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I am writing a decompressor which (among other things) has to apply a delta filter to RGB images. That is, read images where only the first pixel is absolute (R1, G1, B1) and all the others are in the form (R[n]-R[n-1], G[n]-G[n-1], B[n]-B[n-1]), and convert them to standard RGB.

Right now I am using numpy as follows:

rgb = numpy.fromstring(data, 'uint8')
components = rgb.reshape(3, -1, order='F')
filtered = numpy.cumsum(components, dtype='uint8', axis=1)
frame = numpy.reshape(filtered, -1, order='F')


  • line 1 creates a 1D array of the original image;
  • line 2 reshapes it in the form

    [[R1, R2, ..., Rn], [G1, G2, ..., Gn], [B1, B2, ..., Bn]]
  • line 3 performs the actual defiltering

  • line 4 converts back again to a 1D array

The problem is that it is too slow for my needs. I profiled it and found out that a good amount of time is spent reshaping the array.

So I wonder: is there some way of avoiding reshaping or to speed it up?


  • I'd prefer not to have to write a C extension for this.
  • I'm already using multithreading
share|improve this question
If your rgb data ranges from 0 to 255, there is a good chance that numpy.cumsum will silently overflow. Take a look at what happens when x = np.arange(255,dtype = 'uint8') and y = np.cumsum(x, dtype = 'uint8'). – unutbu Feb 8 '12 at 20:05
Well, I think it has to overflow, or to put in another way, it's operating mod 255. – Alberto Feb 8 '12 at 20:35
Oops, so it was intentional. But still, shouldn't it be filtered = numpy.diff(components, axis = 1) to compute R[n]-R[n-1], etc.? – unutbu Feb 8 '12 at 20:43
Something like this (actually I'm using numpy.ediff1d) is in the compressor, this is the decompressor which does exactly the opposite. – Alberto Feb 8 '12 at 20:55
up vote 1 down vote accepted

First, when you read it in you can tell it a little more about the type, Try:

rgb = numpy.fromstring(data, '3uint8')

No reshape needed.

Next, for large operations, where you can get away with it (and cumsum qualifies), use the out= param to keep from moving the data...everything happens in place. Use:


if you still want it flattened:

rgb = rgb.ravel()
share|improve this answer
This improved total speed by about 15%, thanks! I'm very near to the point where 3 cores are enough (which is my target). – Alberto Feb 8 '12 at 20:43
After some other experiments, I found out that with this layout it is no more necessary to flatten it. Removing rgb.ravel() produced another +5%! – Alberto Feb 8 '12 at 21:03

For some reason I did not understand yet, the final reshape in your code copies the data. This can be avoided by using C order instead of Fortran order:

rgb = numpy.fromstring(data, 'uint8')
components = rgb.reshape(-1, 3)
filtered = numpy.cumsum(components, dtype='uint8', axis=0)
frame = filtered.reshape(-1)
share|improve this answer
Could you show under what circumstance the final reshape copies the data? I wasn't able to see this result myself starting with rgb = np.fromstring('\x01\x02\x03'*2, dtype=np.uint8) and looking at frame.flags['OWNDATA']. – unutbu Feb 8 '12 at 20:37
Thanks for the tip, it improved speed by about 12%. – Alberto Feb 8 '12 at 20:52
@unutbu: I found that merely looking at the owndata flag isn't a reliable way to find out whether a copy had been made somewhere in between. I did frame[:] = 0 and checked if filtered was also zeroed, but it wasn't. – Sven Marnach Feb 8 '12 at 21:09
Oh, that's a better test. Good to know. Thanks. – unutbu Feb 8 '12 at 21:12

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