jashliao 用 VC++ 實現 fanfuhan OpenCV 教學024 ~ opencv-024-圖像增加白雜訊&高斯雜訊 [產生濾波器測試輸入圖像]
jashliao 用 VC++ 實現 fanfuhan OpenCV 教學024 ~ opencv-024-圖像增加白雜訊&高斯雜訊 [產生濾波器測試輸入圖像]
資料來源: https://fanfuhan.github.io/
https://fanfuhan.github.io/2019/04/03/opencv-024/
GITHUB:https://github.com/jash-git/fanfuhan_ML_OpenCV
https://github.com/jash-git/jashliao-implements-FANFUHAN-OPENCV-with-VC
★前言:
★主題:
產生濾波器測試輸入圖像
★C++
// VC_FANFUHAN_OPENCV024.cpp : 定義主控台應用程式的進入點。
//
/*
// Debug | x32
通用屬性
| C/C++
| | 一般
| | 其他 Include 目錄 -> C:\opencv\build\include
|
| 連結器
| |一一般
| | 其他程式庫目錄 -> C:\opencv\build\x64\vc15\lib
|
| |一輸入
| | 其他相依性 -> opencv_world411d.lib;%(AdditionalDependencies)
// Releas | x64
組態屬性
| C/C++
| | 一般
| | 其他 Include 目錄 -> C:\opencv\build\include
|
| 連結器
| |一般
| | 其他程式庫目錄 -> C:\opencv\build\x64\vc15\lib
|
| |一輸入
| | 其他相依性 -> opencv_world411.lib;%(AdditionalDependencies)
*/
#include "stdafx.h"
#include <iostream>
#include <opencv2/opencv.hpp>
#include <opencv2/core/core.hpp>
#include <opencv2/highgui/highgui.hpp>
using namespace std;
using namespace cv;
void showHistogram(InputArray src, cv::String StrTitle);
void backProjection_demo(Mat &mat, Mat &model);
void blur3x3(Mat &src, Mat *det);
void add_salt_pepper_noise(Mat &image);
void add_gaussian_noise(Mat &image);
void pause()
{
printf("Press Enter key to continue...");
fgetc(stdin);
}
int main()
{
Mat src = imread("../../images/test.png");
if (src.empty())
{
cout << "could not load image.." << endl;
pause();
return -1;
}
else
{
imshow("input_src", src);
showHistogram(src, "Histogram_input_src");
Mat src_clone01 = src.clone();
Mat src_clone02 = src.clone();
// 产生椒盐噪声
add_salt_pepper_noise(src_clone01);
imshow("input_src(pepper_noise)", src_clone01);
// 产生高斯噪声
add_gaussian_noise(src_clone02);
imshow("input_src(gaussian_noise)", src_clone02);
Mat dst1, dst2;
medianBlur(src_clone01, dst1, 5);//中值濾波/中值模糊(medianBlur)
imshow("medianBlur ksize=5(pepper_noise)", dst1);
GaussianBlur(src_clone01, dst2, Size(5, 5), 15, 0);
imshow("gaussian ksize=5(pepper_noise)", dst2);//高斯模糊(GaussianBlur)
Mat dst3, dst4;
medianBlur(src_clone02, dst3, 5);//中值濾波/中值模糊(medianBlur)
imshow("medianBlur ksize=5(gaussian_noise)", dst3);
GaussianBlur(src_clone02, dst4, Size(5, 5), 15, 0);
imshow("gaussian ksize=5(gaussian_noise)", dst4);//高斯模糊(GaussianBlur)
waitKey(0);
}
return 0;
}
void add_gaussian_noise(Mat &image) {
Mat noise = Mat::zeros(image.size(), image.type());
// 产生高斯噪声
randn(noise, (15, 15, 15), (30, 30, 30));
Mat dst;
add(image, noise, dst);
image = dst.clone();
//imshow("gaussian_noise", dst);
}
void add_salt_pepper_noise(Mat &image) {
// 随机数产生器
RNG rng(12345);
for (int i = 0; i < 1000; ++i) {
int x = rng.uniform(0, image.rows);
int y = rng.uniform(0, image.cols);
if (i % 2 == 1) {
image.at<Vec3b>(y, x) = Vec3b(255, 255, 255);
}
else {
image.at<Vec3b>(y, x) = Vec3b(0, 0, 0);
}
}
//imshow("saltp_epper", image);
}
void blur3x3(Mat &src, Mat *det)
{
// 3x3 均值模糊,自定义版本实现
for (int row = 1; row < src.rows - 1; row++) {
for (int col = 1; col < src.cols - 1; col++) {
Vec3b p1 = src.at<Vec3b>(row - 1, col - 1);
Vec3b p2 = src.at<Vec3b>(row - 1, col);
Vec3b p3 = src.at<Vec3b>(row - 1, col + 1);
Vec3b p4 = src.at<Vec3b>(row, col - 1);
Vec3b p5 = src.at<Vec3b>(row, col);
Vec3b p6 = src.at<Vec3b>(row, col + 1);
Vec3b p7 = src.at<Vec3b>(row + 1, col - 1);
Vec3b p8 = src.at<Vec3b>(row + 1, col);
Vec3b p9 = src.at<Vec3b>(row + 1, col + 1);
int b = p1[0] + p2[0] + p3[0] + p4[0] + p5[0] + p6[0] + p7[0] + p8[0] + p9[0];
int g = p1[1] + p2[1] + p3[1] + p4[1] + p5[1] + p6[1] + p7[1] + p8[1] + p9[1];
int r = p1[2] + p2[2] + p3[2] + p4[2] + p5[2] + p6[2] + p7[2] + p8[2] + p9[2];
det->at<Vec3b>(row, col)[0] = saturate_cast<uchar>(b / 9);
det->at<Vec3b>(row, col)[1] = saturate_cast<uchar>(g / 9);
det->at<Vec3b>(row, col)[2] = saturate_cast<uchar>(r / 9);
}
}
}
void backProjection_demo(Mat &image, Mat &model)
{
Mat image_hsv, model_hsv;
cvtColor(image, image_hsv, COLOR_BGR2HSV);//彩色轉HSV
cvtColor(model, model_hsv, COLOR_BGR2HSV);
// 定义直方图参数与属性
int h_bins = 32, s_bins = 32;
int histSize[] = { h_bins, s_bins };//要切分的像素強度值範圍,預設為256。每個channel皆可指定一個範圍。例如,[32,32,32] 表示RGB三個channels皆切分為32區段
float h_ranges[] = { 0, 180 }, s_ranges[] = { 0, 256 };
const float* ranges[] = { h_ranges, s_ranges };
int channels[] = { 0, 1 };
Mat roiHist;//計算ROI的直方圖
calcHist(&model_hsv, 1, channels, Mat(), roiHist, 2, histSize, ranges);
normalize(roiHist, roiHist, 0, 255, NORM_MINMAX, -1, Mat());
Mat roiproj, backproj;
calcBackProject(&image_hsv, 1, channels, roiHist, roiproj, ranges);//使用反向投影 產生ROI(前景)的mask
bitwise_not(roiproj, backproj);//產生背景的mask
imshow("ROIProj", roiproj);
imshow("BackProj", backproj);
}
void showHistogram(InputArray src, cv::String StrTitle)
{
bool blnGray = false;
if (src.channels() == 1)
{
blnGray = true;
}
// 三通道/單通道 直方圖 紀錄陣列
vector<Mat> bgr_plane;
vector<Mat> gray_plane;
// 定义参数变量
const int channels[1] = { 0 };
const int bins[1] = { 256 };
float hranges[2] = { 0, 255 };
const float *ranges[1] = { hranges };
Mat b_hist, g_hist, r_hist, hist;
// 计算三通道直方图
/*
void calcHist( const Mat* images, int nimages,const int* channels, InputArray mask,OutputArray hist, int dims, const int* histSize,const float** ranges, bool uniform=true, bool accumulate=false );
1.輸入的圖像數組
2.輸入數組的個數
3.通道數
4.掩碼
5.直方圖
6.直方圖維度
7.直方圖每個維度的尺寸數組
8.每一維數組的範圍
9.直方圖是否是均勻
10.配置階段不清零
*/
if (blnGray)
{
split(src, gray_plane);
calcHist(&gray_plane[0], 1, 0, Mat(), hist, 1, bins, ranges);
}
else
{
split(src, bgr_plane);
calcHist(&bgr_plane[0], 1, 0, Mat(), b_hist, 1, bins, ranges);
calcHist(&bgr_plane[1], 1, 0, Mat(), g_hist, 1, bins, ranges);
calcHist(&bgr_plane[2], 1, 0, Mat(), r_hist, 1, bins, ranges);
}
/*
* 显示直方图
*/
int hist_w = 512;
int hist_h = 400;
int bin_w = cvRound((double)hist_w / bins[0]);
Mat histImage = Mat::zeros(hist_h, hist_w, CV_8UC3);
// 归一化直方图数据
if (blnGray)
{
normalize(hist, hist, 0, histImage.rows, NORM_MINMAX, -1);
}
else
{
normalize(b_hist, b_hist, 0, histImage.rows, NORM_MINMAX, -1);
normalize(g_hist, g_hist, 0, histImage.rows, NORM_MINMAX, -1);
normalize(r_hist, r_hist, 0, histImage.rows, NORM_MINMAX, -1);
}
// 绘制直方图曲线
for (int i = 1; i < bins[0]; ++i)
{
if (blnGray)
{
line(histImage, Point(bin_w * (i - 1), hist_h - cvRound(hist.at<float>(i - 1))),
Point(bin_w * (i), hist_h - cvRound(hist.at<float>(i))), Scalar(255, 255, 255),
2, 8, 0);
}
else
{
line(histImage, Point(bin_w * (i - 1), hist_h - cvRound(b_hist.at<float>(i - 1))),
Point(bin_w * (i), hist_h - cvRound(b_hist.at<float>(i))), Scalar(255, 0, 0),
2, 8, 0);
line(histImage, Point(bin_w * (i - 1), hist_h - cvRound(g_hist.at<float>(i - 1))),
Point(bin_w * (i), hist_h - cvRound(g_hist.at<float>(i))), Scalar(0, 255, 0),
2, 8, 0);
line(histImage, Point(bin_w * (i - 1), hist_h - cvRound(r_hist.at<float>(i - 1))),
Point(bin_w * (i), hist_h - cvRound(r_hist.at<float>(i))), Scalar(0, 0, 255),
2, 8, 0);
}
}
imshow(StrTitle, histImage);
}
★Python
import cv2 as cv
import numpy as np
def add_salt_pepper_noise(image):
h, w = image.shape[:2]
nums = 10000
rows = np.random.randint(0, h, nums, dtype=np.int)
cols = np.random.randint(0, w, nums, dtype=np.int)
for i in range(nums):
if i % 2 == 1:
image[rows[i], cols[i]] = (255, 255, 255)
else:
image[rows[i], cols[i]] = (0, 0, 0)
return image
def gaussian_noise(image):
noise = np.zeros(image.shape, image.dtype)
m = (15, 15, 15)
s = (30, 30, 30)
cv.randn(noise, m, s)
dst = cv.add(image, noise)
cv.imshow("gaussian noise", dst)
return dst
src = cv.imread("D:/vcprojects/images/cos.jpg")
h, w = src.shape[:2]
copy = np.copy(src)
copy = add_salt_pepper_noise(copy)
result = np.zeros([h, w*2, 3], dtype=src.dtype)
result[0:h,0:w,:] = src
result[0:h,w:2*w,:] = copy
cv.putText(result, "original image", (10, 30), cv.FONT_HERSHEY_PLAIN, 2.0, (0, 255, 255), 1)
cv.putText(result, "salt pepper image", (w+10, 30), cv.FONT_HERSHEY_PLAIN, 2.0, (0, 255, 255), 1)
cv.imshow("salt pepper noise", result)
cv.imwrite("D:/result.png", result)
cv.waitKey(0)
cv.destroyAllWindows()
★結果圖:
★延伸說明/重點回顧: