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Briefly, I would like to know if it is possible to directly access pixel value of a CV_32F Mat, through Mat member "uchar* data".

I can do it with no problem if Mat is CV_8U, for example:

// a matrix 5 columns and 6 rows, values in [0,255], all elements initialised at 12
cv:Mat A;
A.create(5,6, CV_8UC1);
A = cv::Scalar(12);

//here I successfully access to pixel [4,5]
uchar *p = A.data;
int value = (uchar) p[4*A.step + 5];

The problem is when I try to do the same operation with the following matrix,

// a matrix 5 columns, 6 rows, values in [0.0, 1.0], all elements initialised at 1.2
cv::Mat B;
B.create(5,6, CV_32FC1);
B = cv::Scalar(1.2);

//this clearly does not work, no syntax error but erroneous value reported!
uchar *p = B.data;  
float value = (float) p[4*B.step + 5];

//this works, but it is not what I want to do!
float value = B.at<float>(4,5);

Thanks a lot, Valerio

share|improve this question
Is there any reason not to use float *p = B.data; –  William Jul 10 '13 at 11:12
mmm no, you can't do this! B.data is a pointer to uchar! This is a data member in Mat! –  valerio_sperati Jul 10 '13 at 12:40
oups. sorry. i rushed to comment. by the way. vote up the answers you liked and accept the one which works. –  William Jul 10 '13 at 13:26

2 Answers 2

You can use ptr method which returns pointer to matrix row:

for (int y = 0; y < mat.rows; ++y)
    float* row_ptr = mat.ptr<float>(y);
    for (int x = 0; x < mat.cols; ++x)
        float val = row_ptr[x];

You can also cast data pointer to float and use elem_step instead of step if matrix is continous:

float* ptr = (float*) mat.data;
size_t elem_step = mat.step / sizeof(float);
float val = ptr[i * elem_step + j];
share|improve this answer
It works! Thanks. –  valerio_sperati Jul 10 '13 at 13:24
it works even when Mat is not continuous. –  Kiran Apr 16 at 16:48

Note that CV_32F means the elements are float instead of uchar. The "F" here means "float". And the "U" in CV_8U stands for unsigned integer. Maybe that's why your code doesn't give the right value. By declaring p as uchar*, p[4*B.step+5] makes p move to the fifth row and advance sizeof(uchar)*5, which tend to be wrong. You can try

float value = (float) p[4*B.step + 5*B.elemSize()]

but I'm not sure if it will work. Here are some ways to pass the data of [i, j] to value:

  1. value = B.at<float>(i, j)
  2. value = B.ptr<float>(i)[j]
  3. value = ((float*)B.data)[i*B.step+j]

The 3rd way is not recommended though, since it's easy to overflow. Besides, a 6x5 matrix should be created by B.create(6, 5, CV_32FC1), I think?

share|improve this answer
Thanks, the 3rd way was what I was looking for. Nevertheless there is something still unclear to me. I used this formula: –  valerio_sperati Jul 10 '13 at 12:27
ops, wrong place where write reply? –  valerio_sperati Jul 10 '13 at 12:33
Ok, please clarify this point: in 3rd mode you use number 5. SHould it be B.step instead number 5? Thanks. –  valerio_sperati Jul 10 '13 at 12:45
@valerio_sperati Yes it should. Sorry I forgot to fix that. –  Manas Jul 11 '13 at 1:31

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