every blog every motto: You can do more than you think.
https://blog.csdn.net/weixin_39190382?type=blog
0. 前言
访问图像元素
1. 访问图像像素
1.1 访问某像素
//灰度图像:
image.at<uchar>(j, i) //j为行数,i为列数
//BGR彩色图像
image.at<Vec3b>(j, i)[0] //B分量
image.at<Vec3b>(j, i)[1] //G分量
image.at<Vec3b>(j, i)[2] //R分量
1.2 遍历像素
以添加噪声为例
1.2.1 准备
创建添加噪声函数
Salt.h
#pragma once
#include <iostream>
#include <opencv2/opencv.hpp>
#include <random>using namespace cv;
using namespace std;void Salt(Mat img,int n); // n加入噪声点数
Salt.cpp
#include "Salt.h"void Salt(Mat img,int n){// 随机数生成器default_random_engine generater;uniform_int_distribution<int> randRow(0,img.rows-1);uniform_int_distribution<int> randCol(0,img.cols-1);int i,j;for (int k=0;k<n;k++){i=randRow(generater);j=randCol(generater);if (img.channels() == 1){img.at<uchar>(i,j) = 255;}else if (img.channels() == 3){img.at<Vec3b>(i,j)[0] = 255;img.at<Vec3b>(i,j)[1] = 255;img.at<Vec3b>(i,j)[2] = 255;}}
}
1.2.2 添加噪声
#include "Salt.h"
#include <iostream>
#include <opencv2/opencv.hpp>using namespace cv;
using namespace std;int main(){Mat img = imread("/home/v/home.png");if (img.empty()){cout<<"Could not open or find the image"<<endl;return -1;}imshow("Img",img);Salt(img,5000); // 加入噪声点imshow("Salt",img);waitKey(0);return 0;
}
1.3 指针遍历
1.3.1 以卷积运算为例
#include "Salt.h"
#include <iostream>
#include <opencv2/opencv.hpp>using namespace cv;
using namespace std;int main(){Mat img = imread("/home/v/home.png");if (img.empty()){cout<<"Could not open or find the image"<<endl;return -1;}Mat out_img;out_img = Mat(img.size(),img.type()); // 定义输出图像大小out_img = img.clone(); // clone原图像像素值int rows = img.rows; // 原图行数int stepx = img.channels(); // 原图通道数int cols = (img.cols)*img.channels(); // 矩阵总列数for (int row=1;row<rows-1;row++){const uchar* previous = img.ptr<uchar>(row-1); // 原图上一行指针const uchar* current = img.ptr<uchar>(row); // 原图当前行指针const uchar* next = img.ptr<uchar>(row+1); // 原图下一行指针uchar* output = out_img.ptr<uchar>(row); // 输出图像当前指针for (int col=stepx;col<cols-stepx;col++){ // 对列进行遍历// saturate_cast<uchar>(a) 当a小于0,输出0,当a大于255输出255,0-255之间原样输出output[col] = saturate_cast<uchar>(5*current[col]-(previous[col]+current[col-stepx] + current[col+stepx] + next[col]));}}imshow("Img",img);imshow("Out",out_img);waitKey(0);return 0;
}
1.3.2 自带的卷积运算
#include "Salt.h"
#include <iostream>
#include <opencv2/opencv.hpp>using namespace cv;
using namespace std;int main(){Mat img = imread("/home/v/home.png");if (img.empty()){cout<<"Could not open or find the image"<<endl;return -1;}Mat out_img;Mat kernel = (Mat_<char>(3,3)<<0,-1,0,-1,5,-1,0,-1,0);filter2D(img,out_img,img.depth(),kernel); // 卷积imshow("Img",img);imshow("Out",out_img);waitKey(0);return 0;
}
