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I have this list:

dCF3v=[[(1.90689635276794, -44704.76171875)],
       [(1.90689635276794, -44705.76171875)],
       [(1.90689635276794, -44706.76171875)],
       [(1.90689635276794, -44707.76171875)]

I'd like to compare the second element of each tuple and find the absolute maximum:


My code looks like:

for x in dCF3v:
    if abs(x[1])>abs(CF3):
share|improve this question
You should use a nested for loop, like you said or have a look at that maybe: stackoverflow.com/questions/952914/… and the flatten function: rightfootin.blogspot.de/2006/09/more-on-python-flatten.html –  User May 2 '13 at 14:46

6 Answers 6

up vote 3 down vote accepted

You have a list which holds lists which hold a tuple. So, you probably want abs(x[0][1]).
Then you command can simply be:

max(abs(x[0][1]) for x in dCF3v)

More to the point, you probably actually want to change the data structure to a list holding tuples:

dCF3v = [x[0] for x in dCF3v]

which then would look like:

max(abs(x[0]) for x in dCF3v)

Or, if you wanted the entire tuple to be returned instead of just the second element:

max(dCF3v,key=lambda x:abs(x[0]))
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Why didn't I remember to do this.... Thanks! –  jpcgandre May 2 '13 at 14:49
Very succinct and pythonic answer, nicely done +1 –  HennyH May 2 '13 at 15:00
yeah after he ripped mine off haha –  Matt Williamson May 2 '13 at 15:11
@jpcgandre -- something like max(dCf3v,key=max) if I understand you correctly. If you still want absolute values, it's a little trickier: max(dCf3v,key=lambda row:max(abs(item) for item in row)) –  mgilson May 2 '13 at 15:15
Timing: stackoverflow.com/a/16341411/1561176 –  Inbar Rose May 2 '13 at 15:25

It's because you have a list of lists of tuples, not just a list of tuples. Please consider the following code, or you can just change your x[1] to x[0][1].

>>> max(abs(x[0][1]) for x in dCF3v)

This uses a built in function max which picks the largest element in an iterable and a generator to map the abs function to each element which will keep it quick and memory efficient.

share|improve this answer
Note that your inner parenthesis are unnecessary (although they don't hurt anything either). –  mgilson May 2 '13 at 14:51
Just for clarity that we are looking at a generator, but yes. –  Matt Williamson May 2 '13 at 14:52
max(map(lambda t: abs(t[1]),chain(*dCF3v))))


max(map(lambda t: abs(t[1]),chain.from_iterable(dCF3v)))


print([abs(t[1]) for t in list(chain(*dCF3v))])


[(1.90689635276794, -44706.76171875), (1.90689635276794, -44706.76171875), (1.90689635276794, -44706.76171875), (1.90689635276794, -44706.76171875)]
[44706.76171875, 44706.76171875, 44706.76171875, 44706.76171875]
share|improve this answer
Really? This seems much too complicated and you lost the absolute value ... (also, use chain.from_iterable(dCF3v) rather than chain(*dCF3v)) –  mgilson May 2 '13 at 14:54
@mgilson good point, I'll work on that –  HennyH May 2 '13 at 14:55

Use the max function for this, it's perhaps the most straightforward solution:

max(dCF3v, key=lambda x: abs(x[0][1]))[0][1]
=> -44706.76171875
share|improve this answer
You lost the absolute value. Additionally, this will return the entire list containing the tuple with the maximal second element (rather than just the maximal second element) –  mgilson May 2 '13 at 14:55
@mgilson you're right, fixed it. thanks! –  Óscar López May 2 '13 at 14:57

My attempt is to help you get the fastest, and most readable version possible. To do so my suggestion is to first create a generator which will yield the values you want. And then to perform the builtin max() function on this generator. The reason this is faster/more efficient is almost the same as embedding the generator inside the max() function, only using local variables is faster in Python than using global ones, once the max() function does not have to lookup indexes like x[0][1] it is faster.

vals = (abs(x[0][1]) for x in dCF3v)
print max(vals)


I timed the difference between mine and mgilsons answer using the following code:

import time
dCF3v = [[(1.90689635276794, -44706.76171875)], [(1.90689635276794, -44706.76171875)], [(1.90689635276794, -44706.76171875)], [(1.90689635276794, -44706.76171875)]]

def method_inbar(l):
    vals = (abs(x[0][1]) for x in l)

def method_mgilson(l):
    max(abs(x[0][1]) for x in l)

def timer(multiplier=[1,10,100,1000]):
    for m in multiplier:
        print "timing the speed using multiplier: %s" % m
        now = time.time()
        for i in range(100000):
        print "inbar's method: %r" % (time.time() - now)
        now = time.time()
        for i in range(100000):
        print "mgilson's method: %r" % (time.time() - now)


This will run the test each time on a larger set of data:

timing the speed using multiplier: 1
inbar's method: 0.18899989128112793
mgilson's method: 0.192000150680542
timing the speed using multiplier: 10
inbar's method: 0.8540000915527344
mgilson's method: 0.8229999542236328
timing the speed using multiplier: 100
inbar's method: 7.287999868392944
mgilson's method: 7.45199990272522
timing the speed using multiplier: 1000
inbar's method: 71.42099976539612
mgilson's method: 77.18499994277954

As you can see, on larger amounts of data. It is faster. The only reason is is slower is because it takes time to initiate vals, and since I run the functions many, many times, it seems much slower, but if you are running this only once, then you should feel no difference for smaller data sets, but you should feel a large difference for large data sets. (a few seconds at only 1000 times)

share|improve this answer
I'm not buying that this is any faster than max(abs(x[0][1]) for x in dCF3v) ... Can you show any proof? How does this avoid the max function looking up indices like x[0][1]? Ultimately, when it gets to the max function, doesn't the generator object look exactly the same? –  mgilson May 2 '13 at 15:08
I will put up some timers in a moment. –  Inbar Rose May 2 '13 at 15:10

Simply do

dCF3v=[[(1.90689635276794, -44706.76171875)],
       [(1.90689635276794, -44706.76171875)],
       [(1.90689635276794, -44706.76171875)],
       [(1.90689635276794, -44706.76171875)]

M = max([x[0][1] for x in dCF3v])
share|improve this answer
This is probably one of the slowest answers. Since you are creating a list first. Use a generator instead. –  Inbar Rose May 2 '13 at 15:03

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