```
typedef struct elem_ {
float f1;
float f2;
} elem;
elem data[9] = { 0.0f };
CvMat mat = cvMat(3, 3, CV_32FC2, data );
float f1 = CV_MAT_ELEM(mat, elem, row, col).f1;
float f2 = CV_MAT_ELEM(mat, elem, row, col).f2;
CV_MAT_ELEM(mat, elem, row, col).f1 = 1212.0f;
CV_MAT_ELEM(mat, elem, row, col).f2 = 326.0f;
```

**Update : for OpenCV2.0**

### 1. choose one type to represent the element

Mat (or CvMat) has 3 dimensions: row, col, channel.

We can access one element (or pixel) in the matrix by specifying the row and col.

`CV_32FC2`

means the element is 32bit floating point value with 2 channels.

So elem in above code is one acceptable representation of `CV_32FC2`

.

You can use other representations you like. For example :

```
typedef struct elem_ { float val[2]; } elem;
typedef struct elem_ { float x;float y; } elem;
```

OpenCV2.0 adds some new types to represent the element in the matrix,like :

```
template<typename _Tp, int cn> class CV_EXPORTS Vec // cxcore.hpp (208)
```

So we can use `Vec<float,2>`

to represent `CV_32FC2`

, or use :

```
typedef Vec<float, 2> Vec2f; // cxcore.hpp (254)
```

See the source code to get more type that can represent your element.

Here we use `Vec2f`

### 2. access the element

The easiest and efficiant way to access the element in the Mat class is Mat::at.

It has 4 overloads :

```
template<typename _Tp> _Tp& at(int y, int x); // cxcore.hpp (868)
template<typename _Tp> const _Tp& at(int y, int x) const; // cxcore.hpp (870)
template<typename _Tp> _Tp& at(Point pt); // cxcore.hpp (869)
template<typename _Tp> const _Tp& at(Point pt) const; // cxcore.hpp (871)
// defineded in cxmat.hpp (454-468)
// we can access the element like this :
Mat m( Size(3,3) , CV_32FC2 );
Vec2f& elem = m.at<Vec2f>( row , col ); // or m.at<Vec2f>( Point(col,row) );
elem[0] = 1212.0f;
elem[1] = 326.0f;
float c1 = m.at<Vec2f>( row , col )[0]; // or m.at<Vec2f>( Point(col,row) );
float c2 = m.at<Vec2f>( row , col )[1];
m.at<Vec2f>( row, col )[0] = 1986.0f;
m.at<Vec2f>( row, col )[1] = 326.0f;
```

### 3. interact with old interface

Mat provides 2 conversion functions:

```
// converts header to CvMat; no data is copied // cxcore.hpp (829)
operator CvMat() const; // defined in cxmat.hpp
// converts header to IplImage; no data is copied
operator IplImage() const;
// we can interact a Mat object with old interface :
Mat new_matrix( ... );
CvMat old_matrix = new_matrix; // be careful about its lifetime
CV_MAT_ELEM(old_mat, elem, row, col).f1 = 1212.0f;
```