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# Can anyone briefly explain me the following code?

Here is one of the step of MATLAB code for counting the number of objects in an image.

``````B = bwboundaries(img2);
imshow(img2)
text(10,10,strcat('\color{green}Objects Found:',num2str(length(B))))
hold on
``````

Although the explanation given for the code was

``````> This step finds the boundaries of each object that it finds and stores
> it in B. The text function prints the number of objects that are found
> by bwboundaries.
``````

But i cannot understand the step 3. Can anyone briefly explain the code for each line. Thanks.

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For help with `bwboundaries` see the help file for that function.

`imshow(img2)`

... shows the image `img2` in a figure window.

``````length(B)
``````

...gives the scalar length of the vector (or matrix) B, e.g. `8`.

``````num2str(length(B))
``````

...converts this number to a string, e.g. `'8'`.

``````strcat('\color{green}Objects Found:',num2str(length(B)))
``````

...appends to the start of the string `'8'` the string `\color{green}Objects Found:`. In this case, you would end up with a full string:

``````\color{green}Objects Found:8
``````

The `text` function positions this text at the designated position on the current axes, in this case the position (10, 10). The tricky part of this is the `\color{green}` part of the text string, which tells MATLAB to make the text green (and is not shown when the text is plotted).

```````hold on`
``````

... prevents new items plotted to the same axes from erasing the current items.

You can learn about most of these commands from MATLAB by using the `help` command. E.g. typing `help bwboundaries`:

``````>> help bwboundaries
bwboundaries Trace region boundaries in binary image.
B = bwboundaries(BW) traces the exterior boundary of objects, as well
as boundaries of holes inside these objects. It also ... <snip>
``````
-

In addition to @BillCheatman's answer you probably need to understand what BWBOUNDARIES functioni is doing and what it's returns. Look at the documentation for full explanation and examples.

You will also find that

bwboundaries returns B, a P-by-1 cell array, where P is the number of objects and holes.

So the statement `length(B)` will give you the largest dimention of cell array `B`, which is `P` in the above citation or number of objects found.

-

"text(10,10,strcat('\color{green}Objects Found:',num2str(length(B)))) " This line is to write a line of text at the position of (10,10) on the image.

"B = bwboundaries(img2);" this one is to compute the boundary of img2 which should be a binary image.

Let us take this image as an example:

From this image, we can see that there are four edges. So using "B = bwboundaries(img2);", we will have B which is a 4-cell data. Each cell is a n*2 matrix which stores every edge point coordinates. So each line of the matrix is a edge point. For the example we have, there are four edges and their figures are shown as follows.

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