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I have a large file which has an enormous of data in it. I need to extract 3 lines every 5000 or so lines. The format of the data file is as follows:

...

O_sh          9215    1.000000   -2.304400   
 -1.0680E+00  1.3617E+00 -5.7138E+00  
O_sh          9216    1.000000   -2.304400  
 -8.1186E-01 -1.7454E+00 -5.8169E+00  
timestep    501      9216         0         3    0.000500  
   20.54      -11.85       35.64      
  0.6224E-02   23.71       35.64      
  -20.54      -11.86       35.64      
Li               1    6.941000    0.843200
  3.7609E-02  1.1179E-01  4.1032E+00
Li               2    6.941000    0.843200
  6.6451E-02 -1.3648E-01  1.0918E+01

...

What I need is the the three lines after the line that starts with "timestep" so in this case I need the 3x3 array:

   20.54      -11.85       35.64      
  0.6224E-02   23.71       35.64      
  -20.54      -11.86       35.64  

in an output file for each time the word "timestep" appears.

Then I need the average of all those arrays in just one array. Just one array consisting of the average value of each element in the same position in every array for the whole file. I've been working on this for a while, but I haven't been able to extract the data correctly yet.

Thanks so much, and this is not for homework. You're advice will be helping the progress of science! =)

Thanks,

share|improve this question
    
Is this a homework assignment? Is regex a requirement, or just the first approach you've tried? –  g.d.d.c May 9 '11 at 16:19

5 Answers 5

up vote 1 down vote accepted

I'd suggest using a coroutine (which is basically a generator that can accept values, if you are unfamiliar) to keep a running average as you iterate over your file.

def running_avg():
    count, sum = 0, 0
    value = yield None
    while True:
        if value:
            sum += value
            count += 1
        value = yield(sum/count)

# array for keeping running average
array = [[running_avg() for y in range(3)] for x in range(3)]

# advance to first yield before we begin
[[elem.next() for elem in row] for row in array]

with open('data.txt') as f:
    idx = None
    for line in f:
        if idx is not None and idx < 3:
            for i, elem in enumerate(line.strip().split()):
                array[idx][i].send(float(elem))
            idx += 1
        if line.startswith('timestep'):
            idx = 0

To get a convert array into a list of averages, just call each coroutine next method, it'll return current average:

averages = [[elem.next() for elem in row] for row in array]

And you'd get something like:

averages = [[20.54, -11.85, 35.64], [0.006224, 23.71, 35.64], [-20.54, -11.86, 35.64]]
share|improve this answer
    
I'm not entirely sure what happened here, but you're converting the 3x3 arrays into 9x1 lists then taking the average of the entire list, which is not exactly what I need. Instead I need each of those lists added up and then each element of that list divided by the number of samples. –  Maimon May 9 '11 at 18:39
    
Oh I misunderstood then, I was going off what you said in a comment on another answer. I'll update my answer to reflect that. –  zeekay May 9 '11 at 18:45
    
@Maimon I'm averaging each line in the file that is part of the "array". Thus using your example data you'd get 3 lines of averages written out. Is that what you were trying to do? –  zeekay May 9 '11 at 18:54
    
@zeekay I'm sorry, I'm having a bit of trouble making myself clear. What I have here is a file with 1000 (or so) 3x3 arrays. Each array comes after the 'timestep' line. What I want is a single 3x3 array that consists of the average value for each element in those 1000 arrays. Looking like this: [[avg(a),avg(b),avg(c)],[avg(d),avg(e),avg(f],[avg(g),avg(h),avg(i)]] –  Maimon May 9 '11 at 19:05
    
Ah, ok, updated back to the old code, averaging as you iterate through the lines in the file, appending each row in the array to a defaultdict keyed to the index of the array. –  zeekay May 9 '11 at 19:26

Assuming this is not homework, I think regex is overkill for the problem. If you know that you need three lines after one starts with 'timestep' why not approach the problem this way:

Matrices = []

with open('data.txt') as fh:
  for line in fh:
    # If we see timestep put the next three lines in our Matrices list.
    if line.startswith('timestep'):
      Matrices.append([next(fh) for _ in range(3)])

Per the comments - you use next(fh) in this situation to keep the file handle in sync when you want to pull the next three lines from it. Thanks!

share|improve this answer
1  
The idea is right, but using while True/readline/break is the wrong way. Just use for line in fh:. –  Daniel Roseman May 9 '11 at 16:28
    
Won't using for line in fh: have trouble when you attempt to read 3 lines within the loop? Or does the for loop not care that the file handle position has advanced since it's previous iteration? –  g.d.d.c May 9 '11 at 16:30
1  
- Call next(fh) instead of fh.readline() to keep things in synch. –  Joe Kington May 9 '11 at 20:23

Okay, so you can do this:

Algorithm:

Read the file line by line
if the line starts with "timestep":
    read the next three lines
    take the average as needed

Code:

def getArrays(f):
    answer = [[0, 0, 0], [0, 0, 0], [0, 0, 0]]
    count = 0
    line = f.readline()
    while line:
        if line.strip().startswith("timestep"):
            one, two, three = getFloats(f.readline().strip()), getFloats(f.readline().strip()), getFloats(f.readline().strip())
            answer[0][0] = ((answer[0][0]*count) + one[0])/(count+1)
            answer[0][1] = ((answer[0][0]*count) + one[1])/(count+1)
            answer[0][2] = ((answer[0][0]*count) + one[2])/(count+1)

            answer[1][0] = ((answer[0][0]*count) + two[0])/(count+1)
            answer[1][1] = ((answer[0][0]*count) + two[1])/(count+1)
            answer[1][2] = ((answer[0][0]*count) + two[2])/(count+1)

            answer[2][0] = ((answer[0][0]*count) + three[0])/(count+1)
            answer[2][1] = ((answer[0][0]*count) + three[1])/(count+1)
            answer[2][2] = ((answer[0][0]*count) + three[2])/(count+1)
        line = f.readline()
        count += 1
    return answer

def getFloats(line):
    answer = []
    for num in line.split():
        if "E" in num:
            parts = num.split("E")
            base = float(parts[0])
            exp = int(parts[1])
            answer.append(base**exp)
        else:
            answer.append(float(num))
    return answer

answer is now a list of all the 3x3 arrays. I don't know how you want to do the averaging, so if you post that, I can incorporate it into this algorithm. Else, you can write a function to take my array and compute the averages are required.

Hope this helps

share|improve this answer
    
I just need a straight elementwise averaging, preferably printed to a separate file. –  Maimon May 9 '11 at 16:38
    
Using this code, does anyone know how to get the average 3x3 array of this collection of all the arrays? –  Maimon May 9 '11 at 17:12
    
@Maimon: so if you have a 3x3 array that looks like this: [[a,b,c],[d,e,f],[g,h,i]], what would the result of the result of the averaging look like? –  inspectorG4dget May 9 '11 at 17:19
    
the result of the averaging would be a 3x3 array, what I have here is a collection of 3x3 arrays, each being of the format [[a,b,c],[d,e,f],[g,h,i]], what I need is each of those elements added up separately so that I have an array. I can then divide each element of that summed array by the number of samples. –  Maimon May 9 '11 at 18:36
    
So if you had an array that looks like this: [[a1,b1,c1],[d1,e1,f1],[g1,h1,i1], [a2,b2,c2],[d2,e2,f2],[g2,h2,i2], [a3,b3,c3],[d3,e3,f3],[g3,h3,i3]], then would this be the result: [[avg(a1, b1, c1), avg(d1, e1, f1), avg(g1, h1, i1)], [avg(a2, b2, c2), avg(d2, e2, f2), avg(g2, h2, i2)], [avg(a3, b3, c3), avg(d3, e3, f3), avg(g3, h3, i3)]]? –  inspectorG4dget May 9 '11 at 18:49

Building on inspectorG4dget's and g.d.d.c's posts, here's a version that should do the reading, parsing, and averaging. Please point out my bugs! :)

    def averageArrays(filename):
        # initialize average variables then,
        # open the file and iterate through the lines until ...
        answer, count = [[0.0]*3 for _ in range(3)], 0
        with open(filename) as fh:
            for line in fh:
                if line.startswith('timestep'):  # ... we find 'timestep'!
                    # so , we read the three lines and sanitize them
                    # conversion to float happens here, which may be slow
                    raw_mat = [fh.next().strip().split() for _ in range(3)]
                    mat = []
                    for row in raw_mat:
                        mat.append([float(item) for item in row])
                    # now, update the running average, noting overflows as by
                    # http://invisibleblocks.wordpress.com/2008/07/30/long-running-averages-without-the-sum-of-preceding-values/
                    # there are surely more pythonic ways to do this
                    count += 1
                    for r in range(3):
                        for c in range(3):
                            answer[r][c] += (mat[r][c] - answer[r][c]) / count
        return answer
share|improve this answer
    
I get this error when your code is run: File "cell_vector_extract1.py", line 23, in <module> averageArrays(history) File "cell_vector_extract1.py", line 5, in averageArrays with open(filename) as fh: TypeError: coercing to Unicode: need string or buffer, file found –  Maimon May 9 '11 at 18:30
    
filename should be a string of the filename. So, 'history.dat' might be it. –  Prashant Kumar May 9 '11 at 21:17
import re
from itertools import imap

text = '''O_sh          9215    1.000000   -2.304400
 -1.0680E+00  1.3617E+00 -5.7138E+00
O_sh          9216    1.000000   -2.304400
 -8.1186E-01 -1.7454E+00 -5.8169E+00
timestep    501      9216         0         3    0.000500
   20.54      -11.85       35.64
  0.6224E-02   23.71       35.64
  -20.54      -11.86       35.64
Li               1    6.941000    0.843200
  3.7609E-02  1.1179E-01  4.1032E+00
Li               2    6.941000    0.843200
  6.6451E-02 -1.3648E-01  1.0918E+01
O_sh          9215    1.000000   -2.304400
 -1.0680E+00  1.3617E+00 -5.7138E+00
O_sh          9216    1.000000   -2.304400
 -8.1186E-01 -1.7454E+00 -5.8169E+00
timestep    501      9216         0         3    0.000500
   80.80      -14580       42.28
  7.5224E-01   777.1       42.28
  140.54      -33.86       42.28
Li               1    6.941000    0.843200
  3.7609E-02  1.1179E-01  4.1032E+00
Li               2    6.941000    0.843200
  6.6451E-02 -1.3648E-01  1.0918E+01'''

lin = '\r?\n{0}*({1}+){0}+({1}+){0}+({1}+){0}*'
pat = ('^timestep.+'+3*lin).format('[ \t]','[.\deE+-]')
regx = re.compile(pat,re.MULTILINE)

def moy(x):
    return sum(map(float,x))/len(x)

li = map(moy,zip(*regx.findall(text)))
n = len(li)
g = iter(li).next
res = [(g(),g(),g()) for i in xrange(n//3)]
print res

result

[(50.67, -7295.925, 38.96), (0.379232, 400.40500000000003, 38.96), (60.0, -22.86, 38.96)]
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