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I use the following code to log a map, it is fast when it only contains zeroes, but as soon as there is actual data in the map it becomes unbearably slow... Is there any way to do this faster?

log_file = open('testfile', 'w')
for i, x in ((i, start + i * interval) for i in range(length)):
    log_file.write('%-5d %8.3f %13g %13g %13g %13g %13g %13g\n' % (i, x,
        map[0][i], map[1][i], map[2][i], map[3][i], map[4][i], map[5][i]))
share|improve this question
How large is the dataset in map? It might be easier to zip(map[0], map[1], etc...), then loop through the resulting tuples. – Josh Wright Apr 14 '10 at 13:12
are you sure it's due to string formatting and not to write? – Francesco Apr 14 '10 at 13:28
@wich, When I test using zeros vs using randomly generated floats and do this formatting, I get an about 25% difference. It is really hard to imagine having numbers such that you will get an over one hundred fold increase in expense for the formatting operation. Are you positive that the formatting step is the one giving you trouble? Did you profile and if so can you show us the code along with the pstats analysis that shows this is where your problem is? – Mike Graham Apr 14 '10 at 13:41
@Mike Yes I'm sure it takes that long, but on further examination it seems to be an issue with the data structure instead of the formatting. Unfortunately the data structure isn't mine... And yes, the problem is in the formatting step, but looks to be in the reading of the map elements. – wich Apr 14 '10 at 14:00
Why are you using a variable (it seems) named map, when map is a builtin python function? – Warren P Apr 14 '10 at 15:04
up vote 3 down vote accepted

I suggest you run your code using the cProfile module and postprocess the results as described on . This will let you know exactly how much time is spent in the call to str.__mod__ for the string formatting and how much is spent doing other things, like writing the file and doing the __getitem__ lookups for map[0][i] and such.

share|improve this answer

First I checked % against backquoting. % is faster. THen I checked % (tuple) against 'string'.format(). An initial bug made me think it was faster. But no. % is faster.

So, you are already doing your massive pile of float-to-string conversions the fastest way you can do it in Python.

The Demo code below is ugly demo code. Please don't lecture me on xrange versus range or other pedantry. KThxBye.

My ad-hoc and highly unscientific testing indicates that (a) % (1.234,) operations on Python 2.5 on linux is faster than % (1.234,...) operation Python 2.6 on linux, for the test code below, with the proviso that the attempt to use 'string'.format() won't work on python versions before 2.6. And so on.

# this code should never be used in production.
# should work on linux and windows now.

import random
import timeit
import os
import tempfile

start = 0
interval = 0.1

amap = [] # list of lists
tmap = [] # list of tuples

def r():
    return random.random()*500

for i in xrange(0,10000):
        amap.append ( [r(),r(),r(),r(),r(),r()] )

for i in xrange(0,10000):
        tmap.append ( (r(),r(),r(),r(),r(),r()) )

def testme_percent():
    log_file = tempfile.TemporaryFile()
        for qmap in amap:
            s = '%g %g %g %g %g %g \n' % (qmap[0], qmap[1], qmap[2], qmap[3], qmap[4], qmap[5]) 
            log_file.write( s)

def testme_tuple_percent():
    log_file = tempfile.TemporaryFile()
        for qtup in tmap:
            s = '%g %g %g %g %g %g \n' % qtup
            log_file.write( s );

def testme_backquotes_rule_yeah_baby():
    log_file = tempfile.TemporaryFile()
        for qmap in amap:
            s = `qmap`+'\n'
            log_file.write( s );

def testme_the_new_way_to_format():
    log_file = tempfile.TemporaryFile()
        for qmap in amap:
            s = '{0} {1} {2} {3} {4} {5} \n'.format(qmap[0], qmap[1], qmap[2], qmap[3], qmap[4], qmap[5]) 
            log_file.write( s );

# python 2.5 helper
default_number = 50 
def _xtimeit(stmt="pass",  timer=timeit.default_timer,
    """quick and dirty"""
    if stmt<>"pass":
        stmtcall = stmt+"()"
        ssetup = "from __main__ import "+stmt
        stmtcall = stmt
        ssetup = "pass"
    t = timeit.Timer(stmtcall,setup=ssetup)
      return t.timeit(number)

# no formatting operation in testme2

print "now timing variations on a theme"

#times = []
#for i in range(0,10):

n0 = _xtimeit( "pass",number=50)
print "pass = ",n0

n1 = _xtimeit( "testme_percent",number=50);
print "old style % formatting=",n1

n2 = _xtimeit( "testme_tuple_percent",number=50);
print "old style % formatting with tuples=",n2

n3 = _xtimeit( "testme_backquotes_rule_yeah_baby",number=50);
print "backquotes=",n3

n4 = _xtimeit( "testme_the_new_way_to_format",number=50);
print "new str.format conversion=",n4

#        times.append( n);

print "done"    

I think you could optimize your code by building your TUPLES of floats somewhere else, wherever you built that map, in the first place, build your tuple list, and then applying the fmt_string % tuple this way:

for tup in mytups:
    log_file.write( fmt_str % tup )

I was able to shave the 8.7 seconds down to 8.5 seconds by dropping the making-a-tuple part out of the for loop. Which ain't much. The big boy there is floating point formatting, which I believe is always going to be expensive.


Have you considered NOT writing such huge logs as text, and instead, saving them using the fastest "persistence" method available, and then writing a short utility to dump them to text, when needed? Some people use NumPy with very large numeric data sets, and it does not seem they would use a line-by-line dump to store their stuff. See:

share|improve this answer
This approach lumps everything about what's going on together to time, which isn't the most effective way to figure out how time varies with a change. You typically want to isolate just the operations you're looking at. – Mike Graham Apr 14 '10 at 16:11
The tempfile module provides a reliable way to make temporary files without introducing unnecessary interference with existing files or platform dependency. Also, if os.path.exists(...) introduces an unnecessary race condition over just calling os.remove and catching the error and is generally worse form because of it. Also typically bad form is relying on close to be called manually; if you actually want to make sure a file gets closed, use a context manager (with open(afilename1, 'w') as log_file:). The current code will not close the file if there is an exception raised. – Mike Graham Apr 14 '10 at 16:15
Using backticks to call repr is deprecated. It is hard to read and for some people hard to type. All three of your solutions do different things, but this one is especially different from the others. – Mike Graham Apr 14 '10 at 16:16
This is just my hackery in five seconds. Nobody should use this code. In fact it won't work on Unix, at all. :-) – Warren P Apr 14 '10 at 16:17
Your rationale regarding how to time the various options goes against the typical standards used in benchmarking and performance testing and—really—experimental science in general. You don't try to look at the big picture to be precise about one detail; you try to isolate this detail as much as possible. In this case you mash everything together so much the results you get incorrectly conflate the times taken by two tasks, one of which you claim to be timing and the other of which also varies through your options and was the original culprit in the bottleneck. – Mike Graham Apr 14 '10 at 16:27

Without wishing to wade into the optimize-this-code morass, I would have written the code more like this:

log_file = open('testfile', 'w')
x = start
map_iter = zip(range(length), map[0], map[1], map[2], map[3], map[4], map[5])
fmt = '%-5d %8.3f %13g %13g %13g %13g %13g %13g\n'
for i, m0, m1, m2, m3, m4, m5 in mapiter:
    s = fmt % (i, x, m0, m1, m2, m3, m4, m5)
    x += interval

But I will weigh in with the recommendation that you not name variables after python builtins, like map.

share|improve this answer

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