在用c++代码复现matlab代码时,遇到两者resize函数的结果不相同的问题。
opencv:
resize(image1, reTmp, Size(, ), , , cv::INTER_LINEAR);
matlab:
tmp=imresize(img,[ ],'bilinear','AntiAliasing',false);
以一张500×396的彩色图片为例,resize到(50,50):
matlab imresize代码:
img=imread('image/cluo.jpg');
img=single(img);
for i=:
fprintf('%.6f ',img(,i,));
end
fprintf('\n');
tmp=imresize(img,[ ],'bilinear','AntiAliasing',false);
for i=:
fprintf('%.6f ',tmp(,i,));
end
c++ resize代码:
#include <opencv2\opencv.hpp>
#include <iostream>
using namespace cv;
using namespace std; void main()
{
Mat image = imread("cluo.jpg");
Mat image1(image.rows, image.cols, CV_32FC3);
for (int i = ; i < image.rows; i++)
for (int j = ; j < image.cols; j++)
{
image1.at<Vec3f>(i, j)[] = image.at<Vec3b>(i, j)[];
image1.at<Vec3f>(i, j)[] = image.at<Vec3b>(i, j)[];
image1.at<Vec3f>(i, j)[] = image.at<Vec3b>(i, j)[];
} //打印输出resize前r通道前10个像素点的坐标
for (int i = ; i < ; i++)
printf("%.6f ", image1.at<Vec3f>(, i)[]);
printf("\n");
Mat reTmp;
resize(image1, reTmp, Size(, ), , , cv::INTER_LINEAR);
//resize(image1, reTmp, Size(50, 50), 0, 0, cv::INTER_NEAREST);
//打印输出resize后r通道前10个像素点的坐标
for (int i = ; i < ; i++)
printf("%f ", reTmp.at<Vec3f>(, i)[]);
printf("\n"); system("pause");
}
结果比较:
结果基本相同
matlab中默认的 tmp=imresize(img,[50 50],'bilinear'); 函数是打开了抗锯齿 结果和opencv中的INTER_LINEAR不相同
matlab 和 opencv中 nearest 方式的结果比较:
c++: resize(image1, reTmp, Size(50, 50), 0, 0, cv::INTER_NEAREST);
matlab: tmp=imresize(img,[50 50],'nearest');
matlab: tmp=imresize(img,[50 50],'nearest','AntiAliasing',false);
结果不相同