# Can this image processing code be optimised to use less memory?

I have a python function that takes a string s-expression like "(add (sub 10 5) 5)", where "add" and "sub" are actually image processing functions, and evaluates and creates the image represented in the string. The image processing functions take constants, variables, or other images (represented as lists of vectors), and return images represented the same way. PIL is used to convert the image represented as a list of vectors into an image file.

To evaluate the prefix notation s-expressions, I convert the s-expr to a list, reverse it, and iterate the tokens until a function is found, at which point the image processing function is performed and the resulting image replaces the function and its arguments in the list. This is done until only one element is left in the list, which is the final image.

The image processing functions are simple- most perform some mathematical operation to each of the (r,g,b) values in the image(s).

The problem is my computer comes to a standstill if I want to make decent sized images for more complex expressions. Can this be optimised to use less memory?

def createImage(self, sexpr, filename, (picWidth, picHeight)):
"""Use the image processing functions in ImgProcessing
to create an image from the procedural information
contained in the s-expression."""

img = Image.new("RGB",(picWidth,picHeight),(255,255,255))
ip = ImgProcessing(picWidth,picHeight)

# Split s-expression into list of tokens and reverse
sList = sexpr.replace("(","").replace(")","").split()
sList.reverse()

while len(sList) > 1:

for index,token in enumerate(sList):
# If token is an image processing function
if type(token) == str and self.FuncSet.has_key(token):
# If this function takes one argument
if self.FuncSet[token] == 1:
rawImage = eval("ip." + token + "(" + "\"" + str(sList[index-1]) +
"\"" + ")")
sList = sList[:index-1] + [rawImage] + sList[index+1:]
break
# If this function takes two arguments
elif self.FuncSet[token] == 2:
rawImage = eval("ip." + token + "(" + "\"" + str(sList[index-1]) +
"\"" + "," + "\"" + str(sList[index-2]) + "\"" +
")")
sList = sList[:index-2] + [rawImage] + sList[index+1:]
break

img.putdata(sList[0])
img.save(filename)
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There are times when you have to use eval, but 99% of real-world eval usage—including this—is desperately inappropriate. If you think you have to use eval, a good rule of thumb is you're wrong. Before you use eval, because you have to use eval, please take course CS362 Identifying The Few Cases Where You Really Do Have To Use eval, and post your completed examination credit and application fee to the Society For Administering Access To eval In Those Very Few Cases Where You Really Need To, for written permission to use eval in the very very few cases where you really need to. –  bobince Jul 27 '10 at 1:15

Profiling can tell you where the program is spending most of its time.

Second, is str(sList[index-1]) converting an Image into a string? Does ip.token(...) return an Image? If so, you are converting between string and Image a number of times. That might be very slow.

It might help to change

rawImage = eval("ip." + token + "(" + "\"" + str(sList[index-1]) +
"\"" + ")")

to something like

getattr(ip,token)(sList[index-1])

but of course this depends on what type of argument ip.token expects. I couldn't find any information on ImgProcessing from Googling. Is this a custom class? If so, it might help to explain more about how it works. If ip.token can be changed from taking strings to taking Images, that might be a big improvement.

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In my experience, anything that you do in pure Python or PIL pixel-by-pixel on a large image is going to be slow as molasses in January. Consider moving the low-level stuff into a Python extension written in C. I have used OpenCV, but it takes some learning.

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I don't think jumping into C is the right answer, until you have profiled and optimized your Python code as best as you can. In my opinion, jumping to a lower-level language early is just another form of premature optimization. –  Thomas Owens Jul 27 '10 at 0:36