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I have 22 FITS files that have the same field/column names. I load them using pyfits like for example:

hdulist1 ='/home/ssridhar/mock_test_files/Roncarelli_test/roncarelli_dist_halo1.fits')
hdulist2 ='/home/ssridhar/mock_test_files/Roncarelli_test/roncarelli_dist_halo2.fits')

then I load the table data for the 22 files likewise

tbdata1 = hdulist1[1].data
tbdata2 = hdulist2[1].data

Since all the field names are the same I say

fields = ['ra','dec','zcosmo','r200','m200','is_central','r']

and assign variables from 1 to 22 (var1, var2 etc) to the fields like:

var1 = dict((f, tbdata1.field(f)) for f in fields)
var2 = dict((f, tbdata2.field(f)) for f in fields)

Now I use np.histogram to find some values for the 22 files likewise:

N_1, r_hist_1 = np.histogram(var1['r'], bins=20, range=None, normed=False, weights=None)
N_2, r_hist_2 = np.histogram(var2['r'], bins=20, range=None, normed=False, weights=None)

Now I find out using the formula the value for variables I name sigma_num_1, sigma_num_2 for the different files likewise:

dist_1 = r_hist_1[1]
area_1 = [math.pi*(R**2-r**2) for R, r in zip(dist_1[1:], dist_1)]
sigma_num_1 = N_1/area_1

The code is working fine and gives me the results for sigma_num_1, sigma_num_2 etc..

I don't want to write the above three lines for each of the 22 files to find say sigma_num_3 to sigma_num_22. Is there a way to do it. After finding all the 22 values of sigma, I need to find the mean of all these 22 values.

share|improve this question
Consider creating a list of input files. – devnull Feb 19 '14 at 13:29
Do you know what functions are? – BlackBear Feb 19 '14 at 13:29
@BlackBear yes. But I don't know how to use functions to shorten this – ThePredator Feb 19 '14 at 13:32
@devnull could you pls elucidate more? – ThePredator Feb 19 '14 at 13:39

5 Answers 5

up vote 2 down vote accepted

You don't need to give a variable name to every single value. You can use a data structure to store all of your values while giving you a convenient way to reference each value. The trick is to abstract the parts that change between different occurrences of the same kind of variable, e.g., what's different between hdulist1 and hdulist2.

For instance, you can create your hdulists by putting them into a list, and forming each open statement by using the format method of strings:

hdulists = []
for n in range(1, 23):   # range is exclusive so you get 1-22

This could also be done in a list comprehension:

hdulists = [
            ) for n in range(1, 23)]

Now, the only thing you'll need to keep in mind is that python lists start from index 0, so you will refer to what used to be hdulist1 as hdulists[0], and so on.

But you could just get smarter and do all of these steps at once inside of a function which will return the results you want. Then run that function for each of your .fits files.

def sigma_num(n):
    fields = ['ra','dec','zcosmo','r200','m200','is_central','r']
    hdulist =
    var = dict((f, hdulist[1].data.field(f)) for f in fields)
    N, r_hist = np.histogram(var['r'], bins=20, range=None, normed=False, weights=None)
    area = [math.pi*(R**2-r**2) for R, r in zip(r_hist[1:], r_hist)]
    return N/area

And now you can just call sigma_num(3) and sigma_num(22) to get what you used to call sigma_num_3 and sigma_num_22.

To find the average, you can use the technique I set out before for iterating over a range:

sigma_nums = []
for n in range(1, 23):
avg_sigma_num = sum(sigma_nums)/len(sigma_nums)

sum and len are builtin functions. You can also abstract the above into a list comprehension, or even better, a function.

Edit: since you asked to have the tbdatas available separately, separate that part of the function into a helper function. The sigma_num can call the helper function:

def tbdata(n):
    """ helper function """
    hdulist =
    return hdulist[1].data

def sigma_num(n):
    fields = ['ra','dec','zcosmo','r200','m200','is_central','r']
    tbdata = tbdata(n)
    var = dict((f, tbdata.field(f)) for f in fields)
    N, r_hist = np.histogram(var['r'], bins=20, range=None, normed=False, weights=None)
    area = [math.pi*(R**2-r**2) for R, r in zip(r_hist[1:], r_hist)]
    return N/area
share|improve this answer
Thank you very much! But to see my 'ra', 'dec' seperately for each file, I used to say var1['ra'] which would give it. But now how should I see it? – ThePredator Feb 19 '14 at 13:54
@srivatsan What do you mean? Why should you care? It's an intermediate step in your computation of the sigma_nums. – 2rs2ts Feb 19 '14 at 13:58
I just wanted to know if I could see my table column values for each file as I could before. – ThePredator Feb 19 '14 at 14:00
@srivatsan What do you mean by "see"? Are you trying to print these values or save them to a file? – 2rs2ts Feb 19 '14 at 14:03
Sure. Separate the function into two parts. Let me edit to show you how. – 2rs2ts Feb 19 '14 at 14:11

Use lists and loops.

hdulist = []
fits_path= '/home/ssridhar/mock_test_files/Roncarelli_test/roncarelli_dist_halo%i.fits'
for number in range(1,23):
    hdulist.append( % number)
tbdata = [hdu[1].data for hdu in hdulist]


share|improve this answer

Basically for each file you want to compute 'sigma'. So you can create a function that takes file as parameter and returns you the 'sigma'.

You could store all files in a list and call this function when looping over the list. You could store the 'sigmas' in another list. Something like:

>>> def sigma(file):
...     pass
>>> files = ["a", "b"]
>>> sigmas = []
>>> for f in files:
...     sigmas.append(sigma(f)
>>> sigmas
[None, None]
share|improve this answer
OP said he knows what a function is, so obviously his problem is seeing how to use them to abstract his algorithm. This is useless. – 2rs2ts Feb 19 '14 at 13:50

First, create a function to process a single file and compute its sigma

def find_sigma(n):
    fields = ['ra','dec','zcosmo','r200','m200','is_central','r']
    hdulist ='/home/ssridhar/mock_test_files/Roncarelli_test/roncarelli_dist_halo%d.fits' % n)
    tbdata = hdulist[1].data
    var = dict((f, tbdata.field(f)) for f in fields)
    N, r_hist = np.histogram(var['r'], bins=20, range=None, normed=False, weights=None)
    dist = r_hist[1]
    area = [math.pi*(R**2-r**2) for R, r in zip(dist[1:], dist)]
    sigma_num = N/area

    return sigma_num

Then simply use list comprehension to find the average value:

average_sigma = sum([find_sigma(i) for i in range(1, 23)]) / 23.0
share|improve this answer

Use a nested dictionary, assign it 22 keys, and store each of your data points as sub dictionaries in the main dictionary.


main_data = {}
for i in range(0,22):
  main_data['hdulist_{0}'.format(i)] ='/home/ssridhar/mock_test_files/Roncarelli_test/roncarelli_dist_halo{0}.fits'.format(i))
share|improve this answer
could you elucidate more? – ThePredator Feb 19 '14 at 13:29
If all keys are simply named somestring_[n] where [n] is a counter, it does not make any sense to put the data in a dict - you can just use a list. – l4mpi Feb 19 '14 at 13:33
@DhruvPathak Now how should I access the files seperately using main_data?? – ThePredator Feb 19 '14 at 13:36
@srivatsan main_data['hdulist_1'] etc. – 2rs2ts Feb 19 '14 at 13:51

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