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algoLib/HC_chanelSpaceMeasure_test/HC_chanelSpaceMeasure_test.cpp
jerryzeng 47e3a04bf0 HC_chanelSpaceMeasure version 1.0.0 
槽道间距检测初始版本, 包含了博清工件组装的最新修改
2026-01-05 01:19:04 +08:00

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// gasFillingPortPosition_test.cpp : 此文件包含 "main" 函数。程序执行将在此处开始并结束。
//
#include <iostream>
#include <fstream>
#include <vector>
#include <stdio.h>
#include <VZNL_Types.h>
#include "direct.h"
#include <string>
#include "channelSpaceMeasure_Export.h"
#include <opencv2/opencv.hpp>
#include <Windows.h>
#include <limits>
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 wdReadLaserScanPointFromFile_XYZ_vector(const char* fileName, std::vector<std::vector< SVzNL3DPosition>>& 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;
sscanf_s(linedata.c_str(), "{%f,%f,%f}-{%f,%f}-{%f,%f}", &X, &Y, &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 wd_gridScan_GetROIData(std::vector<std::vector< SVzNL3DPosition>>& scanData, SVzNLRangeD roi_y, std::vector<std::vector< SVzNL3DPosition>>& roiData)
{
int lineNum = (int)scanData.size();
int linePtNum = (int)scanData[0].size();
int globalPtStart = INT_MAX;
int globalPtEnd = 0;
int lineStart = INT_MAX;
int lineEnd = 0;
for (int line = 0; line < lineNum; line++)
{
std::vector< SVzNL3DPosition >& lineData = scanData[line];
int ptSize = (int)lineData.size();
int vldNum = 0;
int ptStart = INT_MAX;
int ptEnd = 0;
for (int i = 0; i < ptSize; i++)
{
if (lineData[i].pt3D.z > 1e-4)
{
if ((lineData[i].pt3D.y < roi_y.min) || (lineData[i].pt3D.y > roi_y.max))
lineData[i].pt3D = { 0.0, 0.0, 0.0 };
}
if (lineData[i].pt3D.z > 1e-4)
{
if (ptStart > i)
ptStart = i;
ptEnd = i;
vldNum++;
}
}
if (vldNum > 0)
{
if (globalPtStart > ptStart)
globalPtStart = ptStart;
if (globalPtEnd < ptEnd)
globalPtEnd = ptEnd;
if (lineStart > line)
lineStart = line;
lineEnd = line;
}
}
int vldLineNum = lineEnd - lineStart + 1;
int vldPtNum = globalPtEnd - globalPtStart + 1;
roiData.resize(vldLineNum);
for (int line = 0; line < vldLineNum; line++)
{
roiData[line].resize(vldPtNum);
for (int i = 0; i < vldPtNum; i++)
roiData[line][i] = scanData[line + lineStart][i + globalPtStart];
}
return;
}
void _outputScanDataFile(char* fileName, std::vector<std::vector< SVzNL3DPosition>>& scanData,
float lineV, int maxTimeStamp, int clockPerSecond)
{
std::ofstream sw(fileName);
int lineNum = (int)scanData.size();
sw << "LineNum:" << lineNum << std::endl;
sw << "DataType: 0" << std::endl;
sw << "ScanSpeed:" << lineV << std::endl;
sw << "PointAdjust: 1" << std::endl;
sw << "MaxTimeStamp:" << maxTimeStamp << "_" << clockPerSecond << std::endl;
for (int line = 0; line < lineNum; line++)
{
int nPositionCnt = (int)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;
sw << "{ " << x << "," << y << "," << z << " }-";
sw << "{0,0}-{0,0}" << std::endl;
}
}
sw.close();
}
void _outputChanneltInfo(char* fileName, SSX_channelInfo channelInfo)
{
std::ofstream sw(fileName);
char dataStr[250];
sprintf_s(dataStr, 250, "槽道间距: %g", channelInfo.channelSpace);
sw << dataStr << std::endl;
sprintf_s(dataStr, 250, "槽道1: 宽_%g, 深_%g", channelInfo.channelWidth[0], channelInfo.channelDepth[0]);
sw << dataStr << std::endl;
sprintf_s(dataStr, 250, "槽道2: 宽_%g, 深_%g", channelInfo.channelWidth[1], channelInfo.channelDepth[1]);
sw << dataStr << std::endl;
sw.close();
}
void _outputRGBDScan_RGBD(
char* fileName,
std::vector<std::vector<SVzNL3DPosition>>& scanLines
)
{
int lineNum = (int)scanLines.size();
std::ofstream sw(fileName);
int realLines = lineNum;
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)
{
rgb = objColor[pt3D->nPointIdx];
size = 3;
}
else //if (pt3D->nPointIdx == 0)
{
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;
}
}
sw.close();
}
#define TEST_GET_ROI_DATA 0
#define TEST_COMPUTE_SPACE 1
#define TEST_GROUP 1
int main()
{
const char* dataPath[TEST_GROUP] = {
"F:/ShangGu/项目/水木宏创/槽道间距测量/模拟数据/", //0
};
SVzNLRange fileIdx[TEST_GROUP] = {
{1,9},
};
const char* ver = wd_ChannelSPaceMeasureVersion();
printf("ver:%s\n", ver);
#if TEST_GET_ROI_DATA
for (int grp = 0; grp < TEST_GROUP; grp++)
{
SVzNLRangeD roi_y[10] = {
{0, 0},
{-405.0, 510.0}, {-302.0,640.0}, {-290.0, 640.0},
{-290.0, 670.0}, {-290.0, 640.0}, {-305.0, 660.0},
{-296.0, 510.0}, {-300.0, 500.0}, {-330.0, 510.0}
};
for (int fidx = 1; fidx <= 9; fidx++)
{
char _scan_file[256];
sprintf_s(_scan_file, "%sLaserData_%d.txt", dataPath[grp], fidx);
std::vector<std::vector< SVzNL3DPosition>> scanData;
wdReadLaserScanPointFromFile_XYZ_vector(_scan_file, scanData);
std::vector<std::vector< SVzNL3DPosition>> scanROIData;
wd_gridScan_GetROIData(scanData, roi_y[fidx], scanROIData);
sprintf_s(_scan_file, "%sLaserData_%d_obj.txt", dataPath[grp], fidx);
_outputScanDataFile(_scan_file, scanROIData, 0, 0, 0);
}
}
#endif
#if TEST_COMPUTE_SPACE
for (int grp = 0; grp < TEST_GROUP; grp++)
{
for (int fidx = fileIdx[grp].nMin; fidx <= fileIdx[grp].nMax; fidx++)
{
//fidx =7;
char _scan_file[256];
sprintf_s(_scan_file, "%sLaserData_%d_obj.txt", dataPath[grp], fidx);
std::vector<std::vector< SVzNL3DPosition>> scanLines;
wdReadLaserScanPointFromFile_XYZ_vector(_scan_file, scanLines);
//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
SSG_cornerParam cornerParam;
cornerParam.cornerTh = 45; //45度角
cornerParam.scale = 15; // algoParam.bagParam.bagH / 8; // 15; // algoParam.bagParam.bagH / 8;
cornerParam.minEndingGap = 20; // algoParam.bagParam.bagW / 4;
cornerParam.minEndingGap_z = 50;
cornerParam.jumpCornerTh_1 = 15; //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 = 20.0;
growParam.maxSkipDistance = 20.0;
growParam.zDeviation_max = 50.0;//
growParam.minLTypeTreeLen = 100; //mm
growParam.minVTypeTreeLen = 100; //mm
SSX_channelParam channelParam;
channelParam.channleSpaceRng = { 300, 800 };
channelParam.channelWidthRng = { 5,30 };
bool isHorizonScan = true; //true:激光线平行槽道false:激光线垂直槽道
int errCode = 0;
SSX_channelInfo channelInfo = sx_channelSpaceMeasure(
scanLines,
isHorizonScan, //true:激光线平行槽道false:激光线垂直槽道
cornerParam,
filterParam,
growParam,
channelParam,
&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\\%d_result.txt", dataPath[grp], fidx);
_outputRGBDScan_RGBD(_scan_file, scanLines);
sprintf_s(_scan_file, "%sresult\\%d_fillingPort_info.txt", dataPath[grp], fidx);
_outputChanneltInfo(_scan_file, channelInfo);
}
}
#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
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