I am using cygwin on Windows 7. I have a directory with all text files and I want to loop through it and save the data from the second column of the first three rows for each of the file (1,2) (2,2) and (3,2).

So, the code would be something like

  x1[0]=awk 'FNR == 1{print $2}'$file1

  x1[1]=awk 'FNR == 2{print $2}'$file1

  x1[2]=awk 'FNR == 3{print $2}'$file1

Then I want to use the divide by 100 of $x1 plus 1 to access data from other file and store it in the array. So that's:

let x1[0]=$x1[0]/100 + 1 

let x1[1]=$(x1[1]/100)+1

let x1[2]=$(x1[2]/100)+1

read1=$(awk 'FNR == '$x1[0]' {print $1}' $file2) 

read2=$(awk 'FNR == '$x1[1]' {print $1}' $file2)

read3=$(awk 'FNR == '$x1[2]' {print $1}' $file2)

Do the same thing for another file, except we don't need $x1 for this.

read4=$(awk 'FNR == 1{print $3,$4,$5,$6}' $file3) 

Finally, just output all these values to a file i.e. read1-4

Need to do this in a loop for all the files in the folder, not quite sure how to go about that.The tricky part is that the filename of $file3 depends on the filename of $file1,

so if $file1 = abc123def.fna.map.txt

$file3 would be abc123def.fna

$file2 is hardcoded in it and stays the same for all the iterations.

file1 is a .txt file and a part of it looks like:

 99 58900
 16 59000
 14 73000

file2 contains 600 lines of strings.


'file3' is FASTA file and the first two lines look like this

>gi|94986445|ref|NC_008011.1| Lawsonia intracellularis PHE/MN1-00, complete genome

The output can just write all the 4 reads to a random file or if possible can compare read1,read2,read3 and if it matches read4 i.e. the main name should match. In my example:

None of read1-3 match with Lawsonia intracellularis which is a part of read4. So it can just print success or failture to the file.



Lawsonia intracellularis


Sorry I was wrong about the 6 reads, just need 4 actually. Thanks for the help again.

  • In this line you are missing the character ` IT should be x1[0]=awk 'FNR == 1{print $2}'$file1 Better you post the full code so that i can comment on it – Raghuram Mar 16 '12 at 3:40
  • Better yet, show us 3 lines from 3 files with correct values for $1 AND then the expected output. Unless you're hiding a lot of other stuff, its almost certain this can be done in 1 awk program. Good luck. – shellter Mar 16 '12 at 3:48
  • 2
    AND ;-)... you're actually getting usable data with your first 3 lines of code x1[0]=awk ...? You're using cmd substitution later on, don't you want x1[0]=$(awk ...) for those first lines? AND the let x1[0] line is different than the following 2 lines. Good luck. – shellter Mar 16 '12 at 3:51
  • I added the sample input files and the output!Thanks for your help! – dawnoflife Mar 16 '12 at 4:02
  • Sorry, but I don't see anything that is labeled output that looks like a sample of the output you are describing. Output should be like fld1Val<T>fld2Val<T>fld3Val for 2 or 3 lines to show the variations in your input. Good luck. – shellter Mar 16 '12 at 4:12
up vote 2 down vote accepted

This problem can be solved with TXR: http://www.nongnu.org/txr

Okay, I have these sample files (not your inputs, unfortunately):

$ ls -l
total 16
-rwxr-xr-x 1 kaz kaz 1537 2012-03-18 20:07 bac.txr           # the program
-rw-r--r-- 1 kaz kaz  153 2012-03-18 19:16 foo.fna           # file3: genome info
-rw-r--r-- 1 kaz kaz   24 2012-03-18 19:51 foo.fna.map.txt   # file1
-rw-r--r-- 1 kaz kaz  160 2012-03-18 19:56 index.txt         # file2: names of bacteria

$ cat index.txt 

$ cat foo.fna.map.txt   # note leading spaces: typo or real?
 13 000
 19 100
 7  200

$ cat foo.fna
gi|94986445|ref|NC_008011.1| Lawsonia intracellularis PHE/MN1-00, complete genome

As you can see, I cooked the data so there will be a match on the Lawsonia.

Run it:

$ ./bac.txr foo.fna.map.txt 

Code follows. This is just a prototype; obviously it has to be developed and tested using the real data. I've made some guesses, like what the Lawsonia entry would look like in the index with the code attached to it.

#!/usr/local/bin/txr -f
@;;; collect the contents of the index fileo
@;;; into the list called index.
@;;; single quotes around lines are removed
@  (next "index.txt")
@  (collect)
@  (end)
@;;; filter underscores to spaces in the index
@(set index @(mapcar (op regsub #/_/ " ") index))
@;;; process files on the command line
@(next :args)
@;;; each command line argument has to match two patterns
@;;; @file1 takes the whole thing
@;;; @file3 matches the part before .map.txt
@  (all)
@  (and)
@  (end)
@;;; go into file 1 and collect second column material
@;;; over three lines into lineno list.
@  (next file1)
@  (collect :times 3)
 @junk @lineno
@  (end)
@;;; filter lineno list through a function which
@;;; converts to integer, divides by 100 and adds 1.
@  (set lineno @(mapcar (op + 1 (trunc (int-str @1) 100))
@;;; map the three line numbers to names through the
@;;; index, and bind these three names to variables
@  (bind (name1 name2 name3) @(mapcar index lineno))
@;;; now go into file 3, and extract the name of the
@;;; bacterium there, and the genome from the 2nd line
@  (next file3)
@a|@b|@c|@d| @name, complete genome
@;;; if the name matches one of the three names
@;;; then output the name and genome, otherwise
@;;; output failed
@  (cases)
@    (bind name (name1 name2 name3))
@    (output)
@name @genome
@    (end)
@  (or)
@    (output)
@    (end)
@  (end)

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