OpenCV编程->RGB直方图统计
我们在处理彩色图像时。特别是在做局部图像的阈值切割时,须要一个直观的RGB统计图。
接下来開始实现。
代码:
计算结果例如以下:void CalcHistRGB() { IplImage* img_source; if (img_source = cvLoadImage("101.jpg",1)) { IplImage* RedChannel = cvCreateImage( cvGetSize(img_source), 8, 1); IplImage* GreenChannel = cvCreateImage( cvGetSize(img_source), 8, 1); IplImage* BlueChannel = cvCreateImage( cvGetSize(img_source), 8, 1); IplImage* alphaChannel = cvCreateImage( cvGetSize(img_source), 8, 1); IplImage* gray_plane = cvCreateImage(cvGetSize(img_source),8,1); //切割为单通道图像 cvSplit(img_source,BlueChannel,GreenChannel,RedChannel,0); // 显示图像 cvNamedWindow( "RedChannel", 1 ); cvNamedWindow( "GreenChannel", 1 ); cvNamedWindow( "BlueChannel", 1 ); cvNamedWindow( "lphaChannel", 1 ); cvShowImage( "RedChannel", RedChannel ); cvShowImage( "GreenChannel", GreenChannel ); cvShowImage( "BlueChannel", BlueChannel ); cvShowImage( "lphaChannel", alphaChannel ); cvCvtColor(img_source,gray_plane,CV_BGR2GRAY); cvNamedWindow("GrayPlane",1); cvShowImage("GrayPlane",gray_plane); //OpenCV中无论是Windows中Load的还是摄像头取得的都是BGR顺序排列的 //然后为这四幅图创建相应的直方图结构。 int hist_size = 100; int hist_height = 100; float range[] = {0,255}; float* ranges[]={range}; CvHistogram* r_hist = cvCreateHist(1,&hist_size,CV_HIST_ARRAY,ranges,1); CvHistogram* g_hist = cvCreateHist(1,&hist_size,CV_HIST_ARRAY,ranges,1); CvHistogram* b_hist = cvCreateHist(1,&hist_size,CV_HIST_ARRAY,ranges,1); CvHistogram* gray_hist = cvCreateHist(1,&hist_size,CV_HIST_ARRAY,ranges,1); //接下来计算直方图,创建用于显示直方图的图像,略去了一部分反复代码,下面也是 cvCalcHist(&RedChannel,r_hist,0,0); cvCalcHist(&GreenChannel,g_hist,0,0); cvCalcHist(&BlueChannel,b_hist,0,0); cvCalcHist(&gray_plane,gray_hist,0,0); cvNormalizeHist(gray_hist,1.0); cvNormalizeHist(r_hist,1.0); cvNormalizeHist(g_hist,1.0); cvNormalizeHist(b_hist,1.0); int scale = 2; IplImage* hist_image = cvCreateImage(cvSize(hist_size*scale,hist_height*4),8,3); cvZero(hist_image); //然后開始显示,这里对直方图进行了标准化处理。不然的话无法观察到明显的变化。
float r_max_value = 0; float g_max_value = 0; float b_max_value = 0; float gray_max_value = 0; cvGetMinMaxHistValue(r_hist, 0,&r_max_value,0,0); cvGetMinMaxHistValue(g_hist, 0,&g_max_value,0,0); cvGetMinMaxHistValue(b_hist, 0,&b_max_value,0,0); cvGetMinMaxHistValue(b_hist, 0,&gray_max_value,0,0); for(int i=0;i<hist_size;i++) { float r_bin_val = cvQueryHistValue_1D(r_hist,i); int r_intensity = cvRound(r_bin_val*hist_height/r_max_value); cvRectangle( hist_image, cvPoint(i*scale,hist_height-1), cvPoint((i+1)*scale - 1, hist_height - r_intensity), CV_RGB(255,0,0)); float g_bin_val=cvQueryHistValue_1D(g_hist,i); int g_intensity = cvRound(g_bin_val*hist_height/g_max_value); cvRectangle( hist_image, cvPoint(i*scale,2*hist_height-1), cvPoint((i+1)*scale - 1, 2*hist_height - g_intensity), CV_RGB(0,255,0)); float b_bin_val = cvQueryHistValue_1D(b_hist,i); int b_intensity = cvRound(b_bin_val*hist_height/b_max_value); cvRectangle( hist_image, cvPoint(i*scale,3*hist_height-1), cvPoint((i+1)*scale - 1, 3*hist_height - b_intensity), CV_RGB(0,0,255)); float gray_bin_val = cvQueryHistValue_1D(gray_hist,i); int gray_intensity = cvRound(gray_bin_val*hist_height/gray_max_value); cvRectangle( hist_image, cvPoint(i*scale,4*hist_height-1), cvPoint((i+1)*scale - 1, 4*hist_height - gray_intensity), CV_RGB(100,100,100)); } cvNamedWindow( "Source", 1 ); cvShowImage( "Source", img_source ); cvNamedWindow( "RGB_Histogram", 1 ); cvShowImage( "RGB_Histogram", hist_image ); } }
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