OpenCV_Code_LOG

孔洞填充

void fillHole(const Mat srcBw, Mat &dstBw)
{Size m_Size = srcBw.size();Mat Temp=Mat::zeros(m_Size.height+2,m_Size.width+2,srcBw.type());//延展图像srcBw.copyTo(Temp(Range(1, m_Size.height + 1), Range(1, m_Size.width + 1)));cv::floodFill(Temp, Point(0, 0), Scalar(255,255,255));Mat cutImg;//裁剪延展的图像Temp(Range(1, m_Size.height + 1), Range(1, m_Size.width + 1)).copyTo(cutImg);dstBw = srcBw | (~cutImg);
}

fillHole(ThrImg, ThrImg);

https://blog.csdn.net/wangyaninglm/article/details/47701047?utm_medium=distribute.pc_relevant.none-task-blog-2~default~baidujs_baidulandingword~default-0-47701047-blog-128034901.235^v43^pc_blog_bottom_relevance_base5&spm=1001.2101.3001.4242.1&utm_relevant_index=3

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转换

16位转8位

cvtColor(OpenImage,OpenImage,COLOR_BGR2GRAY);

字符串转换

std::to_string(i)

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 //生成随机颜色，用于区分不同连通域RNG rng(10086);Mat out;int number=connectedComponents(OpenImage,out,8,CV_16U);//统计图像连通域的个数vector<Vec3b>colors;for(int i=0;i<number;++i){//使用均匀分布的随机确定颜色Vec3b vec3=Vec3b(rng.uniform(0,256),rng.uniform(0,256),rng.uniform(0,256));colors.push_back(vec3);}//以不同颜色标记出不同的连通域Mat result=Mat::zeros(OpenImage.size(),SrcImage_1.type());int w=result.cols;int h=result.rows;for(int row=0;row<h;++row){for(int col=0;col<w;++col){int label=out.at<uint16_t>(row,col);if(label==0){//背景的黑色不改变continue;}result.at<Vec3b>(row,col)=colors[label];}}imshow("标记后的图像",result);

https://blog.csdn.net/qq_33287871/article/details/112691790

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图像混合：

float alpha=0.5; Mat MixImage;
addWeighted(ConnectImg, alpha, SrcImage_1, 1 - alpha, 0, MixImage);

中值滤波(去二值化图像毛刺)：

medianBlur(ConnectImg,ConnectImg,9);

https://ask.csdn.net/questions/375741

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霍夫直线检测

//1、边缘检测
Canny(ConnectImg, CanImg, position, 255, 3);
imshow("CanImg", CanImg);vector<Vec4i> lines; // 存储检测到的直线
HoughLinesP(CloseImage, lines, 1, CV_PI / 180, 80, 30, 10); // 应用霍夫直线检测算法，输入图像必须是边缘检测后的图像 因为它需要的是边缘信息或者梯度信息来找到线段。
for (size_t i = 0; i < lines.size(); i++)
{Vec4i l = lines[i];line(SrcImage_1, Point(l[0], l[1]), Point(l[2], l[3]), Scalar(0, 0, 255), 3, LINE_AA); //直线必须画在三通道的RGB图像中
}
imshow("HoughSrcImage_1", SrcImage_1);

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LSD直线检测

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方法一：

#include <iostream>
#include <string>
#include "opencv2/core/core.hpp"
#include "opencv2/core/utility.hpp"
#include "opencv2/imgproc/imgproc.hpp"
#include "opencv2/imgcodecs.hpp"
#include "opencv2/highgui/highgui.hpp"//1、边缘检测
Canny(ConnectImg, CanImg, 0, 255, 3);
imshow("CanImg", CanImg);Ptr<LineSegmentDetector> LS=createLineSegmentDetector(LSD_REFINE_STD); 
vector<Vec4f>lines_LSD;
LS->detect(CanImg,lines_LSD);
Mat drawLSDlines(CanImg);
LS->drawSegments(drawLSDlines,lines_LSD);
imshow("LSD",drawLSDlines);

方法二：

Ptr<LineSegmentDetector> detector = createLineSegmentDetector();vector<Vec4f> lines;
detector->detect(CanImg,lines);Mat resultLSD(CanImg.size(),CV_8UC3,Scalar(0, 0, 0));Scalar color(0,0,255);
int thickness = 1;
cout<<"lines.size : "<<lines.size();
for(int i=0; i<lines.size(); i++)
{Point start(static_cast<int>(lines[i][0]), static_cast<int>(lines[i][1]));Point end(static_cast<int>(lines[i][2]), static_cast<int>(lines[i][3]));line(resultLSD, start, end, color, thickness);
}
imshow("resultLSD", resultLSD);

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点距离直线筛选(检查直线是否与圆相交)

bool isLineIntersectsCircle(const Vec4i& line, const Point& circleCenter, int circleRadius) {Point start(line[0], line[1]);Point end(line[2], line[3]);// 使用点到直线距离来判断是否相交double dist = pointToLineDistance(circleCenter, start, end);if (dist <= circleRadius) {return true;}// 补充：检查圆心是否在直线上(重要！)double dotProduct = ((end.x - start.x) * (circleCenter.x - start.x) + (end.y - start.y) * (circleCenter.y - start.y));double squaredLength = (end.x - start.x) * (end.x - start.x) + (end.y - start.y) * (end.y - start.y);if (squaredLength != 0) {double param = dotProduct / squaredLength;if (param >= 0 && param <= 1) {Point closestPoint;closestPoint.x = start.x + param * (end.x - start.x);closestPoint.y = start.y + param * (end.y - start.y);double distanceFromCenter = norm(circleCenter - closestPoint); //计算圆心到最近点的距离if (distanceFromCenter <= circleRadius) {return true;}}}return false;
}

函数调用：

   Point circleCenter1(140, 135); // 替换为你的圆心坐标（别忘了你图像缩小了6倍）Point circleCenter2(690, 72); // 替换为你的圆心坐标int circleRadius =60;//  使用 std::vector<int> 来存储与圆相交的第一条直线std::vector<int> intersectingLineIndices;for (size_t i = 0; i < extendedLines.size(); ++i) {if (isLineIntersectsCircle(extendedLines[i], circleCenter1, circleRadius)) {intersectingLineIndices.push_back(i);break; // 找到一条后立即退出循环，避免继续查找}}// 检验是否存在相交线if (!intersectingLineIndices.empty()) {int index = intersectingLineIndices[0];line(SrcImage_1, Point(extendedLines[index][0], extendedLines[index][1]),Point(extendedLines[index][2], extendedLines[index][3]), Scalar(0, 0, 255), 2);std::cout << "Found intersecting line at index " << index << std::endl;}else {std::cout << "No intersecting line found." << std::endl;}