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Recently, I've discovered with the help of Jon Clements in this thread that the following codes have very different execution times.

Do you have any idea why this is happening?

Comment: self.stream_data is a vector tuple with many zeros and int16 values and create_ZS_data method is performing so called ZeroSuppression.

Environment
Input: Many (3.5k) small files (~120kb each)
OS: Linux64
Python ver 2.6.8

Solution based on a generator:

def create_ZS_data(self):
    self.ZS_data = ( [column, row, self.stream_data[column + row * self.rows ]]
                     for row, column in itertools.product(xrange(self.rows), xrange(self.columns))
                     if self.stream_data[column + row * self.rows ] )

Profiler info:

   ncalls  tottime  percall  cumtime  percall filename:lineno(function)
     3257    1.117    0.000   71.598    0.022 decode_from_merlin.py:302(create_ZS_file)
   463419   67.705    0.000   67.705    0.000 decode_from_merlin.py:86(<genexpr>)

Jon's Solution:

create_ZS_data(self):
    self.ZS_data = list()
    for rowno, cols in enumerate(self.stream_data[i:i+self.columns] for i in xrange(0, len(self.stream_data), self.columns)):
        for colno, col in enumerate(cols):
            # col == value, (rowno, colno) = index
            if col:
                self.ZS_data.append([colno, rowno, col])


Profiler info:

   ncalls  tottime  percall  cumtime  percall filename:lineno(function)
     3257   18.616    0.006   19.919    0.006 decode_from_merlin.py:83(create_ZS_data)
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1  
It seems fairly obvious that it has to do with the number of calls in the first solution, doesn't it? –  martineau Jul 23 '12 at 11:21
    
Yes, but weren't generators born to deal with big number of calls? They are usually recommended as an alternative to big lists. –  Michal Jul 23 '12 at 11:28
1  
for simple cases, generators generally reduce memory usage at the cost of CPU. –  Hamish Jul 23 '12 at 11:36
    
Your first solution is not actually using a generator expression, but a list comprehension. –  hop Jul 23 '12 at 13:48
    
@hop: The list comprehension contains a generator expression as noted in the profiler info shown -- itertools.product() is a generator function. –  martineau Jul 23 '12 at 16:33
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2 Answers

up vote 3 down vote accepted

I looked at the prior discussion; you seem to be troubled that your clever comprehension isn't as efficient in cycles as it is in characters of source code. What I didn't point out then was that this would be my preferred implementation to read:

def sparse_table_elements(cells, columns, rows):
    ncells = len(cells)
    non_zeros = list()
    for nrow in range(0, ncells, columns):
         row = cells[nrow:nrow+columns]
         for ncol, cell in enumerate(row):
             if cell:
                 non_zeros.append([ncol, nrow, cell])
    return non_zeros

I've not tested it, but I can make sense of it. There are a couple of things that jump out at me as being potential inefficiencies. Recomputing the Cartesian product of two constant monotonically "boring" indices has got to be expensive:

itertools.product(xrange(self.rows), xrange(self.columns))

you then use the results [(0, 0), (0, 1), ...] to do single element indexing from your source:

stream_data[column + row * self.rows]

which is also more costly than handling larger slices as the "Jon's" implementation does.

Generators are not some secret sauce that guarantee efficiency. In this particular case, with 135kb of data that has already been read into core, a poorly constructed generator does seem to be costing you. If you want concise matrix operations, use APL; if you want readable code, don't strive for rabid minimization in Python.

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Furthermore the "single element slicing" you refer to -- what I would simply call indexed access to stream_data -- is actually done twice in the generator/list comp version. –  martineau Jul 23 '12 at 16:53
    
agreed on the terminology; fixed, thanks. –  msw Jul 23 '12 at 17:25
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You can trivially rewrite Jon's solution as a generator:

def create_ZS_data(self):
    self.ZS_data = ([colno, rowno, col]
                    for rowno, cols in enumerate(self.stream_data[i:i+self.columns]
                                                 for i in xrange(0, len(self.stream_data), self.columns))
                    for colno, col in enumerate(cols)
                    if col)

I would strongly expect this to behave the same as Jon's loop-based solution, demonstrating that the difference in performance is down to mid-scale details of algorithm implementation.

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