, &pose.O.y, &pose.O.z); getline(inputFile, linedata); sscanf_s(linedata.c_str(), " X: (%lf, %lf, %lf)", &pose.X.x, &pose.X.y, &pose.X.z); getline(inputFile, linedata); sscanf_s(linedata.c_str(), " Y: (%lf, %lf, %lf)", &pose.Y.x, &pose.Y.y, &pose.Y.z); getline(inputFile, linedata); sscanf_s(linedata.c_str(), " Z: (%lf, %lf, %lf)", &pose.Z.x, &pose.Z.y, &pose.Z.z); inputFile.close(); return pose; } // 检测并跳过UTF-8 BOM头的工具函数 void skipUTF8BOM(std::ifstream& file) { // 存储BOM的3个字节（初始化为0） char bom[3] = { 0 }; // 读取文件前3个字节 file.read(bom, 3); // 检测是否是UTF-8 BOM（0xEF 0xBB 0xBF） bool isBOM = (bom[0] == (char)0xEF) && (bom[1] == (char)0xBB) && (bom[2] == (char)0xBF); // 不是BOM则将文件指针重置到开头，保证正常读取 if (!isBOM) { file.seekg(0); // 重置文件指针到起始位置 } // 是BOM则文件指针已在第4字节，无需处理 } void _readMarkData(char* fileName, std::vector& marks) { std::ifstream inputFile(fileName, std::ios::in | std::ios::binary); skipUTF8BOM(inputFile); std::string linedata; while (getline(inputFile, linedata)) { SWD_charuco3DMark a_mark; float x, y, z; sscanf_s(linedata.c_str(), "MarkID_%d: %f, %f, %f", &a_mark.markID, &x, &y, &z); a_mark.mark3D = { x, y, z }; marks.push_back(a_mark); } inputFile.close(); return; } void _outputScanDataFile_vector(char* fileName, std::vector>& scanLines, bool removeZeros, int* headNullLines) { std::ofstream sw(fileName); int lineNum = (int)scanLines.size(); if (lineNum == 0) return; sw << "LineNum:" << lineNum << std::endl; sw << "DataType: 0" << std::endl; sw << "ScanSpeed: 0" << std::endl; sw << "PointAdjust: 1" << std::endl; sw << "MaxTimeStamp: 0_0" << std::endl; int lineIdx = 0; int null_lines = 0; bool counterNull = true; for (int line = 0; line < lineNum; line++) { int linePtNum = (int)scanLines[line].size(); if (linePtNum == 0) continue; if (true == removeZeros) { int vldPtNum = 0; for (int i = 0; i < linePtNum; i++) { if (scanLines[line][i].pt3D.z > 1e-4) vldPtNum++; } linePtNum = vldPtNum; } sw << "Line_" << lineIdx << "_0_" << linePtNum << std::endl; lineIdx++; bool isNull = true; for (int i = 0; i < linePtNum; i++) { SVzNL3DPoint* pt3D = &scanLines[line][i].pt3D; if ((pt3D->z > 1e-4) && (isNull == true)) isNull = false; if ((true == removeZeros) && (pt3D->z < 1e-4)) continue; float x = (float)pt3D->x; float y = (float)pt3D->y; float z = (float)pt3D->z; sw << "{ " << x << "," << y << "," << z << " }-"; sw << "{0,0}-{0,0}" << std::endl; } if (true == counterNull) { if (true == isNull) null_lines++; else counterNull = false; } } *headNullLines = null_lines; sw.close(); } SSG_planeCalibPara _readCalibPara(char* fileName) { //设置初始结果 double initCalib[9] = { 1.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0 }; SSG_planeCalibPara planePara; for (int i = 0; i < 9; i++) planePara.planeCalib[i] = initCalib[i]; planePara.planeHeight = -1.0; for (int i = 0; i < 9; i++) planePara.invRMatrix[i] = initCalib[i]; std::ifstream inputFile(fileName); std::string linedata; if (inputFile.is_open() == false) return planePara; //调平矩阵 std::getline(inputFile, linedata); sscanf_s(linedata.c_str(), "%lf, %lf, %lf", &planePara.planeCalib[0], &planePara.planeCalib[1], &planePara.planeCalib[2]); std::getline(inputFile, linedata); sscanf_s(linedata.c_str(), "%lf, %lf, %lf", &planePara.planeCalib[3], &planePara.planeCalib[4], &planePara.planeCalib[5]); std::getline(inputFile, linedata); sscanf_s(linedata.c_str(), "%lf, %lf, %lf", &planePara.planeCalib[6], &planePara.planeCalib[7], &planePara.planeCalib[8]); //地面高度 std::getline(inputFile, linedata); sscanf_s(linedata.c_str(), "%lf", &planePara.planeHeight); //反向旋转矩阵 std::getline(inputFile, linedata); sscanf_s(linedata.c_str(), "%lf, %lf, %lf", &planePara.invRMatrix[0], &planePara.invRMatrix[1], &planePara.invRMatrix[2]); std::getline(inputFile, linedata); sscanf_s(linedata.c_str(), "%lf, %lf, %lf", &planePara.invRMatrix[3], &planePara.invRMatrix[4], &planePara.invRMatrix[5]); std::getline(inputFile, linedata); sscanf_s(linedata.c_str(), "%lf, %lf, %lf", &planePara.invRMatrix[6], &planePara.invRMatrix[7], &planePara.invRMatrix[8]); inputFile.close(); return planePara; } void _outputRGBDScanLapWeld_RGBD( char* fileName, std::vector>& scanLines, SSX_BQAssemblyInfo assemblyPose) { int lineNum = (int)scanLines.size(); std::ofstream sw(fileName); int realLines = lineNum; realLines++; sw << "LineNum:" << realLines << std::endl; sw << "DataType: 0" << std::endl; sw << "ScanSpeed: 0" << std::endl; sw << "PointAdjust: 1" << std::endl; sw << "MaxTimeStamp: 0_0" << std::endl; int maxLineIndex = 0; int max_stamp = 0; SG_color rgb = { 0, 0, 0 }; SG_color objColor[8] = { {245,222,179},//淡黄色 {210,105, 30},//巧克力色 {240,230,140},//黄褐色 {135,206,235},//天蓝色 {250,235,215},//古董白 {189,252,201},//薄荷色 {221,160,221},//梅红色 {188,143,143},//玫瑰红色 }; int size = 1; int lineIdx = 0; for (int line = 0; line < lineNum; line++) { int linePtNum = (int)scanLines[line].size(); if (linePtNum == 0) continue; sw << "Line_" << lineIdx << "_0_" << linePtNum << std::endl; lineIdx++; for (int i = 0; i < linePtNum; i++) { SVzNL3DPosition* pt3D = &scanLines[line][i]; if (pt3D->nPointIdx > 0) int kkk = 1; int featureType_v = pt3D->nPointIdx & 0xff; int featureType_h = featureType_v >> 4; featureType_v &= 0x0f; if (pt3D->nPointIdx == 1) { rgb = { 255, 97, 0 }; size = 5; } else { rgb = { 200, 200, 200 }; size = 1; } float x = (float)pt3D->pt3D.x; float y = (float)pt3D->pt3D.y; float z = (float)pt3D->pt3D.z; sw << "{" << x << "," << y << "," << z << "}-"; sw << "{0,0}-{0,0}-"; sw << "{" << rgb.r << "," << rgb.g << "," << rgb.b << "," << size << " }" << std::endl; } } int linePtNum = 1; sw << "Line_" << lineNum << "_0_" << linePtNum + 1 << std::endl; lineNum++; rgb = { 255, 0, 0 }; size = 15; float x = (float)assemblyPose.O.x; float y = (float)assemblyPose.O.y; float z = (float)assemblyPose.O.z; sw << "{" << x << "," << y << "," << z << "}-"; sw << "{0,0}-{0,0}-"; sw << "{" << rgb.r << "," << rgb.g << "," << rgb.b << "," << size << " }" << std::endl; sw.close(); } SVzNL3DPoint _pointRT(SVzNL3DPoint& origin, const double* R, const double* T) { SVzNL3DPoint result; result.x = origin.x * R[0] + origin.y * R[1] + origin.z * R[2]; result.y = origin.x * R[3] + origin.y * R[4] + origin.z * R[5]; result.z = origin.x * R[6] + origin.y * R[7] + origin.z * R[8]; result.x += T[0]; result.y += T[1]; result.z += T[2]; return result; } void _wirteVerifyResult(char* fileName, std::vector>& originMarksBuff, std::vector>& currMarksBuff, std::vector< SSX_BQAssemblyInfo>& oiginPoseBuff, std::vector< SSX_BQAssemblyInfo>& computePoseBuff, std::vector< SSX_BQAssemblyInfo>& verifyPoseBuff) { std::ofstream sw(fileName); char dataStr[250]; for (int i = 0; i < (int)originMarksBuff.size(); i++) { int markSize = (int)originMarksBuff[i].size(); sprintf_s(dataStr, 250, "origin: "); for (int j = 0; j < markSize; j++) { sprintf_s(dataStr, 250, "{ %g, %g, %g },", originMarksBuff[i][j].x, originMarksBuff[i][j].y, originMarksBuff[i][j].z); sw << dataStr; } sprintf_s(dataStr, 250, " operate: "); for (int j = 0; j < markSize; j++) { sprintf_s(dataStr, 250, "{ %g, %g, %g },", currMarksBuff[i][j].x, currMarksBuff[i][j].y, currMarksBuff[i][j].z); sw << dataStr; } sprintf_s(dataStr, 250, " oriPose: { %g, %g, %g },", oiginPoseBuff[i].O.x, oiginPoseBuff[i].O.y, oiginPoseBuff[i].O.z); sw << dataStr; sprintf_s(dataStr, 250, " verifyPose: { %g, %g, %g },", verifyPoseBuff[i].O.x, verifyPoseBuff[i].O.y, verifyPoseBuff[i].O.z); sw << dataStr; sprintf_s(dataStr, 250, " computePose: { %g, %g, %g },", computePoseBuff[i].O.x, computePoseBuff[i].O.y, computePoseBuff[i].O.z); sw << dataStr << std::endl; } sw.close(); return; } #define CONVERT_TO_GRID 0 #define TEST_COMPUTE_CALIB_PARA 0 #define TEST_COMPUTE_CORNER 0 #define TEST_COMPUTE_POSE 1 #define TEST_GROUP 3 int main() { const char* dataPath[TEST_GROUP] = { "F:/ShangGu/项目/冠钦_博清科技/组装/3D与Mark/21epic/", //0 "F:/ShangGu/项目/冠钦_博清科技/组装/3D与Mark/20vizum/", "F:/ShangGu/项目/冠钦_博清科技/组装/3D与Mark/现场_张奔_20260106/", }; SVzNLRange fileIdx[TEST_GROUP] = { {2,33},{2,33}, {1,14} }; #ifdef TEST_COMPUTE_POSE double R_3D_mark[9] = { 9.7432217968400503e-01, - 6.5983238824482409e-03, - 2.2506166332308031e-01, 6.5293199817128209e-03, 9.9997813155105764e-01, - 1.0509044828439812e-03, 2.2506367578173436e-01, - 4.4558006908867375e-04, 9.7434395533713669e-01 }; double T_3D_mark[3] = { 2.0100138599065690e+02, - 3.4778670146875356e+02, - 2.8208030634996298e+01 }; double R_mark_3D[9] = { 9.7432217968400503e-01, 6.5293199817128209e-03, 2.2506367578173436e-01, - 6.5983238824482409e-03, 9.9997813155105764e-01, - 4.4558006908867375e-04, - 2.2506166332308031e-01, - 1.0509044828439812e-03, 9.7434395533713669e-01 }; double T_mark_3D[3] = { -1.8722069479737289e+02, 3.4909279922237783e+02, 7.2356539798828123e+01 }; double R_ip21_ip20[9] = { -9.0136463861749749e-01, 1.0494706583686632e-03, - 4.3305968048444010e-01, 3.8989008937143142e-03, - 9.9993686885077060e-01, - 1.0538353037260263e-02, - 4.3304340062142632e-01, - 1.1187355552326124e-02, 9.0130364264989893e-01 }; double T_ip21_ip20[3] = { 7.4953277493063717e+02, 2.8014434657528108e+02, 1.7494775044638942e+02 }; double R_ip20_ip21[9] = { -9.0136463861749749e-01, 3.8989008937143142e-03, - 4.3304340062142632e-01, 1.0494706583686632e-03, - 9.9993686885077060e-01, - 1.1187355552326124e-02, - 4.3305968048444010e-01, - 1.0538353037260263e-02, 9.0130364264989893e-01 }; double T_ip20_ip21[3] = { 7.5027005254846563e+02, 2.8129725077327970e+02, 1.6986363929894415e+02 }; double R_3D_mark_20[9] = { -9.7565715189866242e-01, 1.0207261472102205e-02, - 2.1906376642939016e-01, - 8.0279186459975786e-03, - 9.9990905961091314e-01, - 1.0836283045053035e-02, - 2.1915445345966281e-01, - 8.8138709577232511e-03, 9.7565036832235041e-01 }; double T_3D_mark_20[3] = { 5.7984427943242531e+02, 6.3069724580763238e+02, 6.1343276694911815e+01 }; double R_mark_3D_20[9] = { -9.7565715189866242e-01, - 8.0279186459975786e-03, - 2.1915445345966281e-01, 1.0207261472102205e-02, - 9.9990905961091314e-01, - 8.8138709577232511e-03, - 2.1906376642939016e-01, - 1.0836283045053035e-02, 9.7565036832235041e-01 }; double T_mark_3D_20[3] = { 5.8423605667286893e+02, 6.2526193950634604e+02, 7.4007695164819168e+01 }; for (int grp = 2; grp <= 2; grp++) { char _scan_file[256]; std::vector> originMarksBuff; std::vector> currMarksBuff; std::vector< SSX_BQAssemblyInfo> oiginPoseBuff; std::vector< SSX_BQAssemblyInfo> computePoseBuff; std::vector< SSX_BQAssemblyInfo> verifyPoseBuff; for (int fidx = fileIdx[grp].nMin; fidx <= fileIdx[grp].nMax; fidx++) { //fidx =4; char _scan_file[256]; sprintf_s(_scan_file, "%sepic-cloud/result/LaserLine%d_corner_info.txt", dataPath[grp], fidx); SSX_BQAssemblyInfo pose_3D = _readPoseInfo(_scan_file); SSX_BQAssemblyInfo pose_3D_ip21; pose_3D_ip21.O = _pointRT(pose_3D.O, R_3D_mark, T_3D_mark); SSX_BQAssemblyInfo originPose_ip21_ip20_check; originPose_ip21_ip20_check.O = _pointRT(pose_3D_ip21.O, R_ip21_ip20, T_ip21_ip20); SSX_BQAssemblyInfo pose_3D_ip20; pose_3D_ip20.O = _pointRT(pose_3D.O, R_3D_mark_20, T_3D_mark_20); sprintf_s(_scan_file, "%smark21/marks_%d.txt", dataPath[grp], fidx); std::vector marks_origin; _readMarkData(_scan_file, marks_origin); sprintf_s(_scan_file, "%smark20/marks_%d.txt", dataPath[grp], fidx); std::vector marks_curr; _readMarkData(_scan_file, marks_curr); //配对 std::vector originMarkPos; std::vector currMarkPos; for (int i = 0; i < (int)marks_origin.size(); i++) { for (int j = 0; j < (int)marks_curr.size(); j++) { if (marks_origin[i].markID == marks_curr[j].markID) { SVzNL3DPoint pt_1 = { marks_origin[i].mark3D.x, marks_origin[i].mark3D.y, marks_origin[i].mark3D.z }; SVzNL3DPoint pt_2 = { marks_curr[j].mark3D.x, marks_curr[j].mark3D.y, marks_curr[j].mark3D.z }; originMarkPos.push_back(pt_1); currMarkPos.push_back(pt_2); } } } SSX_BQAssemblyInfo testPose_origin, testPose_verify; if (originMarkPos.size() >= 4) //同时使用最后一个作验证 { testPose_origin.O = originMarkPos.back(); testPose_verify.O = currMarkPos.back(); originMarkPos.pop_back(); currMarkPos.pop_back(); originMarksBuff.push_back(originMarkPos); currMarksBuff.push_back(currMarkPos); int errCode = 0; SSX_BQAssemblyInfo currPose = sx_BQ_computeAssemblyInfoFromMark( pose_3D_ip21, originMarkPos, currMarkPos, &errCode); SSX_BQAssemblyInfo compute_testPose = sx_BQ_computeAssemblyInfoFromMark( testPose_origin, originMarkPos, currMarkPos, &errCode); #if 0 SSX_BQAssemblyInfo checkPose; checkPose.O = _pointRT(originPose_raw.O, R_3D_mark_20, T_3D_mark_20); SSX_BQAssemblyInfo checkPose_check; checkPose_check.O = _pointRT(checkPose.O, R_mark_3D_20, T_mark_3D_20); #endif if (errCode != 0) continue; //输出 oiginPoseBuff.push_back(testPose_origin); computePoseBuff.push_back(compute_testPose); verifyPoseBuff.push_back(testPose_verify); } } sprintf_s(_scan_file, "%sresult/group_verify_data.txt", dataPath[grp]); _wirteVerifyResult(_scan_file, originMarksBuff, currMarksBuff, oiginPoseBuff, computePoseBuff, verifyPoseBuff); } #endif #if TEST_COMPUTE_CALIB_PARA char _calib_datafile[256]; sprintf_s(_calib_datafile, "F:/ShangGu/项目/冠钦_博清科技/组装/3D与Mark/21epic/调平/scan3D_0.txt"); int lineNum = 0; float lineV = 0.0f; int dataCalib = 0; int maxTimeStamp = 0; int clockPerSecond = 0; std::vector> scanData; vzReadLaserScanPointFromFile_XYZ_vector(_calib_datafile, scanData); SVzNL3DRangeD roi; roi.xRange.min = -DBL_MAX; roi.xRange.max = DBL_MAX; roi.yRange.min = -DBL_MAX; roi.yRange.max = 580.0; roi.zRange.min = 2380.0; roi.zRange.max = 2460.0; std::vector> roiData; _getRoiData_XYZ_vector(scanData, roiData, roi); lineNum = (int)scanData.size(); if (scanData.size() > 0) { SSG_planeCalibPara calibPara = sx_BQ_getHoleBaseCalibPara(scanData); //结果进行验证 for (int i = 0; i < lineNum; i++) { if (i == 14) int kkk = 1; //行处理 //调平，去除地面 sx_BQ_lineDataR(scanData[i], calibPara.planeCalib, -1); // calibPara.planeHeight); } // char calibFile[250]; sprintf_s(calibFile, "F:/ShangGu/项目/冠钦_博清科技/组装/3D与Mark/21epic/ground_calib_para.txt"); _outputCalibPara(calibFile, calibPara); char _out_file[256]; sprintf_s(_out_file, "F:/ShangGu/项目/冠钦_博清科技/组装/3D与Mark/21epic/调平/scanData_ground_calib.txt"); int headNullLines = 0; _outputScanDataFile_vector(_out_file, scanData, false, &headNullLines); printf("%s: calib done!\n", _calib_datafile); } #endif #if TEST_COMPUTE_CORNER const char* ver = wd_BQAssemblyPositionVersion(); printf("ver:%s\n", ver); for (int grp = 0; grp <= 0; grp++) { SSG_planeCalibPara poseCalibPara; //初始化成单位阵 poseCalibPara.planeCalib[0] = 1.0; poseCalibPara.planeCalib[1] = 0.0; poseCalibPara.planeCalib[2] = 0.0; poseCalibPara.planeCalib[3] = 0.0; poseCalibPara.planeCalib[4] = 1.0; poseCalibPara.planeCalib[5] = 0.0; poseCalibPara.planeCalib[6] = 0.0; poseCalibPara.planeCalib[7] = 0.0; poseCalibPara.planeCalib[8] = 1.0; poseCalibPara.planeHeight = -1.0; for (int i = 0; i < 9; i++) poseCalibPara.invRMatrix[i] = poseCalibPara.planeCalib[i]; char calibFile[250]; sprintf_s(calibFile, "%sground_calib_para.txt", dataPath[grp]); poseCalibPara = _readCalibPara(calibFile); for (int fidx = fileIdx[grp].nMin; fidx <= fileIdx[grp].nMax; fidx++) { //fidx =4; char _scan_file[256]; sprintf_s(_scan_file, "%sscan3D_%d.txt", dataPath[grp], fidx); std::vector> scanLines; vzReadLaserScanPointFromFile_XYZ_vector(_scan_file, scanLines); if (scanLines.size() == 0) continue; //转成plyTxt格式 //sprintf_s(_scan_file, "%s%d_ply_Hi229229.txt", dataPath[grp], fidx); //wdSavePlyTxt(_scan_file, scanLines); long t1 = (long)GetTickCount64();//统计时间 #if 0 char _out_file[256]; sprintf_s(_out_file, "%sscanData_%d_calib.txt", dataPath[grp], fidx); int headNullLines = 0; _outputScanDataFile_vector(_out_file, scanLines, false, &headNullLines); #endif SSG_cornerParam cornerParam; cornerParam.cornerTh = 30; //45度角 cornerParam.scale = 5; // algoParam.bagParam.bagH / 8; // 15; // algoParam.bagParam.bagH / 8; cornerParam.minEndingGap = 20; // algoParam.bagParam.bagW / 4; cornerParam.minEndingGap_z = 20; cornerParam.jumpCornerTh_1 = 10; //水平角度，小于此角度视为水平 cornerParam.jumpCornerTh_2 = 60; SSG_outlierFilterParam filterParam; filterParam.continuityTh = 20.0; //噪声滤除。当相邻点的z跳变大于此门限时，检查是否为噪声。若长度小于outlierLen，视为噪声 filterParam.outlierTh = 5; SSG_treeGrowParam growParam; growParam.maxLineSkipNum = 10; growParam.yDeviation_max = 10.0; growParam.maxSkipDistance = 10.0; growParam.zDeviation_max = 10.0;// algoParam.bagParam.bagH / 2; //袋子高度1/2 growParam.minLTypeTreeLen = 100; //mm growParam.minVTypeTreeLen = 100; //mm SSX_BQAssemblyPara workpieceParam; workpieceParam.type = 0; workpieceParam.lineLen = 160.0; //直线段长度 int errCode = 0; SSX_BQAssemblyInfo assemblyPose = sx_BQ_computeAssemblyInfoFrom3D( scanLines, cornerParam, filterParam, growParam, poseCalibPara, workpieceParam, &errCode); long t2 = (long)GetTickCount64(); printf("%s: %d(ms)!\n", _scan_file, (int)(t2 - t1)); //输出测试结果 //sprintf_s(_scan_file, "%sresult\\LaserLine%d_result.txt", dataPath[grp], fidx); //_outputRGBDScanLapWeld_RGBD(_scan_file, scanLines, assemblyPose); sprintf_s(calibFile, "%sresult\\LaserLine%d_corner_info.txt", dataPath[grp], fidx); _outputPoseInfo(calibFile, assemblyPose); } } #endif } // 运行程序: Ctrl + F5 或调试 >“开始执行(不调试)”菜单 // 调试程序: F5 或调试 >“开始调试”菜单 // 入门使用技巧: // 1. 使用解决方案资源管理器窗口添加/管理文件 // 2. 使用团队资源管理器窗口连接到源代码管理 // 3. 使用输出窗口查看生成输出和其他消息 // 4. 使用错误列表窗口查看错误 // 5. 转到“项目”>“添加新项”以创建新的代码文件，或转到“项目”>“添加现有项”以将现有代码文件添加到项目 // 6. 将来，若要再次打开此项目，请转到“文件”>“打开”>“项目”并选择 .sln 文件