How to find the "entropy" with imagemagick, preferably mini_magic, in Ruby? I need this as part of a larger project, *finding "interestingness" in an image so to crop it*.

I found a good example in Python/Django, which gives the following pseudo-code:

```
image = Image.open('example.png')
histogram = image.histogram() # Fetch a list of pixel counts, one for each pixel value in the source image
#Normalize, or average the result.
for each histogram as pixel
histogram_recalc << pixel / histogram.size
endfor
#Place the pixels on a logarithmic scale, to enhance the result.
for each histogram_recalc as pixel
if pixel != 0
entropy_list << log2(pixel)
endif
endfor
#Calculate the total of the enhanced pixel-values and invert(?) that.
entropy = entroy_list.sum * -1
```

This would translate to the formula `entropy = -sum(p.*log2(p))`

.

My questions: Did I interprete the Django/Python code correct? How can I fetch a histogram in ruby's mini_magick if at all?

Most important question: is this algorithm any good in the first place? Would you suggest a better one to find the "entropy" or "amount of changing pixels" or "gradient depth" in (parts of) images?

**Edit**: Using a.o. the resources provided by the answer below, I came up with the working code:

```
# Compute the entropy of an image slice.
def entropy_slice(image_data, x, y, width, height)
slice = image_data.crop(x, y, width, height)
entropy = entropy(slice)
end
# Compute the entropy of an image, defined as -sum(p.*log2(p)).
# Note: instead of log2, only available in ruby > 1.9, we use
# log(p)/log(2). which has the same effect.
def entropy(image_slice)
hist = image_slice.color_histogram
hist_size = hist.values.inject{|sum,x| sum ? sum + x : x }.to_f
entropy = 0
hist.values.each do |h|
p = h.to_f / hist_size
entropy += (p * (Math.log(p)/Math.log(2))) if p != 0
end
return entropy * -1
end
```

Where image_data is an `RMagick::Image`

.

This is used in the smartcropper gem, which allows smart slicing and cropping for images with e.g. paperclip.