我有一个图像,比方说800x800像素,我想定义200x200像素的区域并能够处理它们。
我不知道该怎么做。我试过了:
int N = 4;
Size smallSize( graySize.width / N ,graySize.height / N );
Mat region_frame;
vector<Mat> smallImages;
namedWindow( "Display window", WINDOW_AUTOSIZE );
for( int i = 0; i < graySize.height - N; i+= smallSize.height )
{
for( int j = 0; j < graySize.width - N; j+= smallSize.width )
{
Rect rect = Rect( j,i, smallSize.width, smallSize.height );
region_frame = grayImg( rect );
smallImages.push_back( region_frame.clone() );
imshow( "Display window", region_frame );
waitKey(0);
}
}
但我没有收到任何输出(没有创建任何窗口!)。如果我将imshow用于灰度Img,则它显示正确。
此外,因为我想处理这些块/区域/子图像,有没有办法给它们分配一个标签?例如区域[0](将包含像素0-199 x 0-199,区域[1]200-399 x 200-399等等
*********编辑****************
所以,没有显示图像的问题是,在我的代码之上:
if( grayImg.isContinuous() )
{
graySize.width *= graySize.height;
graySize.height = 1;
}
删除它,图像显示正常!
现在,仍然是处理smallImages以便能够进行计算。
对于Mat对象,我可以做例如
float *theData = (float*)grayImg.data;
但是对于像smallImages这样的vector<Mat>?如何使用指针?
如果将每个子映像存储到smallImages中而不进行克隆:
// Creates a new Mat header that "points" to the subimage
smallImages.push_back(grayImg(rect));
你可以像往常一样直接将子图像访问到主图像中,比如:
// Change the 3-rd subimage to be all 127
smallImages[2].setTo(127);
或者使用指针(下面代码中的示例)。
示例代码:
#include <opencv2opencv.hpp>
#include <vector>
using namespace std;
using namespace cv;
int main()
{
Mat3b img = imread("D:\SO\img\nice.jpg");
resize(img, img, Size(800, 800));
Mat grayImg;
cvtColor(img, grayImg, COLOR_BGR2GRAY);
grayImg.convertTo(grayImg, CV_32F);
int N = 4;
if (((grayImg.rows % N) != 0) || ((grayImg.cols % N) != 0))
{
// Error
return -1;
}
Size graySize = grayImg.size();
Size smallSize(grayImg.cols / N, grayImg.rows / N);
vector<Mat> smallImages;
for (int i = 0; i < graySize.height; i += smallSize.height)
{
for (int j = 0; j < graySize.width; j += smallSize.width)
{
Rect rect = Rect(j, i, smallSize.width, smallSize.height);
smallImages.push_back(grayImg(rect));
//imshow("Display window", grayImg(rect));
//waitKey(0);
}
}
// Change the 3-rd subimage to be all 127
smallImages[2].setTo(127);
// Iterate on all pixels in 2-nd subimage (will change also the main image)
int idx_smallimage = 1;
float* pdata = (float*)smallImages[idx_smallimage].data;
int step = smallImages[idx_smallimage].step1();
for (int i = 0; i < smallSize.height; ++i)
{
for (int j = 0; j < smallSize.width; ++j)
{
// Assign a random value to pixel (i,j) in subimage
pdata[i * step + j] = rand() & 255;
//smallImages[idx_smallimage](i * smallSize.width + j) = rand()&255;
}
}
return 0;
}
您可以测试我已经实现的代码。也许你会根据自己的需要改变它。
#include <opencv2/imgproc/imgproc.hpp>
#include <opencv2/highgui/highgui.hpp>
using namespace cv;
using namespace std;
class ImageCells
{
public:
ImageCells(int rows, int cols, int width, int height);
virtual ~ImageCells() {}
int cellwidth() const {return m_width;}
int cellheight() const { return m_height;}
int cols() const { return m_cols;}
int rows() const { return m_rows;}
void setCell( int col, int row, Mat img );
void setImage( Mat img );
Mat getCell( int col, int row );
Mat image;
protected:
int m_width;
int m_height;
int m_cols;
int m_rows;
};
ImageCells::ImageCells( int rows, int cols, int width, int height)
{
image = Mat::zeros( rows * height, cols * width, CV_8UC3);
m_width = width;
m_height = height;
m_cols = cols;
m_rows = rows;
}
void ImageCells::setCell( int col, int row, Mat img )
{
if(img.cols == m_width & img.rows == m_height)
{
Mat roi = image( Rect(col * m_width, row * m_height, m_width, m_height) );
img.copyTo(roi);
}
}
Mat ImageCells::getCell( int col, int row )
{
Mat roi = image( Rect(col * m_width, row * m_height, m_width, m_height) );
return roi.clone();
}
void ImageCells::setImage( Mat img )
{
if(img.cols >= image.cols & img.rows >= image.rows)
img.copyTo(image);
}
int main( int argc, char** argv )
{
ImageCells cells(4,3,70,90); // it creates a ImageCells class having 4 rows and 3 cols, cell witdh = 70 cell height = 90 you can change these values according your needs
Mat img = Mat( 90, 70, CV_8UC3,Scalar(0,0,255)); // a test mat to use with cells.setCell important note is : img witdh&height must be same to cell witdh&height
for(int i=0; i < cells.cols(); i++)
for(int j =0; j < cells.rows(); j++ )
{
cells.setCell(i,j,img); // here you see how to use setCell
randu(img,30*i,160*j); // to show purpose changes img
imshow("cells.image",cells.image);
waitKey();
}
for(int i=0; i < cells.cols(); i++)
for(int j =0; j < cells.rows(); j++ )
{
imshow("cells",cells.getCell(i,j)); // here you see how to use getCell
waitKey();
}
return 0;
}