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I have a file f1:

line1
line2
line3
line4
..
..

I want to delete all the lines which are in another file f2:

line2
line8
..
..

I'm unable to think anything. I tried something with cat and sed, which wasn't even close to what I intended. Please help.

EDIT

Thanks everyone. I used:

grep -v -i -f f2 f1 > f3

There were few things that I didn't mentioned:

  1. Some of the lines had \ in it, so I had to replace all \ by \\ in f2. No big deal.
  2. The files were windows files, so grep treated them as binaries and I didn't use -x option.
  3. I wanted a case-insensitive compare, so used -i.
  4. I wanted to write the op to f3.
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3  
Don't add your own answer as an edit to your question. Add it as a separate answer. –  Kazark Mar 14 '13 at 17:31
    
possible duplicate of Remove Lines from File which appear in another File –  Sven Hohenstein Mar 15 '13 at 11:15
2  
Add -F to use lines as strings, not patterns, in this case you don't need to replace \ by \\. –  kan Aug 11 '13 at 14:11

8 Answers 8

up vote 35 down vote accepted

grep -v -x -f f2 f1 should do the trick.

With some explanations:

  • -v for select non-matching lines
  • -x for matching whole lines only
  • -f f2 to get patterns from f2.
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11  
This has O(n²) complexity and will start to take hours to complete once the files contain more than a few K lines. –  arnaud576875 Jan 24 '11 at 10:59
2  
Figuring out which SO suggested algorythms have O(n^2) complexity only has O(n) complexity, but can still take hours to compete. –  HDave Jul 18 '12 at 13:45
    
This made my MacBook Air fan turn on, but for a one-off brute force works for me. –  gregjor Sep 28 '12 at 17:32
1  
I just tried this on 2 files of ~2k lines each, and it got killed by the OS (granted, this is a not-so-powerful VM, but still). –  Trebor Rude Feb 18 at 1:45

If the order of the lines in the output doesn't matter, this works:

sort file_a file_b|uniq -u

This sorts both files, then uniq can easily find duplicates and remove them.

The -u switch on the uniq command means remove duplicates.

This has a O(n.log(n)) complexity for the sorting (assuming sort is using quicksort) and O(n) for removing duplicates on the sorted lines, so this will be faster than the grep version (O(n²)) if the files are large. Grep's version looks like this:

for each line l1 in f1
    for each line l2 in f2
        if l1 == l2
            break
        end if
    end for
    output l1 if no l2 == l1
endfor

Here is a quick benchmark with 15K entries in f1 and 7.5K in f2:

# add lines with number from 1 to 15000; randomly sorted; to f1
for i in $(seq 1 15000); do echo "$i"; done|sort -R > f1
# add lines with number from 1 to 15000 (with step 2); randomly sorted; to f2
for i in $(seq 1 2 15000); do echo "$i"; done|sort -R > f2

# sort|uniq -u method:
$ time sort f1 f2|uniq -u > /dev/null
real    0m0.067s
user    0m0.064s
sys     0m0.004s

# comm method (requires to sort both files separately first):
time (sort f1 > f1.sorted; sort f2 > f2.sorted; comm -2 -3 f1.sorted f2.sorted) > /dev/null
real    0m0.070s
user    0m0.068s
sys     0m0.000s


# grep method:
time grep -v -x -f f2 f1 > /dev/null
real    0m16.528s
user    0m16.457s
sys     0m0.048s

So the sort|uniq version takes only 0.07s while the grep version takes more than 16s, and this time will grow exponentially with the files' size.

share|improve this answer
    
Interesting but I'm not convinced. First of all I'm not sure that merging and sorting two files is O(n). Next even if this method can give you a list of lines to remove in file_a you still have to find a way to remove them. While it may be ok on a small file to vi-out those lines it will be unpractical on a large file. –  gabuzo Jan 24 '11 at 9:50
    
You are right on sorting, I counted only the removal of duplicate lines when they are already sorted. “this method can give you a list of lines to remove”: no, it outputs all lines that have no duplicates. “While it may be ok on a small file to vi-out those lines it will be unpractical on a large file”: unfortunately this is what your grep solution is doing ;-) I just added a quick benchmark. –  arnaud576875 Jan 24 '11 at 10:56
1  
Yup grep is probably not the most efficient think to use if you have to perform the task many times on large files. Your method has only one flaw: if f2 contains lines not in f1 then the result will contains those lines. –  gabuzo Jan 24 '11 at 13:25
1  
This would remove duplicates that may exist within each file which may need to be kept. –  Dennis Williamson Jan 24 '11 at 16:32
1  
finding lines that only occur in f1 OR f2 but not in both is not the same as removing lines from f1 that are in f2. The above solution will include lines that appear in f2 that aren't in f1. –  gregjor Sep 28 '12 at 17:45

Try comm instead:

comm -2 -3 f1 f2
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4  
I'm not sure comm is the solution has the question does not indicates that the lines in f1 are sorted which is a prerequisite to use comm –  gabuzo Jan 24 '11 at 9:54
    
This worked for me, as my files were sorted and had 250,000+ lines in one of them, only 28,000 in the other. Thanks! –  Winter May 26 at 22:22

if you have Ruby(1.9+)

#!/usr/bin/env ruby 
b=File.read("file2").split
open("file1").each do |x|
  x.chomp!
  puts x if !b.include?(x)
end

If you want to care about performance, here's another version

b=File.read("file2").split
a=File.read("file1").split
(a-b).each {|x| puts x}

here's a little benchmark, courtesy of user576875, but with 100K lines

$ for i in $(seq 1 100000); do echo "$i"; done|sort -R > file1
$ for i in $(seq 1 2 100000); do echo "$i"; done|sort -R > file2
$ time ruby test.rb > ruby.test

real    0m0.639s
user    0m0.554s
sys     0m0.021s

$time sort file1 file2|uniq -u  > sort.test

real    0m2.311s
user    0m1.959s
sys     0m0.040s

$ diff <(sort -n ruby.test) <(sort -n sort.test)
$

diff is used to show there are no differences between the 2 files generated.

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1  
This has O(n²) complexity and will start to take hours to complete once the files contain more than a few K lines. –  arnaud576875 Jan 24 '11 at 11:00
    
i don't really care at this juncture, because he did not mention any big files. –  kurumi Jan 24 '11 at 11:18
3  
There's no need to be so defensive, it's not as if @user576875 downvoted your answer or anything. :-) –  middaparka Jan 24 '11 at 11:33
    
very nice second version, ruby wins :) –  arnaud576875 Jan 24 '11 at 12:27

For files that aren't too huge, you can use AWK's associative arrays.

awk 'NR == FNR { list[tolower($0)]=1; next } { if (! list[tolower($0)]) print }' exclude-these.txt from-this.txt 

The output will be in the same order as the "from-this.txt" file. The tolower() function makes it case-insensitive.

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Seems to be a job suitable for the SQLite shell:

create table file1(line text);
create index if1 on file1(line ASC);
create table file2(line text);
create index if2 on file2(line ASC);
-- comment: if you have | in your files then specify “ .separator ××any_improbable_string×× ”
.import 'file1.txt' file1
.import 'file2.txt' file2
.output result.txt
select * from file2 where line not in (select line from file1);
.q
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$ for n in {1..10000}; do echo $RANDOM; done > f1
$ for n in {1..10000}; do echo $RANDOM; done > f2
$ time comm -23 <(sort f1) <(sort f2) > /dev/null

real    0m0.019s
user    0m0.023s
sys     0m0.012s
$ time ruby -e 'puts File.readlines("f1") - File.readlines("f2")' > /dev/null

real    0m0.026s
user    0m0.018s
sys     0m0.007s
$ time grep -xvf f2 f1 > /dev/null

real    0m43.197s
user    0m43.155s
sys     0m0.040s

sort f1 f2 | uniq -u isn't even a symmetrical difference, because it removes lines that appear multiple times in either file.

comm can also be used with stdin and here strings:

echo $'a\nb' | comm -23 <(sort) <(sort <<< $'c\nb') # a
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Similar to Dennis Williamson's answer:

awk '{if (f==1) { r[$0] } else if (! ($0 in r)) { print $0 } } ' f=1 exclude-these.txt f=2 from-this.txt

Accessing r[$0] creates the entry, no need to set a value.

Assuming awk uses a hash table with logarithmic update and constant lookup time, the time complexity of this will be O(n + m * log m). In my case, n was ~25 million and m ~14000. The awk solution was much faster than sort, and I also preferred keeping the original order.

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