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I have to get information about the scalar value of a lot of pixels on a gray-scale image using OpenCV. It will be traversing hundreds of thousands of pixels so I need the fastest possible method. Every other source I've found online has been very cryptic and hard to understand. Is there a simple line of code that should just hand a simple integer value representing the scalar value of the first channel (brightness) of the image?

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3 Answers 3

up vote 3 down vote accepted
for (int row=0;row<image.height;row++) {
    unsigned char *data = image.ptr(row);
    for (int col=0;col<image.width;col++) {
       // then use *data for the pixel value, assuming you know the order, RGB etc           
       // Note 'rgb' is actually stored B,G,R
       blue= *data++;
       green = *data++;
       red = *data++;

You need to get the data pointer on each new row because opencv will pad the data to 32bit boundary at the start of each row

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Ok, so then using a grayscale image I could just replace the rgb with a value, say, brightness? –  Neek Jan 22 '12 at 23:00
Yes 8U_C1 is just the brightness for each byte –  Martin Beckett Jan 23 '12 at 0:19
@Martin, what if I have a frame in Ycbcr color and i want to get the Y, Cb , Cr values of each Pixel –  Engine Jan 7 '13 at 12:19
@engine - should post that as a question. There are different ways oif laying out a YCbCr/YUV frame, either YUYV or Y then U,V side:side (half width), or Y then U,V top:bottom (half height) –  Martin Beckett Jan 7 '13 at 16:26
@MartinBeckett: martin when using your example the compiler says: Error a value of type "const uchar *" cannot be used to initialize an entity of type "unsigned char *" at line 2 –  dynamic Jun 5 '13 at 23:03

With regards to Martin's post, you can actually check if the memory is allocated continuously using the isContinuous() method in OpenCV's Mat object. The following is a common idiom for ensuring the outer loop only loops once if possible:

#include <opencv2/core/core.hpp>

using namespace cv;

int main(void)

    Mat img = imread("test.jpg");
    int rows = img.rows;
    int cols = img.cols;

    if (img.isContinuous())
        cols = rows * cols; // Loop over all pixels as 1D array.
        rows = 1;

    for (int i = 0; i < rows; i++)
        Vec3b *ptr = img.ptr<Vec3b>(i);
        for (int j = 0; j < cols; j++)
            Vec3b pixel = ptr[j];

    return 0;
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The first question I'll ask you is what type of image are you dealing with?

The best way is to learn the image format and write your own code (very simple if you know a bit of C/C++). Every image will have a header associated with it and it is standardized. These headers will contain information like where does the pixel data start, height in pixels, width in pixels, pixel depth, compression type etc.

Here's the blog post I've made that reads the pixel data from color bmp files. I've completely coded it in C and hence no overhead and will be the fastest.



Google the image header format you are dealing with. Download xvi32 editor to view hex values of the image content.

These are the only things you'll need to retrieve from the image file header:

1.Pixel Data Offset - From what address does the pixel data start

2.Height and Width in pixels - self explanatory

3.No. of bits per pixel - self explanatory (convert it into bytes after retrieval)

Use fseek() to go to the respective offsets. Example


goes to the address 12 in hexadecimal from start of file

retrieve the values. say 4 bytes of unsigned data to be retrieved then define a union like

union my_u32_union{
    unsigned int dword;
    unsigned char byte[4];
} temp_u32;

and in main() code will be something like this

    temp_u32.byte[i] = (unsigned char) getc(fp);

Your temp_u32.dword will contain whatever you've read. (try remembering the properties of a union)

my_image_pixel_width = temp_u32.dword;

Finally go to the pixel data offset for example

fseek(fp,(long) pixel_data_offset,SEEK_SET);

start reading the pixels, an example is shown below

            printf("%d ",getc(fp));

One more way of increasing the speed of retrieval is to declare i,j,k before hand. retrieve height,width and bytes_per_pixel before hand to avoid computation during comparison.

Bitmaps are large in size but have uncompressed data. They are the fastest to read and write. Dealing with thousands of pixels is an easy job for a fairly new computer, but printing them on the console is a slow process. Redirect the output of the program to a file as shown below

./myprogram > outputfile.txt

or if you use windows

myprogram > outputfile.txt

I've been dealing with color bitmap images.

for information on bitmap headers: search 'bmp header format' in wikipedia.

comment on my blogpost if you have any queries about what i've said. btw add a tag similar to pixel data retrieval and you'll have more hits when people search.

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This does a system call for every byte which is inefficient. Better is to use fread to get all of the bytes at at once, or read a row at a time. –  Steve C Jan 23 '12 at 0:15
I would have to agree with Steve C here. My question to @thirumal however though is does your process show successful results towards jpeg's and tiffs that are compressed (regardless of lossless or lossy) ? Since the header structs in both those formats provide less information about actual pixel data offset than bmp structs do. Please share your valuable knowledge pertaining to this subject. –  user1227372 Jul 12 '12 at 17:33

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