I got confused with the openCV documentation mentioned here.

As per the documentation, if i create an image with "uchar", the pixels of that image can store unsigned integer values but if i create an image using the following code:

Mat image;
image = imread("someImage.jpg" , 0); // Read an image in "UCHAR" form

or by doing

image.create(10, 10, CV_8UC1);
for(int i=0; i<image.rows; i++)
    for(int j=o; j<image.cols; j++)
        image.at<uchar>(i,j) = (uchar)255;

and then if i try to print the values using

cout<<"  "<<image.at<uchar>(i,j);

then i get some wierd results at terminal but if i use the following statement then i can get the values inbetween 0-255.

cout<<"  "<<(int)image.at<uchar>(i,j); // with TYPECAST

Question: Why do i need to do typecast to get print the values in range 0-255 if the image itself can store "unsigned integer" values.

  • Does it help at all to know that char, unsigned char, and signed char are all integer types per the standard? Maybe OpenCV just used really piss-poor vernacular in that sentence?
    – WhozCraig
    Mar 1 '14 at 14:03
  • It is an integer that takes only 8 bit, you don't treat those bits as ascii codes
    – Dabo
    Mar 1 '14 at 14:03
  • Right. integer is not the same as 32 bit integer. That's all there is to it.
    – Mr Lister
    Mar 1 '14 at 14:21
  • @WhozCraig: sorry but i am unable to understand your meaning due to my limited c++/opencv knowledge. does opencv docs also mean that "uchar" means "unsigned char" or not? Mar 1 '14 at 14:24

If you try to find definition of uchar (which is pressing F12 if you are using Visual Studio), then you'll end up in OpenCV's core/types_c.h:

#ifndef HAVE_IPL
   typedef unsigned char uchar;
   typedef unsigned short ushort;

which standard and reasonable way of defining unsigned integral 8bit type (i.e. "8-bit unsigned integer") since standard ensures that char always requires exactly 1 byte of memory. This means that:

cout << "  " << image.at<uchar>(i,j);

uses the overloaded operator<< that takes unsigned char (char), which prints passed value in form of character, not number.

Explicit cast, however, causes another version of << to be used:

cout << "  " << (int) image.at<uchar>(i,j);

and therefore it prints numbers. This issue is not related to the fact that you are using OpenCV at all.

Simple example:

char           c = 56; // equivalent to c = '8'
unsigned char uc = 56;
int            i = 56;
std::cout << c << " " << uc << " " << i;

outputs: 8 8 56

And if the fact that it is a template confuses you, then this behavior is also equivalent to:

template<class T>
T getValueAs(int i) { return static_cast<T>(i); }

typedef unsigned char uchar;

int main() {
    int i = 56;
    std::cout << getValueAs<uchar>(i) << " " << (int)getValueAs<uchar>(i);
  • sorry but i am unable to understand do they also mean that "uchar" means "unsigned char" or not? Mar 1 '14 at 14:22
  • so will it be ok if i do float value = c; where uchar c = 255; ? Would i be able to get value =255.0 if i try to print it? Mar 1 '14 at 14:38
  • @user2756695: There is implicit type conversion, or, to be more accurate: uchar will be "promoted" to float, so yes, it is ok.
    – LihO
    Mar 1 '14 at 14:50
  • But, a byte is not necessarily 8 bits, isn’t it? Dec 9 '20 at 9:16

Simply, because although uchar is an integer type, the stream operation << prints the character it represents, not a sequence of digits. Passing the type int you get a different overload of that same stream operation, which does print a sequence of digits.

  • +1 Basically, that was my original answer, it's really simple as that.
    – LihO
    Mar 1 '14 at 14:42
  • @LihO: yes indeed, I skimmed your answer and was just about to read it through to make sure it didn't contain any inaccuracies before upvoting it, when I thought that a much shorter version might also be useful :-) Mar 1 '14 at 14:43

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