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I have two files: File A looks like

ProbeID rsID    chr bp  strand  alleleA alleleB
SNP_A-1780270   rs987435    7   78599583    -   C   G
SNP_A-1780271   rs345783    15  33395779    -   C   G
SNP_A-1780272   rs955894    1   189807684   -   G   T
SNP_A-1780274   rs6088791   20  33907909    -   A   G
SNP_A-1780277   rs11180435  12  75664046    +   C   T
SNP_A-1780278   rs17571465  1   218890658   -   A   T
SNP_A-1780283   rs17011450  4   127630276   -   C   T
SNP_A-1780285   rs6919430   6   90919465    +   A   C
SNP_A-1780286   rs41528453  --- --- --- A   G
SNP_A-1780287   rs2342723   16  5748791 +   C   T

and File B looks like

ProbeID call
SNP_A-1780270   2
SNP_A-1780271   0
SNP_A-1780272   2
SNP_A-1780274   1
SNP_A-1780277   0
SNP_A-1780278   2
SNP_A-1780283   2
SNP_A-1780285   2
SNP_A-1780286   0
SNP_A-1780287   0

I want an output that looks like:

ProbeID call    genotype
SNP_A-1780270   2   G G
SNP_A-1780271   0   C C
SNP_A-1780272   2   T T 
SNP_A-1780274   1   A G
SNP_A-1780277   0   C C
SNP_A-1780278   2   T T
SNP_A-1780283   2   T T 
SNP_A-1780285   2   C C
SNP_A-1780286   0   A A
SNP_A-1780287   0   C C

Essentially, this matches the ProbeID in the two lists and in File B, checks the corresponding "call" value from call column. When call = 0 , prints the value of alleleA twice in adjacent column. When call = 1, prints the value of alleleA and alleleB. When call =2, prints the value of alleleB twice.

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3 Answers

up vote 0 down vote accepted

Using pandas:

import pandas as pd
import re

A = pd.read_csv('FileA', delimiter = r'\s+')
B = pd.read_csv('FileB', delimiter = r'\s+')
A = A.set_index(['ProbeID'])
B = B.set_index(['ProbeID'])
C = pd.concat([A,B], axis = 1)

idx = C['call'] == 0
C['alleleB'][idx]  = C['alleleA'][idx]
idx = C['call'] == 2
C['alleleA'][idx]  = C['alleleB'][idx]
print(C[['call', 'alleleA', 'alleleB']])

yields

               call alleleA alleleB
ProbeID                            
SNP_A-1780270     2       G       G
SNP_A-1780271     0       C       C
SNP_A-1780272     2       T       T
SNP_A-1780274     1       A       G
SNP_A-1780277     0       C       C
SNP_A-1780278     2       T       T
SNP_A-1780283     2       T       T
SNP_A-1780285     2       C       C
SNP_A-1780286     0       A       A
SNP_A-1780287     0       C       C

If you have many Bfiles, you might use something like this:

import pandas as pd
import re

A = pd.read_csv('FileA', delimiter = r'\s+')
A = A.set_index(['ProbeID'])

BFiles = ['FileB1', 'FileB2', 'FileB3']
for i, bfile in enumerate(BFiles):
    B = pd.read_csv('FileB', delimiter = r'\s+')
    B = B.set_index(['ProbeID'])
    C = pd.concat([A,B], axis = 1)

    idx = C['call'] == 0
    C['alleleB'][idx]  = C['alleleA'][idx]
    idx = C['call'] == 2
    C['alleleA'][idx]  = C['alleleB'][idx]
    cfile = 'FileC{i}'.format(i = i)
    with open(cfile, 'w') as f:
        f.write(C[['call', 'alleleA', 'alleleB']])

Change cfile to whatever is appropriate.

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At some point, I should learn to use this magical pandas that I have heard so much about ... –  mgilson Dec 13 '12 at 14:49
    
@mgilson: I'm just learning it myself. It's been quite fun and potentially useful. –  unutbu Dec 13 '12 at 15:28
    
@unutbu I tried using this when I had the information stored in files, but could not get any success. Also, how can this be done if there are many FileB for which I want to do this and output each time in a different file ? –  jules Dec 17 '12 at 8:35
    
@jules: The file uses a variable number of spaces to separate the data. Fortunately, pandas.read_csv can accept a regex pattern as the delimiter. So you can read FileA into a DataFrame using pd.read_csv('FileA', delimiter = r'\s+'). –  unutbu Dec 17 '12 at 11:55
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You can probably accomplish this pretty easily using nested dictionaries:

data = {}
with open(fileA) as fA:
    header = next(fA).split()
    attributes = header[1:]
    for line in fA:
        lst = line.split()
        data[lst[0]] = dict(zip(attributes,l[1:])

with open(fileB) as fB:
    header = next(fB).split()
    for line in fB:
        ID,call = line.split()
        data[ID]['call'] = int(call)

Now you can just iterate through your data and print only the stuff you need.

Alternatively, you could probably do your processing 1 line at a time using itertools.izip if the lines correspond exactly (or just plain zip if using python 3):

import itertools as it:

with open(fileA) as fA,open(fileB) as fB:
    header_a = next(fA).split()
    header_b = next(fB).split()
    attrib_a = header_a[1:]
    attrib_b = header_b[1:]
    for line_a,line_b in it.izip(fA,fB):
        dat_a = line_a.split()
        dat_b = line_b.split()
        assert(dat_a[0] == dat_b[0])  #make sure they're the same ID
        dat = dict(zip(attrib_a,dat_a[1:]))
        dat.update(zip(attrib_b,dat_b[1:]))
        if (dat['call'] == '0'):
           print dat_a[0],dat['call'],dat['alleleA'],dat['alleleA']

        elif (dat['call'] == '1'):
           print dat_a[0],dat['call'],dat['alleleA'],dat['alleleB']

        elif (dat['call'] == '2'):
           print dat_a[0],dat['call'],dat['alleleB'],dat['alleleB']

        else:
             raise AssertionError("Unknown call")
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I tried using the second one when I have many files that can be classified into the fileB. Essentially I used import glob list = glob.glob('./*.txt') for file_name in list: However I get an error header_b = next(fB).split() StopIteration How can I work this out? –  jules Dec 17 '12 at 8:41
    
@jules -- As far as I can tell, that means that one of the files is completely empty. You could put it in a try/except clause: docs.python.org/2/tutorial/errors.html#handling-exceptions -- In this case you would use except StopIteration: continue which should continue your for loop over the files and just not do anything with the one that was a problem. –  mgilson Dec 17 '12 at 12:06
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Here's an R solution.

my.data <- merge(df1, df2, by = "ProbeID")

# select rows based on call
zero <- my.data$call == 0
one <- my.data$call == 1
two <- my.data$call == 2

# subset rows based on previous condition and calculate genotype
my.data[zero, "genotype"] <- paste(my.data$alleleA[zero], my.data$alleleA[zero], sep = " ")
my.data[one, "genotype"] <- paste(my.data$alleleA[one], my.data$alleleB[one], sep = " ")
my.data[two, "genotype"] <- paste(my.data$alleleB[two], my.data$alleleB[two], sep = " ")

my.data[, c("ProbeID", "call", "genotype")]


        ProbeID call genotype
1  SNP_A-1780270    2      G G
2  SNP_A-1780271    0      C C
3  SNP_A-1780272    2      T T
4  SNP_A-1780274    1      A G
5  SNP_A-1780277    0      C C
6  SNP_A-1780278    2      T T
7  SNP_A-1780283    2      T T
8  SNP_A-1780285    2      C C
9  SNP_A-1780286    0      A A
10 SNP_A-1780287    0      C C
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