• 计算两端yuv视频流中每一帧的ssim值


    方法同上一篇,仅仅不多这里在计算的时候用了opencv1的接口,出现了一些问题。最后总算攻克了。

    程序:

    #include <stdlib.h>
    #include <stdio.h>
    #include <math.h>
    #include <cv.h>
    #include <highgui.h>
    #define NUM_FRAME 100 //仅仅处理前100帧,依据视频帧数可改动
    void CalcPsnr(const char *in1,const char *in2)
    {
    	cv::VideoCapture vc1;
    	cv::VideoCapture vc2;
    	bool flag1 = vc1.open(in1);
    	bool flag2 = vc2.open(in2);
    	if (!flag1||!flag2)
    	{
    		printf("avi file open error 
    ");
    		system("pause");
    		exit(-1);
    	}
    
    	int frmCount1 = vc1.get(CV_CAP_PROP_FRAME_COUNT);
    	int frmCount2 = vc2.get(CV_CAP_PROP_FRAME_COUNT);
    	printf("frmCount: %d 
    ", frmCount1);
    	printf("frmCount: %d 
    ", frmCount2);
    	for (int i = 0; i < frmCount1; i++)
    	{
    		printf("%d/%d 
    ", i + 1, frmCount1);
    		cv::Mat image_ref;
    		vc1 >> image_ref;
    		cv::Mat image_obj;
    		vc2 >> image_obj;
    		double mse = 0;
    		double div_r = 0;
    		double div_g = 0;
    		double div_b = 0;
    		int width = image_ref.cols;
    		int height = image_ref.rows;
    		double psnr = 0;
    		for (int v = 0; v < height; v++)
    		{
    			for (int u = 0; u < width; u++)
    			{
    				div_r = image_ref.at<cv::Vec3b>(v, u)[0] - image_obj.at<cv::Vec3b>(v, u)[0];
    				div_g = image_ref.at<cv::Vec3b>(v, u)[1] - image_obj.at<cv::Vec3b>(v, u)[1];
    				div_b = image_ref.at<cv::Vec3b>(v, u)[2] - image_obj.at<cv::Vec3b>(v, u)[2];
    				mse += ((div_r*div_r + div_b*div_b + div_g*div_g) / 3);
    
    			}
    		}
    		mse = mse / (width*height);
    		psnr = 10 * log10(255 * 255 / mse);
    		printf("%lf
    ", mse);
    		printf("%lf
    ", psnr);
    	}
    	return;
    }
    void  CalcSsim(const char *in1,const char *in2)
    {
    	CvCapture* capture1 = cvCreateFileCapture(in1);
    	CvCapture* capture2 = cvCreateFileCapture(in2);
    	int i = 0;
    	// default settings  
    	double C1 = 6.5025, C2 = 58.5225;
    
    	IplImage
    		*img1 = NULL, *img2 = NULL, *img1_img2 = NULL,
    		*img1_temp = NULL, *img2_temp = NULL,
    		*img1_sq = NULL, *img2_sq = NULL,
    		*mu1 = NULL, *mu2 = NULL,
    		*mu1_sq = NULL, *mu2_sq = NULL, *mu1_mu2 = NULL,
    		*sigma1_sq = NULL, *sigma2_sq = NULL, *sigma12 = NULL,
    		*ssim_map = NULL, *temp1 = NULL, *temp2 = NULL, *temp3 = NULL;
    	while (1)
    	{
    		printf("%d/%d 
    ", ++i, NUM_FRAME);
    		
    
    
    		/***************************** INITS **********************************/
    		img1_temp = cvQueryFrame(capture1);
    		img2_temp = cvQueryFrame(capture2);
    
    		if (img1_temp == NULL || img2_temp == NULL)
    			return;
    
    		int x = img1_temp->width, y = img1_temp->height;
    		int nChan = img1_temp->nChannels, d = IPL_DEPTH_32F;
    		CvSize size = cvSize(x, y);
    
    		img1 = cvCreateImage(size, d, nChan);
    		img2 = cvCreateImage(size, d, nChan);
    
    		cvConvert(img1_temp, img1);
    		cvConvert(img2_temp, img2);
    		/*cvReleaseImage(&img1_temp);
    		cvReleaseImage(&img2_temp);*/
    
    
    		img1_sq = cvCreateImage(size, d, nChan);
    		img2_sq = cvCreateImage(size, d, nChan);
    		img1_img2 = cvCreateImage(size, d, nChan);
    
    		cvPow(img1, img1_sq, 2);
    		cvPow(img2, img2_sq, 2);
    		cvMul(img1, img2, img1_img2, 1);
    
    		mu1 = cvCreateImage(size, d, nChan);
    		mu2 = cvCreateImage(size, d, nChan);
    
    		mu1_sq = cvCreateImage(size, d, nChan);
    		mu2_sq = cvCreateImage(size, d, nChan);
    		mu1_mu2 = cvCreateImage(size, d, nChan);
    
    
    		sigma1_sq = cvCreateImage(size, d, nChan);
    		sigma2_sq = cvCreateImage(size, d, nChan);
    		sigma12 = cvCreateImage(size, d, nChan);
    
    		temp1 = cvCreateImage(size, d, nChan);
    		temp2 = cvCreateImage(size, d, nChan);
    		temp3 = cvCreateImage(size, d, nChan);
    
    		ssim_map = cvCreateImage(size, d, nChan);
    		/*************************** END INITS **********************************/
    
    
    		//////////////////////////////////////////////////////////////////////////  
    		// PRELIMINARY COMPUTING  
    		cvSmooth(img1, mu1, CV_GAUSSIAN, 11, 11, 1.5);
    		cvSmooth(img2, mu2, CV_GAUSSIAN, 11, 11, 1.5);
    
    		cvPow(mu1, mu1_sq, 2);
    		cvPow(mu2, mu2_sq, 2);
    		cvMul(mu1, mu2, mu1_mu2, 1);
    
    
    		cvSmooth(img1_sq, sigma1_sq, CV_GAUSSIAN, 11, 11, 1.5);
    		cvAddWeighted(sigma1_sq, 1, mu1_sq, -1, 0, sigma1_sq);
    
    		cvSmooth(img2_sq, sigma2_sq, CV_GAUSSIAN, 11, 11, 1.5);
    		cvAddWeighted(sigma2_sq, 1, mu2_sq, -1, 0, sigma2_sq);
    
    		cvSmooth(img1_img2, sigma12, CV_GAUSSIAN, 11, 11, 1.5);
    		cvAddWeighted(sigma12, 1, mu1_mu2, -1, 0, sigma12);
    
    
    		//////////////////////////////////////////////////////////////////////////  
    		// FORMULA  
    
    		// (2*mu1_mu2 + C1)  
    		cvScale(mu1_mu2, temp1, 2);
    		cvAddS(temp1, cvScalarAll(C1), temp1);
    
    		// (2*sigma12 + C2)  
    		cvScale(sigma12, temp2, 2);
    		cvAddS(temp2, cvScalarAll(C2), temp2);
    
    		// ((2*mu1_mu2 + C1).*(2*sigma12 + C2))  
    		cvMul(temp1, temp2, temp3, 1);
    
    		// (mu1_sq + mu2_sq + C1)  
    		cvAdd(mu1_sq, mu2_sq, temp1);
    		cvAddS(temp1, cvScalarAll(C1), temp1);
    
    		// (sigma1_sq + sigma2_sq + C2)  
    		cvAdd(sigma1_sq, sigma2_sq, temp2);
    		cvAddS(temp2, cvScalarAll(C2), temp2);
    
    		// ((mu1_sq + mu2_sq + C1).*(sigma1_sq + sigma2_sq + C2))  
    		cvMul(temp1, temp2, temp1, 1);
    
    		// ((2*mu1_mu2 + C1).*(2*sigma12 + C2))./((mu1_sq + mu2_sq + C1).*(sigma1_sq + sigma2_sq + C2))  
    		cvDiv(temp3, temp1, ssim_map, 1);
    
    
    		CvScalar index_scalar = cvAvg(ssim_map);
    
    		// through observation, there is approximately   
    		// 1% error max with the original matlab program  
    
    		/*cout << "(R, G & B SSIM index)" << std::endl;
    		cout << index_scalar.val[2] << endl;
    		cout << index_scalar.val[1] << endl;
    		cout << index_scalar.val[0] << endl;*/
    
    		cvReleaseImage(&img1_sq);
    		cvReleaseImage(&img2_sq);
    		cvReleaseImage(&img1_img2);
    		cvReleaseImage(&mu1);
    		cvReleaseImage(&mu2);
    		cvReleaseImage(&mu1_sq);
    		cvReleaseImage(&mu2_sq);
    		cvReleaseImage(&mu1_mu2);
    		cvReleaseImage(&sigma1_sq);
    		cvReleaseImage(&sigma2_sq);
    		cvReleaseImage(&sigma12);
    		cvReleaseImage(&temp1);
    		cvReleaseImage(&temp2);
    		cvReleaseImage(&temp3);
    		cvReleaseImage(&ssim_map);
    		//double ssim=max(max(index_scalar.val[0], index_scalar.val[1]), index_scalar.val[2]);  
    		double ssim = (index_scalar.val[0] + index_scalar.val[1] + index_scalar.val[2]) / 3;
    		std::cout << ssim << std::endl;
    
    	}
    	cvReleaseCapture(&capture1);
    	cvReleaseCapture(&capture2);
    	return;
    }
    void DisplayYUV2RGB(const char *dir,const char *in,int _w,int _h)
    {
    	int w = _w;
    	int h = _h;
    	printf("yuv file w: %d, h: %d 
    ", w, h);
    	FILE* pFileIn = fopen(in, "rb+");
    	int bufLen = w*h * 3 / 2;
    	unsigned char* pYuvBuf = new unsigned char[bufLen];
    	int iCount = 0;
    
    
    	for (int i = 0; i<NUM_FRAME; i++)
    	{
    		fread(pYuvBuf, bufLen*sizeof(unsigned char), 1, pFileIn);
    
    		cv::Mat yuvImg;
    		yuvImg.create(h * 3 / 2, w, CV_8UC1);
    		memcpy(yuvImg.data, pYuvBuf, bufLen*sizeof(unsigned char));
    		cv::Mat rgbImg;
    		cv::cvtColor(yuvImg, rgbImg, CV_YUV2BGR_I420);
    
    		cv::imshow("img", rgbImg);
    		char s[100];
    		sprintf(s,"%spic%d%s",dir,i,".jpg");
    		cv::imwrite(s, rgbImg);
    		cv::waitKey(1);
    
    		printf("%d 
    ", iCount++);
    	}
    	delete[] pYuvBuf;
    	fclose(pFileIn);
    }
    void Image_to_video(const char* in, const char* out)
    {
    	int num = 1;
    	CvSize size = cvSize(1024, 768);  //视频帧格式的大小
    	double fps = 30; //每秒钟的帧率
    	CvVideoWriter *writer = cvCreateVideoWriter(out, CV_FOURCC('D', 'I', 'V', 'X'), fps, size); //创建视频文件
    	char cname[100];
    	sprintf(cname, in, num); //载入图片的目录,图片的名称编号是1開始1,2,3,4,5.。。

    。 IplImage *src = cvLoadImage(cname); if (!src) { return; } IplImage *src_resize = cvCreateImage(size, 8, 3); //创建视频文件格式大小的图片 cvNamedWindow("avi"); while (src) { cvShowImage("avi", src_resize); cvWaitKey(1); cvResize(src, src_resize); //将读取的图片设置为视频格式大小同样 cvWriteFrame(writer, src_resize); //保存图片为视频流格式 cvReleaseImage(&src); //释放空间 num++; sprintf(cname, in, num); src = cvLoadImage(cname); //循环读取数据 } cvReleaseVideoWriter(&writer); cvReleaseImage(&src_resize); } int main(int argc, char *argv[]) { const char *out = "C:/Users/jiang/Desktop/output/book_virtual08.yuv"; const char *dir = "C:/Users/jiang/Desktop/output/tupian1/"; DisplayYUV2RGB(dir, out, 1024, 768); const char *outImagename = "C:/Users/jiang/Desktop/output/tupian1/pic%d.jpg"; const char *outVideoname = "C:/Users/jiang/Desktop/output/3outfile.avi"; Image_to_video(outImagename, outVideoname); out = "C:/Users/jiang/Desktop/bookarrival/bookarrival_c_8.yuv"; dir = "C:/Users/jiang/Desktop/output/tupian1/"; DisplayYUV2RGB(dir, out, 1024, 768); outImagename = "C:/Users/jiang/Desktop/output/tupian1/pic%d.jpg"; outVideoname = "C:/Users/jiang/Desktop/output/4outfile.avi"; Image_to_video(outImagename, outVideoname); const char *in1 = "C:/Users/jiang/Desktop/output/3outfile.avi"; const char *in2 = "C:/Users/jiang/Desktop/output/4outfile.avi"; CalcPsnr(in1, in2); CalcSsim(in1, in2); getchar(); }



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  • 原文地址:https://www.cnblogs.com/gccbuaa/p/6707524.html
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